Paperback: 122 pages
Publisher: CreateSpace Independent Publishing
1 edition: June 28, 2015
Product Dimensions: 8 x 0.3 x 10 inches
(20,3 x 0,7 x 25,4 cm)
The present book is one in a series about Historical and Alternative Photography and is devoted to a historical process which was known as Brown and Sepia Paper in the past, but today is better known as the Van Dyke Process or Van Dyke Brown.
Basically, this is a process in which we mix an emulsion of ammonium ferric citrate (which is used for cyanotype) and silver nitrate (which is used in the salt print process) with a small amount of acid.
Although Van Dyke Brown is a fairly popular technique due to the easily available and low-priced chemicals required, quite a few fans of old and alternative processes often avoid it, because of the significant number of factors that lead to failure.
But with the correct initial preparation and proper knowledge, these first difficulties are overcome rather quickly, so that we are soon able to produce beautiful photos with the characteristic deep, dark brown color, with almost no trouble.
Like in the other books in this series, all procedures are described in an extremely comprehensible manner, step-by-step, and have been thoroughly checked and tested.
At the beginning of the book, we will describe how to produce some of the most popular recipes of light-sensitive emulsions for Van Dyke Brown prints. We will then learn about digital negatives, discover how to print and tone photographs, and towards the end of the book we will get acquainted with somewhat more advanced techniques for enhancing the contrast, bleaching photos, printing a photo on fabric, etc…
In this book, solutions for a significant number of problems that can occur in the photographic process are, for the first time, extensively described also. Thus, a user who closely follows the instructions will be able to produce high-quality photos without major problems.
But enough of the introduction…
The photographic technique that we describe in this book was known as Brown or Sepia Paper or Sepia Printing in the 19th century. But at the beginning of the last century, someone renamed it, the “Van Dyke Process,” even though this was already the name reserved for describing the so-called photo-lithographic process, invented by F. Vandyke (Cassell’s cyclopaedia of photography, 1911).
Today, it is widely believed that the Van Dyke Brown technique is probably named after the color shade which is often seen in paintings by the Baroque painter Anthony van Dyck(1599 – 1641), because a photo formed by mixing ammonium ferric citrate and silver nitrate is recognized directly by this typical dark brown color.
The inventor of Brown Print is supposedly the English scientist John Frederick William Herschel (1792 – 1871), although similar research and results were also written in 1839 and 1841 in the book Researches on Light, by Robert Hunt (1807 – 1887). But whoever the inventor was, the first, second, or some third scientist, the initial procedures of those inquisitive people were almost identical. When Herschel discovered that iron salts are sensitive to light, he started with a series of tests which are described in the early publication, Philosophical Transactions of the Royal Society of London in the year 1842. The descriptions show that Herschel coated paper with ammonium iron citrate, tartrate, etc…, and he exposed the paper and coated it with various additional compounds. He came to surprising results. He first mentioned cyanotype (Philosophical Transactions of the Royal Society of London, 1842, p. 210) as follows: »The varieties of cyanotype seem to be innumerable, but that which I shall now describe deserves particular notice, not only for its pre-eminant beauty while in progress, but as illustrating the peculiar power of the ammoniacal and other persalts of iron above mentioned to receive a latent picture, susceptible of development by a great variety of stiumuli. This proces consist in simply passing over ammonio-citrated paper on which such a latent picture has been impressed, very sparingly and evenly, a wash of the solution of common yellow ferrocyanate (prussiate) of potash.«
The number of options with which we can make a photographic image on the basis of “ammonio-citrated paper” is not limited to cyanotype. Thus, on the same page, the author also describes the photographic process of chrysotype (printing using gold chloride) and the use of silver nitrate, »If paper prepared as above recommended for the chrysotype, either with the ammonio-citrate or ammonio-tartrate of iron, and impressed, as in the process, with the latent picture, be washed with nitrate of silver instead of a solution of gold, a very sharp and beautiful picture is developed, of great intensity.«
In short, if the paper is impregnated with ammonium iron citrate, exposed and washed in various compounds, a photo of various shades, or better said, a photo of different currently-known photographic techniques, is obtained.
The modern process of making Van Dyke Brown Print is carried out in a number of stages. The paper is prepared for exposure in an enclosed space with an ordinary, somewhat weaker lamp of power of 20-40 W. Then it is exposed in the sun or by UV lamp and fixed in sodium thiosulfate.
The basic materials and accessories that we need for making Van Dyke Brown prints are as follows:
Here we will only briefly describe the general process of making pictures with the Van Dyke Brown process; the entire process is presented on the pages that follow.
On the work table, we set out all materials and tools that we will use in the work. These depend on the way in which we want to make a photo.
For the production of Van Dyke Brown Print, we need emulsion. This is applied onto the paper by any of a variety of techniques.
The paper is dried for about 3 minutes in air, so that the emulsion is absorbed into the paper. Then it is thoroughly dried with a hair dryer or some other device.
The negative is placed on a sheet of paper which is covered with a light-sensitive emulsion. The task of the negative is to block or transmit light through the negative. The negative and paper are then placed in a contact frame for exposure. The photo is exposed according to the selected standard printing time.
The photo may be developed in one tray, but more often two trays are used, with slightly acidic water. In this case, the photo is first developed for 3 minutes in the first tray in slightly acidic distilled water and then for 2 minutes in the second tray filled with normal tap water or sometimes slightly acidic tap water.
After developing, the photo can be toned in any toner.
After exposure or toning, the photo is placed in a photographic fixer for 3 minutes.
Since Van Dyke Brown is quite an unstable process, any residues of fixative must be removed from the paper with the help of sodium sulfite.
At the end of the process, the photograph is rinsed in tap water for 15 minutes. The photo is then dried and optionally protected with the desired protective coating.
