Writer / Sarah van Keuren

The chapter called “Cyanotype” of Sarah Van Keuren’s book “A Non-Silver Manual: Cyanotype, Vandyke Brown, Palladium & Gum Bichromate with instructions for making light-resists including pinhole photography”.

Read the previous section of this book.

In England in 1842, just three years after the official invention of photography, Sir John Herschel coined the word ‘cyanotype’ (cyan from the Greek for blue and type meaning print) for a process he invented in order to make copies of his astronomical calculations. His friend Anna Atkins learned the process from him and in 1843 produced a volume of photograms of British algae that is now recognized as the first photographic book. Looked down upon in the 19th century as a vulgar means of cheap reproduction, the blues and other hues of cyanotype are now treasured for their vibrancy and permanence.

My grandmother, over one hundred years ago, learned about the masterpieces of European painting through cyanotypes (contact-printed from view camera negatives) that were distributed to her high school class. Her set of cyanotypes, still in excellent condition, was glued into several notebooks and surrounded by her handwritten notes. It must have been a shock for her when eventually she saw the paintings in color. Some of these early reproductions are mournfully appealing in their fine blue complexity.
The cyanotype process is based on the fact that upon exposure to sunlight or other actinic light, ferric ammonium citrate, a light-sensitive iron salt, is reduced to the ferrous state and turns blue in the presence of another iron salt, potassium ferricyanide.

Part A: The first part of the cyanotype solution is ferric ammonium citrate. (see under ArtChemicals.com in “Resources”). This iron salt is not especially toxic and was in fact prescribed long ago as a dietary iron supplement. The kind that we use is a bright green, almost chartreuse, powder that should come in a light-proof brown jar (or be stored in darkness) with a tight-fitting lid to prevent moisture from turning the hydrophilic light green powder into a sticky and, later, hardened dark green glob.

To prepare this part of the solution, pour 8 ounces of distilled water into a wide-mouthed container. Carefully spoon 50 grams (a little less than 2 ounces) of the powdered ferric ammonium citrate into a paper ‘boat’ on a scale and then pour the iron salts into the distilled water slowly, stirring as you pour. After a week or so a moldy scum will begin to form on this solution. In the early stages, it can be ignored with no ill effects in printing. Later it can be lifted or strained out of the solution. You can prevent the mold from getting started in the first place by adding a few drops of formaldehyde to the solution, but formaldehyde is toxic and, unless it is already on hand for other purposes, it might be wiser to do without it in a home studio and to strain the solution instead.

Part B: The second part of the solution is potassium ferricyanide which turns blue where it is in contact with ferrous ammonium citrate. Since potassium ferricyanide (not to be confused with potassium ferrocyanide) is a commonly used bleach for black-and-white films and prints, it can be bought at well-stocked photography stores or ordered via the internet or by phone (see “Resources”). This chemical is caustic and potentially more toxic than the ferric ammonium citrate. It should not be combined with acid because cyanide gas could be released. There are varying opinions among chemists and safety experts as to whether cyanide gas is released during the exposure to actinic light of a surface sensitized with cyanotype chemistry. Most think that it is not a problem, but to be on the safe side, step back when opening a contact frame in which a cyanotype has been exposed and do not inhale the fumes that float off the hot print.
You now have the two components of the cyanotype process which, when stored separately, will last a few years. However, if you combine the two components, the complete solution is useable for a day at most. I store my A and B solutions in recycled plastic bottles with dispenser tops. I opaque the bottles with black photographic tape and put a patch of white tape over the black on which I write the name of the chemical, a big A or a big B, and the date each solution was prepared.

To summarize:

Part A: 50 grams ferric ammonium citrate in 8 ounces (236 ml) distilled water
optional: add a few drops of 37% formaldehyde to prevent mold

Part B: 35 grams potassium ferricyanide in 8 ounces (236 ml) distilled water

Combine parts A & B in equal amounts when you’re ready to use it.
Use all of the complete solution within 12 hours or less.

Printing Surfaces

Cyanotype prints well on organic materials such as cotton, silk, linen, mulberry, and wood. It prints weakly, if at all, on synthetic materials. Contrast and sharpness vary depending on the surface of the material. A soft, unsized cotton paper such as BFK Rives will absorb a lot of the solution and, if given enough exposure, can produce a tonally rich print. On such a surface, apply the solution liberally and gently to avoid raising little tufts of fiber that could lift off your print during development and washing, leaving a snowstorm of white dots on your image. Harder, less absorbent surfaces, such as Arches Platine or Strathmore 500, require less solution and render sharper detail. No added sizing is needed for any of these papers.

Preparing to Print

Before coating paper with cyanotype chemistry, place your light-resist upon the sheet of printing paper and lightly pencil its corners so that you know the boundaries of your image area. Or, since it is not necessary to adhere to a rectangular or square format, place the negative transparency beneath the printing paper on a light table and sketch the area or shapes that you wish to render in cyanotype. Try to avoid touching the image area of your paper, especially very smooth papers such as Platine or hot-press Strathmore 500, because greasy fingerprints can repel the cyanotype solution that you will apply.

Keeping Notes

It is my practice to write notes with an HB pencil along the edges of a print, usually on the image side so that I don’t have to keep turning the print over to refer to them. Beginning in the lower left corner I note the kind of paper I am using, whether or not it has been preshrunk, and the title of the negative (with date if possible). Then I write down the first process to be applied to the paper. A typical note might read:

1) cyanotype in sun 5 minutes around noon 6/21/08

It is only by keeping careful notes that you can hope to repeat an image. During the printing process I feel I could never forget what I have done, but a week later it is difficult to recall if the cyanotype that printed so well, (now under hardened gelatin sizing and 5 layers of gum), was exposed for 5 or 10 minutes. If you can discipline yourself to keep notes, you will learn from every print you make and avoid repeating mistakes, wasting materials, and becoming discouraged.

Preparing to Coat Paper

When you are ready to apply the cyanotype solution, tape the corners of your printing paper to a clean, dry, smooth surface so that the paper doesn’t slide around. Drafting tape is ideal because it releases easily and will not tear the paper. Masking tape can serve the same purpose if you reduce its tack by repeatedly touching it to your finger or some other surface so that it doesn’t pull off paper fibers when you remove the tape. When coating a thin paper that will curl upon itself and possibly mar itself as it dries, tape the paper to a piece of glass or plexi that can be slipped into the drying rack (or if you are drying it on a line, weight the lower corners with clothespins or make some other arrangement). When coating thin cloth or porous rice paper, tape the material to glass or plexi to prevent contamination of —and possibly from—the drying racks.

Combine the A and B parts of the cyanotype solution using the minimum amount you think you will need for this printing session so you don’t waste any. More can be mixed quickly if needed. In a small graduated cylinder, combine the 2 parts of the cyanotype solution. Five milliliters of each chemical mixed together should be enough to coat 8˝ x 10˝ areas on 4 sheets of paper, depending on the paper’s absorbency. The complete solution can be poured into a shallow container that will accommodate a brush.

Brushing on Cyanotype Solution

Dip a clean dry brush (any kind of brush as long as no metal comes in contact with the chemicals) into the greenish-yellow liquid, charging it fairly liberally, and apply the solution where you intend to sensitize the paper. In a class situation do not brush the solution all the way to the edges of the paper because then it tends to creep onto the back of the sheet, which contaminates the coating area and drying screens (or clothespins) as well as your fingers. Remember that even dry chemicals can offset onto your always slightly moist fingers and from your fingers they can offset again into your eyes, mouth, food, etc. Having a chemical-free border gives you a margin of safety, as well as space for notes, signature, etc. If you wish to have blue to the edges of your paper, you can print on a larger piece of paper with clear borders and then tear or cut it down to the blue when the print is finished and dried. Or if you are using a paper with special edges that must be blue you can tape the paper to larger sheet of glass or plexi that you put in the drying area. Please carefully clean the glass or plexi when done and return it to its home.

