Radiation Physics and Engineering
A peer-reviewed journal published by K. N. Toosi University of Technology

Investigating the deterioration and corrosion of ancient Iranian manuscript using ion beam analysis techniques

Document Type : Research Article

Authors

Mahmoud Moradi
Davoud Agha-Aligol
Mohammad Lamehi-Rachti

Van de Graaff Laboratory, Physics and Accelerators Research School, Nuclear Science and Technology Research Institute (NSTRI), Tehran, Iran

https://doi.org/10.22034/rpe.2024.467192.1202
Abstract
In this study, few number of pages from an ancient manuscript that have undergone significant damage, were analyzed using micro-ion beam techniques, including micro-PIXE, micro-RBS, and micro-STIM to identify the factors responsible for the deterioration of these manuscripts. The micro-PIXE results indicate that the yellow decoration ink that has suffered severe corrosion is composed of a combination of Cu and Zn pigments. Moreover, the micro-PIXE analysis reveals that copper is the main element that forms the decoration of this manuscript. The studying the various copper pigments, it was discovered that one of the copper pigment types, which is made up of copper mineral elements, is verdigris or copper acetate (II) with the chemical formula Cu (CH3COO)2. This pigment is highly susceptible to environmental moisture. As a result, favorable environmental conditions such as optimal humidity and elemental composition like copper can cause local oxidation of paper to destroys the paper substrate. Furthermore, the results demonstrate that the black ink used to write the text in this manuscript is carbon-based and does not contribute to the corrosion of the paper. However, the micro-RBS analysis indicates that the ink has fully permeated and diffused in the bulk of paper and it increased the corrosion effect.

Highlights

  • Micro-ion beam techniques, applied to identify the factors responsible for the deterioration of Iranian ancient manuscripts.
  • The micro-PIXE analysis reveals that copper is the main element that forms the decoration of this manuscript.
  • The results demonstrate that the black ink in this manuscript is carbon-based and does not contribute to the corrosion.
  • The micro-RBS analysis indicates that the ink has fully permeated and diffused in the bulk of paper.

Keywords

Ancient manuscript
Ink and paper
Micro-PIXE
Micro-RBS
Pigment
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Radiation Physics and Engineering
Volume 5, Issue 4
Autumn 2024
Pages 27-33

  • Receive Date 10 July 2024
  • Revise Date 31 July 2024
  • Accept Date 20 August 2024

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