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Spectroscopy, Diffraction and Tomography in Art and Heritage Science gives an overview of the main spectroscopy and diffraction techniques currently available for cultural heritage research. It starts with an introductory, general discussion of spectroscopy and diffraction and the kinds of information they can give. Further sections deal with, respectively, typical laboratory methods, mobile equipment, and large-scale instruments and infrastructural methods. The work concludes with comments on combining and comparing multiple techniques, sources of error, and limitations of the analytical methods. - Explains spectroscopy and diffraction techniques in detail, yet remains accessible to those without a chemistry or physics background - Provides explanations of commonly used terms, such as destructive, non-destructive, non-invasive, in-situ, and ex-situ, and their sometimes-misleading origins - Includes real-world examples that demonstrate how each technique is used in the field - Highlights the complementary use of different analytical techniques in fully interpreting the data
Light allows us not only to see the works of art, but also to take care of them and preserve them for future generations, through diagnosis of the degradation and deterioration phenomena, conservation treatments, and monitoring based on light-material interaction processes. Recent progress on this subject was discussed during the 13th International Conference on Lasers in the Conservation of Artworks (LACONA XIII, Florence, Italy, 12-16 September 2022). This volume includes selected contributions presented at the conference on preservation topics, photonic techniques, and optimization methods. In particular, the papers focus on the development and use of innovative spectroscopic and imaging characterization techniques, the diagnostic knowledge of important artworks, and the optimization of the laser solution for preserving a growing variety of cultural assets, such as stone and metal artefacts, painted surfaces, textile, feather, and plastic artefacts. Lasers in the Conservation of Artworks XIII aims at scholars and operators of the community of preservation of cultural heritage, at teachers and students of training courses on diagnostic and conservation methods, applied physics, and chemistry, as well as archaeology and art history.
This monograph overviews the importance of electrochemistry in the field of cultural heritage, including archaeology, conservation and restoration topics. The application of electrochemical techniques in these domains have experienced a notable growth during the last ten years, in particular with regards to the elucidation of composition, manufacturing techniques and chronology of archaeological artefacts. This book describes the application of solid state electrochemistry techniques for the use of samples at the nanogram level from paintings, metallic, ceramic, glass, glazed, wooden, and other objects, and it also includes the description of new dating procedures for archaeological objects made of these materials. It is a valuable contribution to the field of cultural heritage and will be of great interest to archaeologists, conservators and restorers as well as to physicists and chemists working on the scientific examination of works of art.
Electrically Conductive Membrane Materials and Systems offers in-depth insight into the transformative role of electrically conductive materials in membrane separation processes for desalination and water treatment. The book focuses on the intelligent design of conductive membranes and systems, fouling and related phenomena, fouling control using electrically conductive materials, and electrically tunable membrane systems for microfiltration, ultrafiltration, nanofiltration, reverse osmosis, and membrane distillation. With rising concerns around inaccessibility to freshwater and the ever increasing threats of population growth, climate change, and urban development, the book brings electrically conducting materials to the forefront of membrane separation technology with an emphasis on their role in the mitigation of fouling and related phenomena. Electrically conducting materials expand the versatility of membrane technology and ultimately improve access to safe water. The book is important reading for scientists, engineers, entrepreneurs, and enthusiasts from the water industry who seek to familiarize themselves with a groundbreaking area of study within modern desalination and water treatment. • Explores novel membrane materials and systems from preparation methods, materials selection, and their application in monitoring, fouling control, and performance enhancement. • Examines the mechanism of fouling prevention and cleaning in various electrically conductive materials. • Evaluates the scalability of antifouling materials and coatings, as well as electrically enhanced processes for monitoring and control in membrane separation technology. • Assesses advantages and limitations of applying electrically conductive membrane systems to fouling control for specific water treatment applications. • Provides a critical review of scientific literature in the specialized area of electrical conductive materials and systems for membrane technology.
Non-Destructive Material Characterization Methods provides readers with a trove of theoretical and practical insight into how to implement different non-destructive testing methods for effective material characterization. The book starts with an introduction to the field before moving right into a discussion of a wide range of techniques that can be immediately implemented. Various imaging and microscopy techniques are first covered, with step-by-step insights on characterization using a polarized microscope, an atomic force microscope, computed tomography, ultrasonography, magnetic resonance imaging, infrared tomography, and more. Each chapter includes case studies, applications, and recent developments. From there, elemental assay and mapping techniques are discussed, including Raman spectroscopy, UV spectroscopy, atomic absorption spectroscopy, neutron activation analysis, and various others. The book concludes with sections covering displacement measurement techniques, large-scale facility techniques, and methods involving multiscale analysis and advanced analysis. - Provides an overview of a wide-range of NDT material characterization methods, strengths and weaknesses of these methods, when to apply them, and more - Includes eddy current sensing and imaging, ultrasonic sensing and imaging, RF and THz imaging, internet and cloud-based methods, among many others - Presents case studies, applications and other insights on putting these methods into practice
Providing critical analysis of the topics, this book is essential reading for anyone wanting to keep up to date with the literature on photochemistry and its applications.