Use a dry sponge brush to soak up excess liquid you may have brushed onto your paper; otherwise, your final print might be streaky with white patches. Orange crystals of potassium ferricyanide form as puddles of excess solution dry and mask actinic light, preventing it from creating Prussian blue on your paper. The result can be a white crystalline pattern, like frost on a window, just where you may have intended the richest blue to print. Perhaps you will find that you actually like this effect and will puddle cyanotype solution intentionally at times. Subtle puddling of cyanotype chemicals may be responsible for variations in the blue intensity of prints that have been given identical exposure times.

Dry the paper in darkness, with circulating air if possible. After about 10 minutes, go over both sides of the paper with a hairdryer. Avoid touching the coated surface with your fingers. The paper is dry if it looks flat, doesn’t feel cool on the back, and flexes easily with a slight crackling sound. If the paper is not dry, your negative could be stained or bleached by the still damp cyanotype solution (potassium ferricyanide does bleach silver in addition to making Prussian blue). Try to expose coated paper soon after the brushed-on solution is dry, but, if necessary, it can be stored longer in low humidity. If there has been a delay in exposure of coated paper under humid conditions or if the paper is not completely dry, lavender tints may appear in image highlights and contrast may diminish. Often the lavender tints disappear as the cyanotype dries.

Exposure

For printing by inspection, hinge one side of your negative to the sensitized paper with 2 small pieces of clear tape so you can lift the negative to check the exposure (like turning a page in a book) without losing registration.

Cyanotype usually requires considerably more actinic light than the other processes described in this manual. My favorite actinic light source is the sun. It is free, clean, powerful, relatively safe, and fun to use. The best times for making sun exposures year round (at least in Pennsylvania) are between 10am and 3pm — and later into the afternoon in the summer months. An efficient exposure is achieved if you position your contact frame like a solar panel so that the sun’s rays are perpendicular to the printing paper and travel the shortest distance through the glass of the contact frame. However, if you are using a windowsill you must leave the contact frame flat. Never risk the calamity of a contact frame falling out of a window!

It is a waste of time and energy to use tungsten photofloods to expose cyanotypes. Their predominant wavelength is yellow and cyanotype does not react to yellow light. What’s worse, the heat from a photoflood may crack the glass of the contact frame. Unfiltered blacklight bulbs are cool slow sources of actinic light. If you can find one these days, an old-fashioned 275w sunlamp bulb works also but takes even longer.

A pulsed-xenon or mercury vapor bulb in a platemaker (primarily intended to expose lithographic plates) is a powerful actinic light source but is not really intended for long cyanotype exposures (and, in the process, generates ozone that should be vented). The very expensive bulb may overheat and rupture unless given a chance to cool periodically.

Don’t use an old-fashioned carbon arc unless you have very good ventilation. Potentially lethal carbon monoxide is released by the burning charcoal.

Exposure times with all of these light sources depend on the density of the negative and can vary greatly. A sufficiently exposed cyanotype should look grossly overexposed and solarized before development. If you sit outside and watch a bit of cyanotype on paper (that is brushed beyond the border of the negative) respond to the actinic light of the sun, you will see the greenish-yellow cyanotype coating turn aqua-green immediately. The coating then turns deep blue. If you stopped exposing at this point, removed the negative, and submerged the paper in water, most of the cyanotype solution would probably wash off the image area and, at most, you might be left with a faint blue border around your image. A strong deep blue print results when the most open parts of the negative, that are going to print the darkest blues, have solarized to light silvery purple or light greenish gray or even beige, depending on the kind of paper used. What will end up as the deepest blue areas should look lighter than the surrounding printed-out tones.

If you are in the habit of using a 21-step film scale in your margin and wish to print to step 11, expose until you see tones printed out through step 17 before developing in water where it will lose about 6 steps.

When exposing through continuous-tone film it is important to check underneath the film for signs of solarization rather than going by the color of the sensitized paper that is not covered by the negative. To give an example, when you’re exposing a cyanotype using a film such as sheet Tri-X, you need to give twice as much exposure to get maximum density in the open parts of the negative as you do in the margins because of the inherent density of the film base plus the unavoidable chemical fogging that occurs on continuous-tone film. This extra density is referred to as film-base-plus-fog.

Development

Fill a tray with cool water for the preliminary washing of the exposed cyanotype. Slip your paper into the tray face up and rock the tray to make sure no bubbles are trapped on the print’s surface. Lift the print with tongs or gloved hands and slide it back into the tray face down. Continue lifting and flipping the print, face up, face down, for at least 2 minutes. (Change the water in the tray every few prints to get rid of the chemicals that leach into the water as they release from the unexposed areas of the paper’s surface.)

Transfer the print to a larger wash tray equipped with a tray siphon running fast enough so that it injects fresh water into the tray and pulls out used water from lower down, but not so fast that it buffets and crimps the print. A thick, soft paper such as BFK Rives, which absorbs chemicals deep into its fiber, requires longer washing than a harder, thinner paper such as single-ply Strathmore 500. Determining how long to wash the print requires judgment regarding paper strength, archival qualities, and water conservation. Certainly any paper is not sufficiently washed if water draining off the print is yellow instead of clear but there is no need for excessive washing that can actually remove some of the image as well as waste precious water.

Bleaching a Cyanotype

It is common practice to deepen the blue of shadow areas with a brief bleaching of the cyanotype — and perhaps, in the process, to retrieve overexposed details and clear foggy highlights. In the past we have immersed the cyanotype in a solution of approximately one part household laundry bleach (5% sodium hypochlorite) to 32 parts water. Because bleach tends to make paper fibers short and brittle, the print must be washed afterwards until you can no longer smell the bleach on the paper.

In Finland, sodium hypochlorite is considered so harmful to the environment that a prescription is required to obtain it. My Finnish friends suggested a dash of hydrogen peroxide as a safer alternative since it reduces to water instead of forming harmful chlorine compounds, has no fumes, and is gentler to paper fibers. I found that peroxide had the advantage of deepening the blue of the most exposed parts of a cyanotype without bleaching away any highlight detail. I have since read and then seen for myself (to my embarrassment) that peroxide simply gives us a preview of how the cyanotype will look when thoroughly dry — which is a darker blue than when first developed and wet.

In my search for a kinder, gentler bleach, I have Judy Seigel, editor of Post-Factory Photography, (see “Resources”), to thank for letting me know about bleaching with odorless and more effective sodium carbonate, commonly known as soda ash and available in the laundry section of grocery stores as ‘washing soda’. I have not yet determined its effect on paper fiber but suspect that it is less destructive.

Prolonged immersion in either sodium carbonate or sodium hypochlorite takes a cyanotype back through color changes that the print went through during exposure, but in reverse order. You may stop the bleaching process at any shade of blue, green or yellow that you fancy by pulling the print from the bleach tray and plunging it into a tray of water. A continuous-tone image will often bleach into a split-tone with gray highlights and blue shadows or yellow highlights and green shadows. This occurs because the bleaching has more impact on the thin highlight passages than in the denser shadow areas.

Richer bleached colors result when you overexpose onto a soft paper such as BFK Rives which absorbs more of the cyanotype solution than a hard paper such as single-ply Strathmore 500.

