期刊名称:CHEMPHOTOCHEM
 期刊简介(About the journal)
投稿须知(Instructions to Authors)
编辑部信息(Editorial Board)
About the journal
Overview
Aims and Scope
ChemPhotoChem is aimed to become a top-ranking photochemistry journal for primary research papers and critical secondary information from authors across the world. The journal covers the entire scope of pure and applied photochemistry, the latter encompassing for example photovoltaics, photopharmacology, imaging, analytical chemistry, and synthesis. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies.
Fields of Interest
- Pure and applied photochemistry
- Artificial photosynthesis and water splitting
- Photopharmacology and photodynamic therapy
- Analysis and imaging
- Laser synthesis and 3D printing
- Organic and inorganic synthesis
Features
- Peer-reviewed primary and secondary research articles
- Free color
- The possibility of open-access publishing, through our OnlineOpen option
- Fast publication times
- Cutting-edge photochemistry over the entire scope of the field
Contents
ChemPhotoChem publishes an attractive mixture of:
- Communications and Articles
- Minireviews and Reviews featuring a critical selection of the most important aspects of a topic
- Highlights presenting concise evaluations of highly relevant current chemical research
- Concepts emphasizing important developments in a specific area and their implications for future research
Keywords
analytical chemistry, heterogeneous catalysis, interfaces, materials science, oxygen reduction, photocatalysis, photoelectrochemistry, photopharmacology, photosynthesis, photovoltaics, solar cells, spectroscopy, sustainable chemistry, water splitting
Abstracting and Indexing Information
- CAS: Chemical Abstracts Service (ACS)
- Current Contents: Physical, Chemical & Earth Sciences (Clarivate Analytics)
- Science Citation Index Expanded (Clarivate Analytics)
- SCOPUS (Elsevier)
- Web of Science (Clarivate Analytics)
Instructions to Authors
https://chemistry-europe.onlinelibrary.wiley.com/hub/journal/23670932/author-guidelines
Editorial Board
Chairs
 Kazunari Domen (University of Tokyo): "Photocatalysis and photoelectrochemistry allow for a variety of useful reactions, such as, but not limited to, artificial photosynthesis and water splitting, at mild reaction environments, owing to the unique mechanism involving the energy of photons. Thus, photocatalysis and photoelectrochemistry has drawn increasing interest of researchers. Photoexcited states are generated in semiconductors, complexes, and dyes by absorption of photons. Separation and injection of charge carriers must be effectively promoted to drive photocatalytic and photoelectrochemical reactions, because recombination of charge carriers and relaxation of excited states compete with and in fact quite often eclipse intended reactions. The reaction selectivity is also an important factor. Interdisciplinary knowledge in science and technology covering a wide range of chemistry and physics is needed to understand photocatalysis and photoelectrochemistry and promote their value. It is timely to launch ChemPhotoChem as a new platform to disclose state-of-the-art achievements and enhance communication among top researchers. ChemPhotoChem offers the most focused platform to publish the latest achievements in both pure and applied photochemistry."
  Malcolm Forbes (Bowling Green State University, OH): "Photochemistry is a field of science with remarkable depth and breadth. Our knowledge of the most fundamental processes in chemical reaction mechanisms has been greatly extended by ultrafast spectroscopic techniques, spurring new theoretical paradigms, but also confirming the basic tenets of quantum physics and chemistry with high precision. New photocatalysts for organic synthesis are developing at a rapid pace, new materials with novel optical magneto-optical properties are also emerging. Our understanding of the interaction of light with matter is exemplified by recent advances in both natural and artificial photosynthesis, photodynamic therapies for medical treatments, photonics for new displays and lighting technologies, and in establishing molecular connections between vision in the human eye, the optic nerve, and memory in neuroscience. Perhaps most importantly, our society's future depends greatly on our ability to harness the energy of the sun and create viable recyclable solar fuels. ChemPhotoChem is an excellent forum for publishing the most exciting new advances in all of these areas—this new journal will help accelerate cross-fertilization of ideas to solve ever more complex scientific problems with photons."
