Royal Society of Chemistry | Books | rsc.li/faraday-books
Royal Society of Chemistry | Books | rsc.li/faraday-books
Faraday Discussions
Faraday Discussions
Natural and Artificial Metalloenzymes Faraday Discussion
Hardback 9781839165665 | 2022 £170.00 | $235.00
About the series ISSN 1359-6640 Editor-in-chief John M Seddon Imperial College London, UK Series editors
The subject of biological inorganic chemistry/bioinorganic chemistry is one of the most intellectually-attractive and experimentally-demanding frontiers in modern chemical science. This Faraday Discussion brings together world-leaders in the field of bioinorganic chemistry, interlinked with spectroscopic and computational/ theoretical physical chemists. Topics covered include current mechanistic insights into the function of many metalloenzymes, as well as small molecule activation, the synthetic analogue approach to metalloproteins/enzymes, artificial enzymes, the therapeutic use of metal-ligand complexes and the methodologies (both experimental and theoretical), in this area of research. Next Generation Nanoelectrochemistry Faraday Discussion Nanoelectrochemistry is not only important for achieving ultra-sensitive applications in fields ranging from energy to bioanalysis, but also contributes to more fundamental understanding of processes on this scale. While electrochemical processes occur within confined geometries at the nanometre scale, electrochemistry endows us with an ever-increasing ability to measure and understand with unprecedented precision. This Faraday Discussions volume addresses the challenges in both fundamental and applied nanoelectrochemistry, where new concepts and new knowledge play key roles. This volume also encourages cross-disciplinary interactions for electrochemistry with biophysics, nanofabrication, informatics, electronics and beyond.
David Lennon University of Glasgow, UK | Angelos Michaelides University College London, UK | Jenny Nelson Imperial College London, UK | Susan Perkin University of Oxford, UK | Claire Vallance University of Oxford, UK Faraday Discussions covers a variety of topics in rapidly developing areas of the physical sciences, with a focus on physical chemistry and its interfaces with other scientific disciplines. The journal publishes the papers presented and a record of the questions, discussion and debate that took place at the corresponding Faraday Discussions meeting and provides an important record of current international knowledge and opinions in the relevant field. Each Faraday Discussion covers a topic in a rapidly developing area of chemistry, and will be of interest to academic and industrial chemists across all areas of the chemical sciences.
Hardback | 9781839164286 | 2022 | £170.00 | $235.00
Carbon Dioxide Utilisation Faraday Discussion 230
Hardback | 430 pages 9781839164026 | 2021 £170.00 | $235.00
Carbon dioxide (CO 2 ) utilisation is an important part of ongoing activities to reduce greenhouse gas emissions in which CO 2 is converted to commercially viable products, such as chemicals, polymers, building materials and fuels. This interdisciplinary volume seeks to collate the developments made across science and engineering, with a view to seeing how further advancements can be made.
Peptide-Membrane Interactions Faraday Discussion
Hardback | 450 pages 9781788019149 | 2022 £170.00 | $235.00
It is difficult to overstate the importance of improving our understanding of how macromolecules interact with membranes as this is a fundamental aspect of how living systems operate. These processes are involved in protein folding, cell signalling, biogenesis, morphogenesis, disease and medical therapy. This Discussion addresses several related aspects of peptide interactions with membranes, discussing model theoretical and experimental systems in order to define the reaction space that is possible and how this applies to fundamental questions in cell biology.
MOFs for Energy and the Environment Faraday Discussion
Hardback | 400 pages | 9781839164248 | 2022 | £170.00 | $235.00
The area of metal-organic frameworks (MOFs) and related materials is arguably one of the hottest interdisciplinary subjects spanning chemistry, materials science, physics and engineering. This volume brings together internationally leading researchers interested in the interdisciplinary field of MOFs to explore and exchange ideas on recent developments and future possibilities.
Understanding Crystallisation Faraday Discussion
Hardback 9781839164262 | 2022 £170.00 | $235.00
Crystallisation, the spontaneous arrangement of molecular building blocks into ordered solid particles, is a fascinating phenomenon. Understanding the dynamic, molecular-scale processes that underlie crystal nucleation and growth holds the key to designing the production of specific crystalline materials. The ability to induce crystallisation how, when and where we want it is key to material synthesis. Focussing on understanding nucleation, designing crystals, controlling polymorphism and biomimetics this volume brings together experts from across the chemical sciences.
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