Toning with Tannic Acid & Sodium Carbonate

During prolonged bleaching, the lighter tones disappear first and eventually the entire image will turn a pale yellow or gray or vanish. These lost tones can be restored in a rosy-brown color by putting the bleached cyanotype in a tray of water laced with lithographer’s tannic acid, a light brown powder (see Bostick & Sullivan in “Resources”) that smells like instant tea mix. In the past we used to bleach cyanotypes in household bleach (sodium hypochlorite) and then bring back the image in tannic acid.

If you are using sodium carbonate as your bleach the instructions seem counter-intuitive but it works to immerse the print briefly in tannic acid (about 1/2 teaspoon to a quart of water) and then in sodium carbonate (about 1/2 teaspoon to a quart of water) and then back into the tannic acid and on to a preliminary wash tray and a final wash tray.

Wear gloves when handling the jar of powdered tannic acid and when toning prints in a tray of tannic acid in water since it stains the skin. The darkening action of tannic acid continues during the washing and drying of the print. Through experience you’ll learn to remove your print from the tannic acid bath before reaching the desired effect.

If you are using a continuous tone negative, a duotone image with rosy brown highlights and blue shadows can be gotten with partial bleaching and toning.

Discard the tray of tannic acid at the end of the toning session. It does not keep well. You can discard the tray of sodium carbonate too.

According to the artist Enid Mark, the tannin in strong cheap tea will give a warmer tone than tannic acid. She has applied bleach selectively (she used household bleach but you might try sodium carbonate) and toning with tea to achieve ‘local’ color within a print. A dry cyanotype on a flat surface can be brushed selectively with bleach and then flooded with water so that the bleach is washed out but the surrounding areas are not affected noticeably. Applying bleach to a damp or even a wet cyanotype will give softer edges as the bleach bleeds into surrounding areas. A slow transition, or gradient, from deep blue all the way to yellow can be achieved by immersing the part of the print to be lightened in a bleach bath and moving it skillfully to avoid ‘lap’ marks. Having the print damp to encourage capillary action helps to soften the effect here too. The same strategies apply to the application of either tannic acid or strong tea in areas that have been bleached to restore the original cyanotype image but in brownish tones. You should be warned that tannic acid slightly stains the white parts of a cyanotype image. Strong tea is even more likely to discolor highlights; after all, it has been used for a long time to tint white lace and crocheted doilies.

Deconstructing Cyanotype

I highly recommend Cyanotype: The History, Science and Art of Photographic Printing in Prussian Blue by Dr. Mike Ware’s (see “Resources”). After reading it, I began to experiment with the components of cyanotype, attempting an artist’s deconstruction of the medium.
The most interesting result came from coating paper with Part A, the light-sensitive ferric ammonium citrate, alone. Exposing the coated paper to actinic light through the negative produced a tan rendition of the image, which washed off the paper entirely in water. But if, instead of developing in water after exposure, Part B, potassium ferricyanide, is selectively brushed on the Part A rendition, the image instantly turns blue wherever the brush touches the image area. As you slip the paper into the tray of water, a fine veil of blue may appear where potassium ferricyanide drifts across parts of the image that you didn’t brush it onto. This delicate effect can be controlled by the flow of the water. A few students experimented with this way of working. There was some notable success mixed with a little disappointment that the blue wasn’t quite as vibrant as it is when Parts A & B are mixed, applied, and exposed together.

Read the next section of the book.

March 28th, 2015
Registration Online

This workshop is an investigation into the expressive possibilities of the Cyanotype process and will cover and demonstrate the techniques and procedures used for making these aptly named blue-toned prints.

Students will learn the cyanotype process from start to finish, starting with the mixing of its iron-based, light sensitive emulsion, coating the paper with the emulsion and finally, by placing a negative on the coated paper and exposing it to a UV light source. Different chemistry formulas, emulsions, coating methods and paper choices will be discussed.

Students should be prepared to bring in several of their own images in negative form. Medium and large format B&W negatives, paper and acetate negatives and digital negatives are all appropriate for this workshop.

Five Days of Alternative Processes with Morgan Post
August 17-21 | 10 AM – 6 PM
$1125 | Members $1012.50
Registration Online

Are you seeking a hands-on photographic experience using historic 19^th century processes? Each day, students engage with the chemistry and the materials and that will enrich and inform your photographs.

Among the processes you’ll learn are:
-Cyanotype/Vandyke
-Albumen
-Platinum/Palladium
-Kallitype
-Salted Paper

Different toning options and techniques will be demonstrated and discussed. Students will be contact printing, which requires a large format or digital negative. Negatives can be prepared for students in advance.*

Participants will be hand coating artist papers, and experimenting with different approaches within the medium. All other materials will be provided.
Recommended for the novice to advanced, those who are interested in a firsthand educational experience in the history of photography.

MORGAN POST has been a large format wet plate photographer and educator for the past seven years. Post holds a MFA degree from Utah State University, a BFA degree from the School Of Visual Arts, and an Associates Degree from Maine Media Workshops. He has worked extensively as a fine art and commercial photographer & digital artist in both Los Angeles and New York. He is currently teaching at Long Island University Brooklyn, Center For Alternative Photography and Fairfield University. morganpoststudio.com

Questions? Contact : Molly@penumbrafoundation.org

Penumbra Foundation
36 East 30th Street
NYC 10016 – 917.288.0343

Writer and photography / “kdstevens” on Lomography

Cyanotypes are fun and easy and are the perfect way to begin your exploration of alternative and historical photographic processes.

You need four things to make a cyanotype:

1. Sensitizing solution; either in a kit or mixed yourself.
2. A medium; usually smooth, 100% rag paper but you can also use cloth, wood, or your neighbor’s dog.
3. A suitable negative. Suitable means big—35mm or 120 just won’t cut it. The negative should have a full range of densities—flat negatives also won’t cut it.
4. A contact print frame. (A piece of glass a little larger than your negative will do or you can make one using a photo frame, some foam core board, and some spring clamps.)
5. Oops! There’s a fifth one: a UV light source. The sun will do nicely for this.

Let’s take them step by step.

If you buy the kit (hint: buy the kit first time around) then just add distilled water to the 2 bottles in the kit and shake until the contents are dissolved. If you do it yourself; get a scale, mixing rod, beakers, storage bottles, and chemicals together. Then measure and add 20 grams of ferric ammonium citrate to 100 ml of distilled water and mix until dissolved and decant into a brown glass bottle. This is solution A. Next add 8 grams of potassium ferricyanide to 100 ml of distilled water and mix and decant that into a brown glass bottle. This is solution B. You can store them separately in a cool dark place for several months.




Mix equal parts of A and B together and coat the paper or other medium under dim incandescent lighting using a foam brush (or any brush without a metal ferrule—I know, I know, the photos show me using a brush with a metal ferrule, but don’t make the mistake I did). Brush the solution evenly over the medium using up and down and back and forth brush strokes. Set the coated paper aside in a dark location to dry completely. Some people recommend coating the paper a second time. I’ve done it both ways and have gotten good results from each.






We are making contact prints here so the print comes out the same size as the negative you’re using so, unless you have a large format camera, you will need to make a digital negative. Whole books have been written on the subject but you don’t need to make a big deal out of it. Just get some Pictorico Premium Overhead Transparency Film (OHP). Then, open your image in whatever post production software you use and, if it’s not already in black and white, then convert it using your favorite method. (There are many ways to do this in Photoshop; some better than others—but that’s a subject for a whole other tipster.) Once you have a black and white image and have adjusted the levels, brightness and contrast to your liking, invert (or reverse) the image. Using an inkjet printer, print the reversed image onto the OHP film at whatever size you want the final image to be and you are done. (After you gain more experience exposing and developing cyanotypes you’ll likely wish to adjust the tonal values a bit and reprint the negative.)