Like in all old photographic techniques, also in the Van Dyke Brown process we can observe quite a few different formulas being used. In our book, we will, of course, describe only those formulas that provide the highest quality and stability. First, we will describe the so-called modern formula, and then a few of the formulas of the old masters.
Before making the solutions, we must first read the instructions and warnings about working with the selected chemicals. Then we adequately protect ourselves, prepare the working environment, and collect up all the necessary material and tools. We will need the following:
Below is described a recipe for a “modern” emulsion that, among the considerable number of solutions that I have tested, gives the best results. Tones in the photo are clean and saturated (see photo on next page), and most importantly, the photos we make with this solution are quite stable. For the production of this emulsion, we need the following chemicals:
Making the emulsion is quite simple. To begin with, we need three empty plastic cups.
Prior to each production and use of solutions, it is best to read the instructions and warnings. Information on safety, the so-called MSDS (Material Safety Data Sheet), can be found online or in relevant manuals.
Silver nitrate is toxic and causes severe skin burns and eye damage. When inhaled dust damages the respiratory system. Before each production and use of chemicals read the relevant instructions and warnings. Properly protect yourself.
Tartaric acid causes skin, respiratory tract and severe eye irritation. Before use, we must read the warnings and adequately protected ourselves.
In this chapter, we will learn about some older recipes from the last century, which were some of the best, according to the old masters. Of course, we will notice that among them there are no very big differences, but maybe we will find a formula that is adequate for our way of working and desires.
One of the first and most popular emulsions in the last century was patented by Arndt and Troost in 1894. As mentioned by George E. Brown, the author of Ferric and Heliographic Processes, Arndt and Troost manufactured paper called Sepia Blitz-Lichtpaus papier. For making this recipe we will need the following:
We notice that this one is just a little different from the modern recipe, since only slightly less silver nitrate is used and there is a quarter of a pinch more tartaric acid. Since the method for making this emulsion is the same as the production of modern emulsion just described, this will not be explained again here.
Arndt and Troost recipe – 2 layers on Fabriano Artistico HP paper
This recipe is also similar to the above-presented recipes: however, this time the ratio of chemicals is somewhat different. Unlike before, this time citric acid is used in place of tartaric acid.
The emulsion does not display the image with the right sepia tones, but rather creates a gentle, somewhat softened drawing. In the book Cassell’s Cyclopaedia Of Photography (1911), in which this formula is written, it can be read that it is advisable to apply two layers of emulsion before exposure. However, the reality is somewhat different. When applying the two layers, there is a fairly strong leaching of the pigment, so it is better to apply only a single layer.
Sepia (Cassell) recipe – 1 layer on Fabriano Artistico HP paper
The recipe for this emulsion was known in the last century as sepia paper.
Although the basic ingredients are still ammonium ferric citrate and silver nitrate, this time, unlike in the previous recipes, diluted gelatin and acetic acid are added to the emulsion.
The emulsion for sepia paper shown in the photograph is the once quite popular sepia tone, which is no longer so greatly appreciated.
For the production of this emulsion, we need the following chemicals:
Making a gelatin solution
The gelatin used in this technique is a simple kitchen gelatin. This is made according to the manufacturer’s instructions or according to the procedure described below. We need the following:
Most often, gelatin is made as follows:
Method for producing the emulsion
Once we have prepared the gelatin solution, we can make the remaining part of the solution.
This emulsion also shows a much nicer sepia tone if the surface of the paper is coated with only one layer of the emulsion.
Sepia Paper recipe – 1 layer on Fabriano Artistico HP paper
To lighten photos which are made with the Van Dyke Brown process, dozens of different recipes can be used, which are useful both for brightening silver prints as well as for lightening the cyanotypes. Here we will, of course, mention only a few of the reducers that are easy to produce, and are especially suitable to the Van Dyke Brown process.
Potassium ferricyanide is one of the most powerful chemicals used to bleach silver images, but today it is much better known as a basic component for making cyanotype emulsion. As a reducer, it is also used in so-called Iron blue toner (see Iron blue toner).
Years ago, bleaching took place in two steps. The first step was bleaching and the other was fixation. Of course, we can also make a one-component solution composed of fixer (see Fixing photos) and reducer. For the production of our two-step reducer, we need the following:
The production is quite simple. We pour 0.2 grams of potassium ferricyanide into 1 liter of water and mix well. The reducer can be used immediately. If we want consistent results, we use the reducer only once.
On the next page, we see that a previously rather deep brown photo (1) lightens on the entire tonal range after two minutes of weakening, while colors become slightly cold (2). If the weakening time is extended, the image, under the influence of potassium ferrycianide, became increasingly light blue.
The next group of reducers in traditional photography represents reducers which have been prepared on the basis of potassium permanganate and one of the acids. In our case, we will use the formula that I compiled from a number of recipes. Instead of conventional sulfuric acid, we will use citric acid.
As this reducer first brightens the bright tones, it can also be used to clean the whites on a photo. A brightened photo gets a slight green-brown hue (3).
As in the production of reducer, we use a very small amount of potassium permanganate; we will first make a 5% potassium permanganate solution for our recipe. This is made by dissolving 5 g of potassium permanganate into 100 ml of distilled water.
The solution of the reducer is made by mixing 0.2 ml of a 5% solution of potassium permanganate into 1.5 liters of water.
The process of weakening with potassium permanganate is similar to the previously described procedure. A moistened photo is immersed in reducer for the desired time and then washed for 25 minutes in the water. There is no need to fix the photos bleached with this reducer, but some authors recommend a short washing in sodium sulfite (see Neutralizing the fixer).
Potassium permanganate diluted in water is a common disinfectant, but, undiluted, it is toxic by ingestion and accelerates combustion. Therefore, great caution is necessary.