  Axel Griesbeck (Universität zu Köln): "Photochemistry is a truly interdisciplinary area in chemistry. By the very nature of its science it spans synthetic and mechanistic chemistry, physics, spectroscopy, biology, medicine and many aspects of material science. The molecular basis of all light-driven processes is in the focus of this journal, such as the photochemistry and photophysics of small molecules, of π-conjugated (supra-) molecular and plasmonic systems, photonic devices such as light-emitting diodes, solar cells, optical sensors and switches, spectroscopic techniques for the in-depth characterization of the above systems. The recent groundbreaking progress in photocatalysis and photoinduced electron transfer processes also makes photochemistry a hot topic. In short: photochemistry is cool."
  Johan Hofkens (Katholieke Universiteit Leuven): "Ever since the earliest accounts of light induced blackening in silver chlorides in the late 18th century, photochemistry, the branch of chemistry concerned with the chemical effects of light, has evolved to touch almost every aspect of daily life and the world around us. At the most fundamental level, photochemistry is firmly rooted in the discovery of energy quantization. Moreover, the intricate interaction of light and matter contributed to elucidate the nature of the chemical bond itself. Photosynthesis in plants is nature's applied version of photochemistry and the fluorescence of organic dyes and proteins has allowed us to visualize biological processes at levels of detail far beyond the reach of light alone. The explosion of ever more powerful and energy-efficient consumer electronics and computers, to the relentless pace of Moore's law, can in large part be attributed to advances in photolithography. Going forward, photochemistry is ideally poised to provide the answers to some of the greatest challenges currently facing humanity. Indeed, tomorrow's photocatalysts, organic and inorganic hybrid photovoltaics and LEDs can be expected to truly enable green chemistry and allow us to create more efficient commodity goods, reducing our energy footprint and our impact on the environment. ChemPhotoChem is hence a timely new journal and unique in the sense that it aims to capture all aspects of photochemistry, as it is evident that the importance of this exciting field cannot be overstated."
Members
 Ayyappanpillai Ajayaghosh (NIIST)
 Engin Umut Akkaya (Bilkent University)
 Damien Baigl (École Normale Supérieure)
Christopher Barner-Kowollik (Karlsruher Institut für Technologie)
 Mario Berberan Santos (Universidade de Lisboa)
 Christian Bochet (Université de Fribourg)
 Chi-Ming Che (Hong Kong University)
 Yiyun Chen (Shanghai Institute of Organic Chemistry)
 Gonzalo Cosa (McGill University, Montréal)
 Alberto Credi (Università di Bologna)
Ranjan Das (Tata Institute of Fundamental Research, Mumbai)
Francis D'Souza (University of North Texas)
Thomas Ebbesen (Université de Strasbourg)
 Ben Feringa (Rijksuniversiteit Groningen)
Frank Glorius (Universität Münster)
 Letitia González (Universität Wien)
 Daniel Gryko (Polska Akademia Nauk)
Anna Gudmundsdottir (University of Cincinatti)
 Anthony Harriman (Newcastle University)
Baibiao Huang (Shandong University)
 Hiroshi Ikeda (Osaka Prefecture University)
Osamu Ishitani (Tokyo Institute of Technology)
Nathalie Katsonis (Universiteit Twente)
Nobuo Kimizuka (Kyushu University)
 Rafal Klajn (Weizmann Insitute of Science)
Burkhard König (Universität Regensburg)
 Bin Liu (National University of Singapore)
 Paolo Melchiorre (ICIQ)
Gerald Meyer (University of North Carolina)
Klaus Müllen (MPI für Polymerchemie)
 Mogens Brøndsted Nielsen (Københavns Universitet)
 Sascha Ott (Uppsala universitet)
 Chan Beum Park (KAIST)
Uwe Pischel (CIQSO)
A. Dieter Schlüter (ETH Zürich)
Tomas Torres (Universidad Autonoma Madrid)
Dirk Trauner (Ludwig-Maximilians-Universität München)
 Georgios Vassilikogiannakis (University of Crete)
Hans-Achim Wagenknecht (Karlsruher Institut für Technologie)
Wen-Jing Xiao (Central China Normal University)
Tehshik Peter Yoon (UW-Madison)
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