A cheap contact print frame can be made using a picture frame with glass, some foam core board or plywood cut to fit inside the frame and some clamps to clamp it all together. You can also just use a piece of glass or Plexiglas. Whatever you use, you want to end up with the negative, emulsion side down, on top of your dry, sensitized paper and both pressed underneath the sheet of glass. So that’s negative and paper, emulsion side to emulsion side, underneath the glass (this can be done under normal room lighting).





Expose the negative and sensitized paper in direct sunlight. The exposure will vary depending of the paper used, the density of the negative, and the amount of sunlight amongst other variables. Where I live (in California) during the summer months, exposures run from 3 minutes up to 6 minutes. Winter months or northern latitudes can take up to 30 minutes. That’s why, especially early on, you need to be able inspect your print as it’s being exposed. You’ll notice in the accompanying photographs that my contact print frames have hinged backs. That’s so that I can open up one side and lift the paper to check the exposure without losing registration between the negative and the paper. You can also tape one edge of the negative to the paper using clear tape if you’re not using a contact print frame. Obviously, check the exposure out of direct sunlight. The exposed image should be a little darker than what you want the final image to be. The darkest shadow areas may even start to reverse and become lighter, almost like a solarized photograph.

Development couldn’t be easier: just wash the print for about 10 minutes under slowly running tap water. The image will lighten and the blue stain will wash off of the highlights and may even seem too light. Set the print out to dry on a nylon window screen or hanging from a clothes line. As it dries, the highlights should darken a little a pick up more detail and the shadows lighten and pick up more details there also.

That’s it—you’re done! Pat yourself on the back and congratulate yourself in the knowledge that you’ve just made a print the same way it was done back in 1842.

This article is originally from the Lomography tipster series.

Writer / Malin Fabbri

Download a free Cyanotype workshop compendium. For Cyanotype workshop for beginners using pre coated paper.

This summer I held workshops in cyanotypes. It was a good deal of fun. No blood, but definitely sweat – during a rainy period and the UV light blowing the fuse – and a couple of tears from frustrated children with too high ambition for their masterpieces. But, mostly fun.

To make a long story short. Before the workshop I had a last minute “Oh darn, I should really have a compendium too!” situation. I made one and it’s now sitting here waiting to be used again. So, to save you all from last minute workshop panics, here it is. For free of course. Welcome to use it.

The compendium is for workshops for beginners using pre coated papers.

• Download the English version
• Download the Swedish version

Good luck with your workshop!

Writer / Sarah van Keuren

The chapter called “Cyanotype” of Sarah Van Keuren’s book “A Non-Silver Manual: Cyanotype, Vandyke Brown, Palladium & Gum Bichromate with instructions for making light-resists including pinhole photography”.

Read the previous section of this book.

In England in 1842, just three years after the official invention of photography, Sir John Herschel coined the word ‘cyanotype’ (cyan from the Greek for blue and type meaning print) for a process he invented in order to make copies of his astronomical calculations. His friend Anna Atkins learned the process from him and in 1843 produced a volume of photograms of British algae that is now recognized as the first photographic book. Looked down upon in the 19th century as a vulgar means of cheap reproduction, the blues and other hues of cyanotype are now treasured for their vibrancy and permanence.

My grandmother, over one hundred years ago, learned about the masterpieces of European painting through cyanotypes (contact-printed from view camera negatives) that were distributed to her high school class. Her set of cyanotypes, still in excellent condition, was glued into several notebooks and surrounded by her handwritten notes. It must have been a shock for her when eventually she saw the paintings in color. Some of these early reproductions are mournfully appealing in their fine blue complexity.
The cyanotype process is based on the fact that upon exposure to sunlight or other actinic light, ferric ammonium citrate, a light-sensitive iron salt, is reduced to the ferrous state and turns blue in the presence of another iron salt, potassium ferricyanide.

Part A: The first part of the cyanotype solution is ferric ammonium citrate. (see under ArtChemicals.com in “Resources”). This iron salt is not especially toxic and was in fact prescribed long ago as a dietary iron supplement. The kind that we use is a bright green, almost chartreuse, powder that should come in a light-proof brown jar (or be stored in darkness) with a tight-fitting lid to prevent moisture from turning the hydrophilic light green powder into a sticky and, later, hardened dark green glob.

To prepare this part of the solution, pour 8 ounces of distilled water into a wide-mouthed container. Carefully spoon 50 grams (a little less than 2 ounces) of the powdered ferric ammonium citrate into a paper ‘boat’ on a scale and then pour the iron salts into the distilled water slowly, stirring as you pour. After a week or so a moldy scum will begin to form on this solution. In the early stages, it can be ignored with no ill effects in printing. Later it can be lifted or strained out of the solution. You can prevent the mold from getting started in the first place by adding a few drops of formaldehyde to the solution, but formaldehyde is toxic and, unless it is already on hand for other purposes, it might be wiser to do without it in a home studio and to strain the solution instead.

Part B: The second part of the solution is potassium ferricyanide which turns blue where it is in contact with ferrous ammonium citrate. Since potassium ferricyanide (not to be confused with potassium ferrocyanide) is a commonly used bleach for black-and-white films and prints, it can be bought at well-stocked photography stores or ordered via the internet or by phone (see “Resources”). This chemical is caustic and potentially more toxic than the ferric ammonium citrate. It should not be combined with acid because cyanide gas could be released. There are varying opinions among chemists and safety experts as to whether cyanide gas is released during the exposure to actinic light of a surface sensitized with cyanotype chemistry. Most think that it is not a problem, but to be on the safe side, step back when opening a contact frame in which a cyanotype has been exposed and do not inhale the fumes that float off the hot print.
You now have the two components of the cyanotype process which, when stored separately, will last a few years. However, if you combine the two components, the complete solution is useable for a day at most. I store my A and B solutions in recycled plastic bottles with dispenser tops. I opaque the bottles with black photographic tape and put a patch of white tape over the black on which I write the name of the chemical, a big A or a big B, and the date each solution was prepared.

To summarize:

Part A: 50 grams ferric ammonium citrate in 8 ounces (236 ml) distilled water
optional: add a few drops of 37% formaldehyde to prevent mold

Part B: 35 grams potassium ferricyanide in 8 ounces (236 ml) distilled water

Combine parts A & B in equal amounts when you’re ready to use it.
Use all of the complete solution within 12 hours or less.

Printing Surfaces

Cyanotype prints well on organic materials such as cotton, silk, linen, mulberry, and wood. It prints weakly, if at all, on synthetic materials. Contrast and sharpness vary depending on the surface of the material. A soft, unsized cotton paper such as BFK Rives will absorb a lot of the solution and, if given enough exposure, can produce a tonally rich print. On such a surface, apply the solution liberally and gently to avoid raising little tufts of fiber that could lift off your print during development and washing, leaving a snowstorm of white dots on your image. Harder, less absorbent surfaces, such as Arches Platine or Strathmore 500, require less solution and render sharper detail. No added sizing is needed for any of these papers.

