Bøger i Faraday Discussions serien

In this volume, the topics covered include light induced charge and energy transport in nucleic acids and proteins, photocrosslinking between nucleic acids and proteins, light induced damage and repair in nucleic acids and proteins and bionanophotonics.

Developing a fundamental understanding of key aspects of non-covalent interactions in solid-state materials, solution chemistry, biochemistry and the gas phase.

Explores several new directions in the chemistry of porous crystalline materials, developing a fundamental understanding of key aspects in their chemical, electronic and physical properties.

Addresses some of the critical issues surrounding the use of renewable resources, and in particular bio-resources, for the manufacture of future, sustainable chemicals and materials.

Focusing on emerging issues relating to changes in the composition of Earth's atmosphere, including new mechanisms, tools and platforms for atmospheric chemistry.

Introduces new emerging areas and explores the diverse range of approaches and disciplines contributing to the growth and understanding of this optical phenomenon.

Discusses a range of topics on ionic liquids, such as ionicity, structure, electrochemistry, phase behaviour, and interactions with liquid and solid interfaces.

Focussing on understanding the interaction of molecules with surfaces and their subsequent organisation, reactivity, or properties from both experimental and theoretical perspectives.

This book has a strong emphasis on the key challenges in the area for example the biophysics of protein water channels, biomimetics and what we may learn from natural proteins and synthesis and design of highly selective water channels.

ThisFaraday Discussion explores the modern methods used to design new nano-interfaces, probe the charge/energy transferring processes at the nano-interface, and promote applications including those involving single-molecule studies, single-nanoparticle electrochemistry and single-cell analysis.

Developing a fundamental understanding of key aspects of catalytic science related to the provision of energy, and particularly fuels.

Brings together current understanding of this rapidly advancing field, incorporating biological approaches, fundamental processes, molecular catalysts, visible light responsive semiconductor catalysts and inorganic assembly catalysts.

Develops fundamental understanding of key aspects of the chemical physics of electroactive materials.

This Faraday Discussion discusses and debates the fundamental properties of liquid salts and their application in tackling some of the most important current global challenges.

Discusses current challenges and potential breakthroughs in aggregation-induced emission (AIE), focussing on the issues associated with the development of new fluorescent and phosphorescent AIEgens.

Theoretical and physical chemists, molecular biologists, solid state physicists and bio-physicists in academia and industry discuss recent advances in reaction rate theory.

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.

Theoretical and physical chemists, molecular biologists, solid state physicists and bio-physicists in academia and industry discuss recent advances in reaction rate theory.

Experimentalists and theoreticians discuss how new techniques for monitoring photochemical processes can complement each other, address contention and controversy, and propose future research.

Presents the use of anisotropy as a tool to design, organize and provide special functions to varied nanoparticles.

Explores new potential carbon capture materials and processes, carbon dioxide utilisation and new technologies for viable carbon capture and storage processes.

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.

Identifying efficiencies to whole process economics and predicting bottlenecks in the supply chain, this book present carbon dioxide utilisation as a complementary approach to carbon capture and storage.

Focussing nanoparticle self- and driven assembly, with a view to understanding how evolving developments in the fundamentals can be translated into science/property principles underpinning applications.

Examing new instrumentation and advances in synthesis, this book examines the current state of research in this field and considers its future.

Discussing recent advances in this field and mapping out future avenues in the field, this book explores a range of topics across molecular biophysics.

Bringing together leading scientists, this book addresses the fundamental aspects of solid oxide electrolysis, a highly efficient route in electricity overcapacity conversion.

Bringing together a diverse group of scientists, this book deliberates the latest developments in nanoparticle theory, synthesis and assembly in order to generate new ideas.

This volume focuses on the physical chemistry of novel self-assembling bio-conjugate or bio-hybrid materials.

The aim of this Faraday Discussion is to provide a forum with academic experts and end-users covering the interface between academic research and application.