The series Topics in Current Chemistry Collections presents critical reviews from the journal Topics in Current Chemistry organized in topical volumes. The scope of coverage is all areas of chemical science including the interfaces with related disciplines such as biology, medicine and materials science. The goal of each thematic volume is to give the non-specialist reader, whether in academia or industry, a comprehensive insight into an area where new research is emerging which is of interest to a larger scientific audience.Each review within the volume critically surveys one aspect of that topic and places it within the context of the volume as a whole. The most significant developments of the last 5 to 10 years are presented using selected examples to illustrate the principles discussed. The coverage is not intended to be an exhaustive summary of the field or include large quantities of data, but should rather be conceptual, concentrating on the methodological thinking that will allow the non-specialist reader to understand the information presented. Contributions also offer an outlook on potential future developments in the field.
The scientific analysis of cultural heritage materials poses specific and often difficult analytical challenges. This book attempts to rationalize the links between the most commonly asked questions in archaeology, art history, and conservation with the potential answers resulting from the vast array of scientific techniques presently available.
In Chapter 1 Dudley Creagh writes on "synchrotron radiation and its use in art, archaeometry, and cultural heritage studies". Loic Bertrand has written in Chapter 2 on synchrotron imaging for archaeology and art history, conservation, and palaeontology. Dr. Bertrand is Archaeology and cultural heritage officer at the new French synchrotron, Synchrotron Soleil (Orme les Mesuriers, Gif-sur-Yvette, France). He is charged with the task of raising the awareness of cultural heritage scientists to the use of synchrotron radiation for their research. Chapter 3 has been written by Ivan Cole and his associates Dr David Paterson and Deborah Lau. This is concerned with the holistic modelling of gas and aerosol deposition and the degradation of cultural objects. Dr. Cole is Deputy Chief of the Novel Materials and Processes Division of the Commonwealth Scientific and Industrial Research Organization (Melbourne, Australia). He has over twenty years experience in involvement in projects concerned with the preservation of cultural heritage. Ivan is an internationally recognized leader in the field of the life cycle of materials and the development of protective coatings for metals. In Chapter 4, Giovanna Di Pietro describes two different types of experiments she has undertaken in the study of the mechanisms underlying the degradation of photographic media. In the first Dr. Di Pietro describes the degradation of old back-and-white plate. In the second she outlines her attempts to understand the mechanisms by which comparatively modern motion picture film degrades. A significant part of this project involved trying to ascertain exactly what dyes were used by Kodak in their motion picture film from about 1980 onwards. An entirely new technique for the remote investigation of the pigments in paintings is presented by Maria Kubik in Chapter 5. This technique will significantly enhance the ability of conservators to study the palette of pigments used by artists, check for repairs by others, and detect fraudulent paintings.· Demonstrates the amazing efforts being made in using physical techniques for the study of art, archaeology and cultural heritage· Provides succinct accounts of how cultural heritage is being preserved.· Looks at how science is being used to enrich our knowledge of the creative arts
Innovative Technology in Art Conservation provides one of the first ever critical assessments of innovation in conservation science and questions what role it should play in conservation and conservation ethics. Written in language understandable for the non-technical reader, the book begins with a brief history of so-called science-based conservation, which is based on chemistry, physics and engineering, and examines how it influences conservation ethics and conservation decisions. It considers the concepts of originality and original appearance, and how people see and perceive objects, looking in particular at the results of the relatively new technology of eye-tracking. Wei then moves on to critically examine advanced technologies such as colour modelling, hyperspectral imaging, texture mapping, virtual retouching and digital reproductions and considers what they offer for determining original appearance of artworks and other cultural heritage objects. The book concludes with some reflections on the future of conservation and science-based conservation, calling for more thoughtful consideration of what it is that conservation scientists are offering, and why and for whom it is being offered. Innovative Technology in Art Conservation is essential reading for academics and students working in conservation and conservation science. The book will also be of interest to the international community of conservators and cultural heritage professionals who must make decisions about whether to use advanced technologies in their practice.