Preparing to Print

Before coating paper with cyanotype chemistry, place your light-resist upon the sheet of printing paper and lightly pencil its corners so that you know the boundaries of your image area. Or, since it is not necessary to adhere to a rectangular or square format, place the negative transparency beneath the printing paper on a light table and sketch the area or shapes that you wish to render in cyanotype. Try to avoid touching the image area of your paper, especially very smooth papers such as Platine or hot-press Strathmore 500, because greasy fingerprints can repel the cyanotype solution that you will apply.

Keeping Notes

It is my practice to write notes with an HB pencil along the edges of a print, usually on the image side so that I don’t have to keep turning the print over to refer to them. Beginning in the lower left corner I note the kind of paper I am using, whether or not it has been preshrunk, and the title of the negative (with date if possible). Then I write down the first process to be applied to the paper. A typical note might read:

1) cyanotype in sun 5 minutes around noon 6/21/08

It is only by keeping careful notes that you can hope to repeat an image. During the printing process I feel I could never forget what I have done, but a week later it is difficult to recall if the cyanotype that printed so well, (now under hardened gelatin sizing and 5 layers of gum), was exposed for 5 or 10 minutes. If you can discipline yourself to keep notes, you will learn from every print you make and avoid repeating mistakes, wasting materials, and becoming discouraged.

Preparing to Coat Paper

When you are ready to apply the cyanotype solution, tape the corners of your printing paper to a clean, dry, smooth surface so that the paper doesn’t slide around. Drafting tape is ideal because it releases easily and will not tear the paper. Masking tape can serve the same purpose if you reduce its tack by repeatedly touching it to your finger or some other surface so that it doesn’t pull off paper fibers when you remove the tape. When coating a thin paper that will curl upon itself and possibly mar itself as it dries, tape the paper to a piece of glass or plexi that can be slipped into the drying rack (or if you are drying it on a line, weight the lower corners with clothespins or make some other arrangement). When coating thin cloth or porous rice paper, tape the material to glass or plexi to prevent contamination of —and possibly from—the drying racks.

Combine the A and B parts of the cyanotype solution using the minimum amount you think you will need for this printing session so you don’t waste any. More can be mixed quickly if needed. In a small graduated cylinder, combine the 2 parts of the cyanotype solution. Five milliliters of each chemical mixed together should be enough to coat 8˝ x 10˝ areas on 4 sheets of paper, depending on the paper’s absorbency. The complete solution can be poured into a shallow container that will accommodate a brush.

Brushing on Cyanotype Solution

Dip a clean dry brush (any kind of brush as long as no metal comes in contact with the chemicals) into the greenish-yellow liquid, charging it fairly liberally, and apply the solution where you intend to sensitize the paper. In a class situation do not brush the solution all the way to the edges of the paper because then it tends to creep onto the back of the sheet, which contaminates the coating area and drying screens (or clothespins) as well as your fingers. Remember that even dry chemicals can offset onto your always slightly moist fingers and from your fingers they can offset again into your eyes, mouth, food, etc. Having a chemical-free border gives you a margin of safety, as well as space for notes, signature, etc. If you wish to have blue to the edges of your paper, you can print on a larger piece of paper with clear borders and then tear or cut it down to the blue when the print is finished and dried. Or if you are using a paper with special edges that must be blue you can tape the paper to larger sheet of glass or plexi that you put in the drying area. Please carefully clean the glass or plexi when done and return it to its home.

Use a dry sponge brush to soak up excess liquid you may have brushed onto your paper; otherwise, your final print might be streaky with white patches. Orange crystals of potassium ferricyanide form as puddles of excess solution dry and mask actinic light, preventing it from creating Prussian blue on your paper. The result can be a white crystalline pattern, like frost on a window, just where you may have intended the richest blue to print. Perhaps you will find that you actually like this effect and will puddle cyanotype solution intentionally at times. Subtle puddling of cyanotype chemicals may be responsible for variations in the blue intensity of prints that have been given identical exposure times.

Dry the paper in darkness, with circulating air if possible. After about 10 minutes, go over both sides of the paper with a hairdryer. Avoid touching the coated surface with your fingers. The paper is dry if it looks flat, doesn’t feel cool on the back, and flexes easily with a slight crackling sound. If the paper is not dry, your negative could be stained or bleached by the still damp cyanotype solution (potassium ferricyanide does bleach silver in addition to making Prussian blue). Try to expose coated paper soon after the brushed-on solution is dry, but, if necessary, it can be stored longer in low humidity. If there has been a delay in exposure of coated paper under humid conditions or if the paper is not completely dry, lavender tints may appear in image highlights and contrast may diminish. Often the lavender tints disappear as the cyanotype dries.

Exposure

For printing by inspection, hinge one side of your negative to the sensitized paper with 2 small pieces of clear tape so you can lift the negative to check the exposure (like turning a page in a book) without losing registration.

Cyanotype usually requires considerably more actinic light than the other processes described in this manual. My favorite actinic light source is the sun. It is free, clean, powerful, relatively safe, and fun to use. The best times for making sun exposures year round (at least in Pennsylvania) are between 10am and 3pm — and later into the afternoon in the summer months. An efficient exposure is achieved if you position your contact frame like a solar panel so that the sun’s rays are perpendicular to the printing paper and travel the shortest distance through the glass of the contact frame. However, if you are using a windowsill you must leave the contact frame flat. Never risk the calamity of a contact frame falling out of a window!

It is a waste of time and energy to use tungsten photofloods to expose cyanotypes. Their predominant wavelength is yellow and cyanotype does not react to yellow light. What’s worse, the heat from a photoflood may crack the glass of the contact frame. Unfiltered blacklight bulbs are cool slow sources of actinic light. If you can find one these days, an old-fashioned 275w sunlamp bulb works also but takes even longer.

A pulsed-xenon or mercury vapor bulb in a platemaker (primarily intended to expose lithographic plates) is a powerful actinic light source but is not really intended for long cyanotype exposures (and, in the process, generates ozone that should be vented). The very expensive bulb may overheat and rupture unless given a chance to cool periodically.

Don’t use an old-fashioned carbon arc unless you have very good ventilation. Potentially lethal carbon monoxide is released by the burning charcoal.

Exposure times with all of these light sources depend on the density of the negative and can vary greatly. A sufficiently exposed cyanotype should look grossly overexposed and solarized before development. If you sit outside and watch a bit of cyanotype on paper (that is brushed beyond the border of the negative) respond to the actinic light of the sun, you will see the greenish-yellow cyanotype coating turn aqua-green immediately. The coating then turns deep blue. If you stopped exposing at this point, removed the negative, and submerged the paper in water, most of the cyanotype solution would probably wash off the image area and, at most, you might be left with a faint blue border around your image. A strong deep blue print results when the most open parts of the negative, that are going to print the darkest blues, have solarized to light silvery purple or light greenish gray or even beige, depending on the kind of paper used. What will end up as the deepest blue areas should look lighter than the surrounding printed-out tones.

If you are in the habit of using a 21-step film scale in your margin and wish to print to step 11, expose until you see tones printed out through step 17 before developing in water where it will lose about 6 steps.

When exposing through continuous-tone film it is important to check underneath the film for signs of solarization rather than going by the color of the sensitized paper that is not covered by the negative. To give an example, when you’re exposing a cyanotype using a film such as sheet Tri-X, you need to give twice as much exposure to get maximum density in the open parts of the negative as you do in the margins because of the inherent density of the film base plus the unavoidable chemical fogging that occurs on continuous-tone film. This extra density is referred to as film-base-plus-fog.

