Can chemistry save our libraries?
10 August 2007
Three out of every four books in Europe's libraries are printed on acidic paper that isn't expected to last another century. That's the message heard by delegates at the IUPAC World Chemistry Congress in Turin, Italy, this week, who were asked: can analytical chemistry rescue our written heritage?
The familiar, earthy smells that waft from the page as you leaf through a dusty old tome in the library are in fact the bouquet of the book's decay. Measuring the VOCs (volatile organic compounds) that the paper gives off is one non-destructive method which Matija Strlic, from the University of Ljubljana, Slovenia, and colleagues have developed to assess the state of our books.
While there are very old books in existence, it's books made between around 1860 and 1990 that are the real concern, said Strlic - and these are the books that make up the bulk of most library collections. Before 1850 or so, paper was made by hand from clothing rags. This gave a paper with high quality fibres and neutral pH, which is expected to last several millennia. But once paper making was industrialised, the sheets made by the new process were of pH 4 to 5. Left untreated, this paper will only survive a couple of hundred years before disintegrating, due to gradual depolymerisation of the cellulose fibres caused by the acid. Since 1990, due to environmental concerns over the old technique, paper production was changed. This process gives pH-neutral paper that should last 500 years.
Strlic, and other members of a project called SurveNIR, have developed a near infrared (NIR) technique to assess a book's condition. Collections of books can be 'mass-deacidified' - the scale of the problem rules out carefully treating each individual book - but first the paper must be checked to see if needs the treatment, and that it's strong enough to withstand the process. Traditionally, this meant applying a wet pH probe to a page, leaving a stain which accelerates the paper's decomposition, and then checking the paper's strength by folding the corner of a page over and over, measuring how long it takes the corner to fall away.
'The NIR is an integrated approach that can tell you both the pH and the mechanical properties of the paper,' Strlic told Chemistry World. The process, which leaves the page completely unmarked, works by comparing the peaks of the NIR spectrum with a library of reference spectra collected by the team that were correlated with mechanical and chemical methods. 'The SurveNIR project ends in July 2008, and we will definitely have a commercialised machine by then,' added Strlic, 'although whether we will offer the instrument or a testing service, I'm not yet sure.'
In addition to NIR, Strlic has used VOCs as a non-destructive way to measure paper pH, sampling these compounds using gas chromatography-mass spectrometry (GCMS). While Strlic doesn't see this technique as being as useful as NIR, VOCs themselves can damage paper, so must be monitored and filtered out of the air in archives, along with acidifying environmental pollutants like SO2 and NOx, to preserve the books, he said.
A further problem faced by conservators is an acidic, transition metal-based ink called iron gall ink, unfortunately used by Leonardo da Vinci, Johann Sebastian Bach, Victor Hugo and Galileo Galilei, said Strlic. In addition to the acidity, the metals in this ink are effective oxidation catalysts, which further accelerate the breakdown of the cellulose.
While deacidification solves part of the iron gall ink problem, the presence of the transition metals must also be addressed. This is done by applying antioxidants to the paper, to suppress the metal-catalysed free radical breakdown of the cellulose. The antioxidants developed by Jana Kolar form the National and University Library in Ljubljana and colleagues are currently being patented, Strlic told Chemistry World.
Jan Wouters, of the Royal Institute for Cultural Heritage in Brussels, Belgium, presented a related talk at the meeting on the cautionary tale of a valuable 8th century illuminated manuscript, the Codex Eyckensis. A previous generation of conservators had tried to protect the codex in the 1950s by laminating each page with PVC. As well as impacting on the look and feel of the artefact, this laminate had accelerated the decay of the parchment pages, said Wouters, and had to be painstakingly removed.
Thankfully we can now accurately model paper aging to assess how any 'preservation' treatment will affect an artefact, said Strlic, and it is important to assess both short and long-term effects. 'Laser cleaning had a nice immediate effect on the look of the paper, but the long-term effects on the page can be devastating.' It's particularly important not to use new techniques on the most precious books before they are fully tested, he said.
James Mitchell Crow
Enjoy this story? Spread the word using the 'tools' menu on the left.
Also of interest
Comment on this story at the Chemistry World blog
Read other posts and join in the discussion
41st IUPAC World Chemistry Congress
External links will open in a new browser window