Development

Fill a tray with cool water for the preliminary washing of the exposed cyanotype. Slip your paper into the tray face up and rock the tray to make sure no bubbles are trapped on the print’s surface. Lift the print with tongs or gloved hands and slide it back into the tray face down. Continue lifting and flipping the print, face up, face down, for at least 2 minutes. (Change the water in the tray every few prints to get rid of the chemicals that leach into the water as they release from the unexposed areas of the paper’s surface.)

Transfer the print to a larger wash tray equipped with a tray siphon running fast enough so that it injects fresh water into the tray and pulls out used water from lower down, but not so fast that it buffets and crimps the print. A thick, soft paper such as BFK Rives, which absorbs chemicals deep into its fiber, requires longer washing than a harder, thinner paper such as single-ply Strathmore 500. Determining how long to wash the print requires judgment regarding paper strength, archival qualities, and water conservation. Certainly any paper is not sufficiently washed if water draining off the print is yellow instead of clear but there is no need for excessive washing that can actually remove some of the image as well as waste precious water.

Bleaching a Cyanotype

It is common practice to deepen the blue of shadow areas with a brief bleaching of the cyanotype — and perhaps, in the process, to retrieve overexposed details and clear foggy highlights. In the past we have immersed the cyanotype in a solution of approximately one part household laundry bleach (5% sodium hypochlorite) to 32 parts water. Because bleach tends to make paper fibers short and brittle, the print must be washed afterwards until you can no longer smell the bleach on the paper.

In Finland, sodium hypochlorite is considered so harmful to the environment that a prescription is required to obtain it. My Finnish friends suggested a dash of hydrogen peroxide as a safer alternative since it reduces to water instead of forming harmful chlorine compounds, has no fumes, and is gentler to paper fibers. I found that peroxide had the advantage of deepening the blue of the most exposed parts of a cyanotype without bleaching away any highlight detail. I have since read and then seen for myself (to my embarrassment) that peroxide simply gives us a preview of how the cyanotype will look when thoroughly dry — which is a darker blue than when first developed and wet.

In my search for a kinder, gentler bleach, I have Judy Seigel, editor of Post-Factory Photography, (see “Resources”), to thank for letting me know about bleaching with odorless and more effective sodium carbonate, commonly known as soda ash and available in the laundry section of grocery stores as ‘washing soda’. I have not yet determined its effect on paper fiber but suspect that it is less destructive.

Prolonged immersion in either sodium carbonate or sodium hypochlorite takes a cyanotype back through color changes that the print went through during exposure, but in reverse order. You may stop the bleaching process at any shade of blue, green or yellow that you fancy by pulling the print from the bleach tray and plunging it into a tray of water. A continuous-tone image will often bleach into a split-tone with gray highlights and blue shadows or yellow highlights and green shadows. This occurs because the bleaching has more impact on the thin highlight passages than in the denser shadow areas.

Richer bleached colors result when you overexpose onto a soft paper such as BFK Rives which absorbs more of the cyanotype solution than a hard paper such as single-ply Strathmore 500.

Toning with Tannic Acid & Sodium Carbonate

During prolonged bleaching, the lighter tones disappear first and eventually the entire image will turn a pale yellow or gray or vanish. These lost tones can be restored in a rosy-brown color by putting the bleached cyanotype in a tray of water laced with lithographer’s tannic acid, a light brown powder (see Bostick & Sullivan in “Resources”) that smells like instant tea mix. In the past we used to bleach cyanotypes in household bleach (sodium hypochlorite) and then bring back the image in tannic acid.

If you are using sodium carbonate as your bleach the instructions seem counter-intuitive but it works to immerse the print briefly in tannic acid (about 1/2 teaspoon to a quart of water) and then in sodium carbonate (about 1/2 teaspoon to a quart of water) and then back into the tannic acid and on to a preliminary wash tray and a final wash tray.

Wear gloves when handling the jar of powdered tannic acid and when toning prints in a tray of tannic acid in water since it stains the skin. The darkening action of tannic acid continues during the washing and drying of the print. Through experience you’ll learn to remove your print from the tannic acid bath before reaching the desired effect.

If you are using a continuous tone negative, a duotone image with rosy brown highlights and blue shadows can be gotten with partial bleaching and toning.

Discard the tray of tannic acid at the end of the toning session. It does not keep well. You can discard the tray of sodium carbonate too.

According to the artist Enid Mark, the tannin in strong cheap tea will give a warmer tone than tannic acid. She has applied bleach selectively (she used household bleach but you might try sodium carbonate) and toning with tea to achieve ‘local’ color within a print. A dry cyanotype on a flat surface can be brushed selectively with bleach and then flooded with water so that the bleach is washed out but the surrounding areas are not affected noticeably. Applying bleach to a damp or even a wet cyanotype will give softer edges as the bleach bleeds into surrounding areas. A slow transition, or gradient, from deep blue all the way to yellow can be achieved by immersing the part of the print to be lightened in a bleach bath and moving it skillfully to avoid ‘lap’ marks. Having the print damp to encourage capillary action helps to soften the effect here too. The same strategies apply to the application of either tannic acid or strong tea in areas that have been bleached to restore the original cyanotype image but in brownish tones. You should be warned that tannic acid slightly stains the white parts of a cyanotype image. Strong tea is even more likely to discolor highlights; after all, it has been used for a long time to tint white lace and crocheted doilies.

Deconstructing Cyanotype

I highly recommend Cyanotype: The History, Science and Art of Photographic Printing in Prussian Blue by Dr. Mike Ware’s (see “Resources”). After reading it, I began to experiment with the components of cyanotype, attempting an artist’s deconstruction of the medium.
The most interesting result came from coating paper with Part A, the light-sensitive ferric ammonium citrate, alone. Exposing the coated paper to actinic light through the negative produced a tan rendition of the image, which washed off the paper entirely in water. But if, instead of developing in water after exposure, Part B, potassium ferricyanide, is selectively brushed on the Part A rendition, the image instantly turns blue wherever the brush touches the image area. As you slip the paper into the tray of water, a fine veil of blue may appear where potassium ferricyanide drifts across parts of the image that you didn’t brush it onto. This delicate effect can be controlled by the flow of the water. A few students experimented with this way of working. There was some notable success mixed with a little disappointment that the blue wasn’t quite as vibrant as it is when Parts A & B are mixed, applied, and exposed together.

Read the next section of the book.

Cyanotype process – a modified extract from the book Blueprint to cyanotypes describing the classic or traditional cyanotype process.

Always be careful when handling chemicals. Read the health and safety instructions.

Writer / Malin Fabbri and Gary Fabbri. Photography / Malin Fabbri

Unlike photographs set in silver – such as black and white photography – cyanotypes are using a solution of iron compounds.

The photograph can be taken with a camera, like a digital camera, and the resulting photo turned into a negative that can be used to make a cyanotype.

The basic cyanotype recipe has not changed very much since Sir John Herschel introduced it in 1842. However, some advances have been made by Mike Ware in what is referred to as the New cyanotype process. Ware’s cyanotype formula has less bleed, shorter exposure times and a longer density range than Herschel’s, but it is also slightly more complicated to mix and uses more toxic chemicals.

The cyanotype process at a glance

The cyanotype process is simple. It can be done easily in a few steps:

Mixing chemicals
The cyanotype is made up of two simple solutions.

• Potassium ferricyanide and Ferric ammonium citrate (green) are mixed with water separately.
• The two solutions are then blended together in equal parts.

Preparing the canvas

• Paper, card, textiles or any other naturally absorbent material is coated with the solution and dried in the dark.

Printing the cyanotype

• Objects or negatives are placed on the material to make a print. The cyanotype is printed using UV light, such as the sun, a light box or a UV lamp.

Processing and drying

• After exposure the material is processed by simply rinsing it in water. A white print emerges on a blue background.
• The final print is dried and admired.

What you need

Before you start, get all the items you need together.

• 25 grams of Ferric ammonium citrate (green)
• 10 grams of Potassium ferricyanide
• Water (distilled if possible)
• Scale or measuring spoons
• Measuring jug
• 3 glass containers for mixing ingredients
• Plastic spoons
• Face mask (DIY style)
• Goggles
• Rubber gloves
• Apron or old shirt
• Newspaper to cover work surface
• Cleaning cloth
• Brushes or coating rod
• Clothes pegs (plastic)
• Washing line or rope (plastic)
• Art paper or fabric for coating
• Glass or a contact print frame
• Sunshine or a UV light source

Mixing chemicals

Cyanotype is a very simple process. It involves treating a surface with iron salts that reacts to UV light. Wear a face mask and rubber gloves when working with chemicals. In this case, Ammonium ferric citrate and Potassium ferricyanide. Two separate solutions are made and then equal quantities of each solution is mixed together in a third container.

The formula

This recipe makes approximately 50 8×10 inch prints. The cyanotype is made up of two simple solutions:

• Solution A: 25 grams Ferric ammonium citrate (green) and 100 ml. water.
• Solution B: 10 grams Potassium ferricyanide and 100 ml. water.

1Mixing the chemicals
Dissolve the chemicals in water to make two separate solutions. Add Ammonium ferric citrate to water into one container and Potassium ferricyanide to water in another. Stir with a plastic spoon until the chemicals dissolve. Mix equal quantities of each solution together in a third container. Unused solutions can be stored separately in brown bottles away from light, but will not last very long once they have been mixed. Dispose of any unused chemicals in a sensible and environmentally friendly way!
 
Your work area
Your floors, carpets, walls, work surfaces, clothes and skin can be stained by the chemicals. Cover all possible areas, use rubber gloves and an apron or an old shirt to work in. If you have the space, choose an area where you can spread out. Ordinary light bulbs or tungsten light is safe to use, but UV light will affect your prints. Some fluorescent lighting may also affect your prints.

2Preparing the canvas
Using a brush, simply paint the chemicals onto the material. Paper, card, textiles or any natural material can be used to print on. Decide how big your print is going to be, and cut your material to size. Make sure your working area is dimly lit, or lit with a low-level tungsten bulb. Once the material is coated, leave it to dry in the dark.

3Printing the cyanotype
Print a cyanotype by placing your negative (to reproduce a photograph) or object (to make a photogram) in contact with your coated paper or fabric. Sandwich it with a piece of glass. Expose the sandwich to UV light. Natural sunlight is the traditional light source, but UV lamps can also be used. A photogram can also be made by placing items on the surface. Plants, decorative items or other objects can be used to create silhouettes or interesting shapes. Exposure times can vary from a few minutes to several hours, depending on how strong your lightsource is or the season where you are printing.

4Processing and drying
When the print has been exposed, process your print by rinsing it in cold water. The wash also removes any unexposed chemicals. Wash for at least 5 minutes, until all chemicals are removed and the water runs clear. Oxidation is also hastened this way – bringing out the blue color. The final print can now be hung to dry and be admired.

Good luck!

The post Cyanotype – the classic process appeared first on AlternativePhotography.com.

Jim Read argues the case for using inexpensive papers for printing cyanotypes. Try these papers for cyanotype.

Writer and photography / Jim Read

Like an idiot I succumbed to the photographers blackmail and bought some arches platine. I wish I hadn’t and to warn others before they part with their hard earned cash I’ve put up this page. The expensive, snobbish and ridiculous cap doffing aspect rides again (and I fell for it) I see it now as my duty to expose it (in both senses of the word for the rubbish that it is. I never offer my strong opinions without providing examples and at the bottom of the page you will find my Challenge.

Papers that can produce full tonal range prints and will tone without staining the surrounding paper base are available from every art shop.

Light blue platine mud

Platine print one, I coated this with 3 ml of emulsion and got this flat and muddy print. After this I resolved to put more emulsion on another sheet. This one was exposed for 9 minutes at 12 inches. You see can lighter areas where the emulsion has soaked into the paper.

Winsor and Newton cartridge paper

Under exposed at 8 minutes, using the the same coating technique as the Light blue platine mud but showing a greater tonal range. This was made with my first and not very contrasty negative, the 1 above and the 3 below this one were made with another more contrasty negative.

Dark blue platine mud

Exposed for the same 9 minutes. I coated some more platine with 5 ml of emulsion and still there are areas where it soaked so far into the paper that it resulted in areas that are far too light.

Winsor and Newton cartridge paper

I used the same coating technique again but exposed this for 11 minutes, once again the cartridge paper produces a better print even though it is overexposed.

Canson Montval

And yet again coated in the same manner and exposed for 9 minutes. I expected that the platine being the ‘pinnacle’ of alternative process papers would produce a print that was far in advance of this one. Which as you can see has a full tonal range and even some depth to it, the negative needs a lot more doing to it so the final print will be a lot better than this.

Daler Rowney cartridge paper (2 days later)

Usual coating technique. Printed from negative number three. 9 minutes exposure at 12″. This is approaching what I want maybe just a bit lighter to make it suitable for a brief bleach and tannin toning.

Daler Rowney Cartridge Paper

This is a finished print to show you just what can be achieved. It has been bleached in a pinch of washing soda and toned in tannin for a few minutes.

You can see now why I consider platine to be absolutely useless for the Cyanotype process. I know you are going to think that no one else has said this. Of course they haven’t because they will think it’s their fault and not the paper or even worse, this is what Cyanotypes will look like, such is is power of photographers blackmail. I find that there is so much misinformation on the www because someone initiates something and everyone else copies it thinking it to be gospel. I prefer to do things for myself and then backup my findings with examples.

Challenge

I have had some feedback all of it so far anecdotal. If someone can prove to me by example that by coating platine without any modification whatsoever and with the original formula (Brown AFC preferably, but Green if you cannot obtain it) as I have done to all the prints above and I am able to repeat the same, I will retract all I have said and be platines most ardent advocate. Of course it must be with a superb print far in advance of the above to warrant the expenditure.

Papers that work for cyanotypes, type

I have been asked by Silverprint Ltd of London to recommend papers that are suitable for printing using the Cyanotype process. I can only do this by example, I do not use many papers, toning will produce a good range of colours in all of them.

Winsor and Newton Cartridge paper

This print was overexposed, bleached back in washing soda and toned in Tannin to produce this reddish/yellow tone.

Daler Rowney Cartridge paper

This was bleached momentarily in a pinch of Washing Soda and then toned in Tannin for a few minutes.

Canson Montval Watercolour paper

The print has been bleached for 30 seconds and then toned in Tannin for 5 minutes.

Fabriano 5

Produces a deep blue print but tones to what I consider to be a nasty shade of pink.

For someone just starting the process I would advise the cheap cartridge papers, expensive papers inhibit experimentation and lots of it is needed to obtain good prints. I used the cartridge papers for proofs until it suddenly dawned on me that they produced prints just as good and sometimes far superior to the more expensive papers.

The process is a chemical joke that 2 simple ingredients should produce the only archival photo print method with empirical evidence is laughable. That the best prints can be produced on the cheapest papers must surely be a continuation of that, I like to think that John can read this and laugh alongside me.

Many times I have read the words, Cyanotype is only suitable for certain subjects, they of course never state which Which is of course complete rubbish by knowing a how a paper will print and tone, a mood to complement the image can be easily achieved.

Jim Read is a UK based photographer who works in cyanotypes.

The post Papers to use for cyanotypes appeared first on AlternativePhotography.com.

An excerpt from Blueprint to cyanotypes: Exploring a historical alternative photographic process. How to make make cyanotype photograms.

Writer / Malin Fabbri
Photography / Elizabeth Graves, Anita Chernewski, Malin Fabbri

There are several ways of preparing an image that you want to turn into a cyanotype. The basic rule is that whatever you place between your light source and your canvas will effect the resulting image.

The two most common methods of creating images are contact prints using negatives and photograms.

You make contact prints by placing enlarged negatives on your material, which creates a positive the same size as the negative.
You make photograms by placing objects directly on top of the material and capture their shadows as outlines.

You can also draw on transparencies or glass, make stencils, or place other semi-transparent materials in front of your canvas.

A simple rhyme

Understanding how the final image will come out may be tricky the first time. But this simple rhyme pretty much sums it up – great for using on children’s workshops!

“If it lets light through
it will turn blue.
If it blocks out light
it will stay white.”

Cyanotype photogram using Objects

The first cyanotypes were actually called photograms or shadowgrams, and that’s a good explanation of what they were. Placing objects on the surface of the coated paper and exposing them creates an image in the same shape as the object – a shadow.

Many different decorative shapes can be used to create silhouettes on fabric and paper. Cyanotypes, and especially those done using objects, sometimes have a dreamy, floating feel to them. The varying shades of blue are like a sky on a clear sunny day.

Any object can be used to make a photogram, but it’s usually those objects that have an interesting shape, or are semi-transparent in some way that are most interesting. Grass, leaves, branches, flowers or other plants can be used to make interesting compositions. You can experiment with kitchen utensils, toys, feathers, rope, lace, glasses, tools or anything else with shape and form.

Anna Atkins created the first book of cyanotypes in her pursuit to capture botanical images of algae that seemed too delicate to be hand drawn.

Malin Fabbri has written three books on alternative photographic processes. In 1999 she began AlternativePhotography.com, and continues to be it’s editor.

Blueprint to cyanotypes – Exploring a historical alternative photographic process

by Malin Fabbri and Gary Fabbri

  Rated 9,7 – based on 234 votes

• Buy eBook directly from us ($12.99 download direct)
• Buy paperback from Lulu ($38 + shipping)
• Buy paperback from Amazon.com ($38 + shipping)
• Buy paperback from Amazon.co.uk (£24 + shipping)

All you need to get started with cyanotypes, full of information, tips and samples from artists.
An excellent beginners’ guide to cyanotypes!

The post Preparing your photogram image for cyanotype printing appeared first on AlternativePhotography.com.

An excerpt from Blueprint to cyanotypes: Exploring a historical alternative photographic process. 3 different coating methods for making cyanotypes on fabric, and how to dry and store the coated paper.

Writer / Malin Fabbri
Photography / Anne Storm van Leeuwen, Wendy Currie and Malin Fabbri

The cyanotype process is very “slow” which means the chemicals take a long time to react to light, so you can use dim lighting when you are coating the material. Since drying the material takes considerably longer than coating it, drying should be done in the dark.

Cyanotypes can be printed on any natural paper, cloth or fabric. Cotton, linen or silk are all excellent canvases. The printing will not work on synthetics, like polyester, since the chemicals won’t stick to the fibres in the fabric. A blend of cotton and polyester can work, although the colors may be less vibrant, but the coating method for cyanotypes can make a difference.

Prepare a flat surface for coating with a brush or a rod

Tape some newspaper or manila paper to a flat non-absorbent surface – such as a piece of glass – and tape your paper or material on top of the newspaper.

Then lightly mark the area you want to coat using a pencil and a ruler. Most of the pencil marks will wash away in the final step when you rinse your print.

Three different coating methods for cyanotypes

There are a few different ways to coat your material or paper. Whichever method you choose, remember to stir your chemicals to keep them well blended as you apply them.

The paint method

Using a brush, simply paint the chemicals onto the material. Choose a brush without a metal ferrule, since metal may react with your chemicals. A Japanese hake brush is excellent and will give you a nice even coat. A cheaper bristle household pastry brush, or a foam brush can also work well. Nylon brushes aren’t as effective.

With this method it is best to coat the material several times, in both directions, until it is completely covered. Cover an area slightly bigger than your negative. The solution is yellowish green before processing, so it is quite easily seen if you’ve missed a spot.

You can use the brush strokes around the edges of the print as an effect. Wash your brushes in cold water when you’re finished.

The coating rod method

A coating rod is a very economical way of coating your material since it doesn’t retain any chemicals after application. You will be able to do more prints with the same amount of solution.

Use a syringe or a small cup to pour the chemicals onto the rod. Alternatively, pour the solution in a line onto the top of the paper. Pull the rod back and forth a couple of times over the material until it is covered. This method is a little tricky to get the hang of, but once you do, it works very well.

The dip method

You can pour out the solution in a tray, and submerge the material. Keep your gloves on and move the paper or fabric around the tray until it’s fully saturated. If printing on fabric squeeze as much excess liquid out as possible before hanging it to dry. If printing on paper, drain away as much excess fluid as possible before hanging.

More chemicals will be used with the dip method, but you’re pretty much guaranteed an even coating. Just make sure you don’t get streaks when you hang it to dry.

Drying

Once you’ve finished coating the material, dry it in a completely dark area. It is now sensitive to light and will begin to “fog” or change color if it is exposed to light. You can dry the material by hanging it on a plastic clothesline, pegging it with plastic pegs, or on a flat surface. If you have problems finding a dark room, a chest of drawers or an airing cupboard may be the solution. To speed up the drying process a hair dryer or a hot air fan can be used on moderate heat.

If you hang very wet material, be aware that the chemicals may cause both streaks in the final print if the chemicals run, and stains on the floor below. Before leaving the material to dry, don’t forget to clean up! Wipe all surfaces and remove any spillage or splashes. Any chemicals left can cause a nasty stain.

When the chemicals are applied to white material it appears greenish yellow when dry.

The dried material can be stored for later use, but some oxidation may occur and the final print can be dark blue on lighter blue, rather than blue on white.

Skip the drying and wet process

If you don’t want to wait for the material to dry you can try wet processing. This is done by simply exposing the material to UV light with your negative or objects placed on top when still wet.

However, do not use a negative you only have one precious copy of. The sensitizer contains chemicals that can damage a negative when wet. If you are making photograms and placing objects on the material it may also stain them, depending on the material they’re made of. So, think twice before you put antique lace or other valuable objects in contact with wet cyanotype chemicals.

Storing coated material

Coated material will not stay fresh forever. It can however be stored for around six months without too much effect on the final print.

If the coated material has turned dark green when you pull it out of the bag, it is likely to have oxidised. Using aged material will result in light blue highlights instead of what should have been a clear white. The print will therefore have less contrast. There is not much to be done about this apart from starting all over again and coating a new batch. One thing you can try is to soak the print for an hour after the final rinse.

To prolong the storage time of coated material as much as possible, make sure it is completely bone dry when storing it. Keep it in a black, light proof bag (those used for photographic paper are great) and press any excess air out of the bag before sealing it. Keep the bag in cool and dry place.

Malin Fabbri has written three books on alternative photographic processes. In 1999 she began AlternativePhotography.com, and continues to be it’s editor.

The post Preparing the canvas: cloth, paper and natural fibre fabrics for cyanotypes appeared first on AlternativePhotography.com.