Spotlight Collection: Photoinduced Redox Chemistry

We are delighted to announce our new spotlight collection on Photoinduced redox chemistry. Spotlight Collections are ongoing themed collections highlighting the best past and present work in Dalton Transactions.

This collection demonstrates the incredible breadth of ground-breaking research being undertaken in the area of photoinduced redox chemistry all over the world.

Many classes of inorganic complexes and materials can participate in photoinduced redox chemistry, in which absorption of a photon generates an excited state that then undergoes an electron-transfer event with a redox partner. Many classes of inorganic compounds spanning a large portion of the periodic table, including transition metal and f-element coordination compounds, organometallic complexes, MOFs, nanomaterials, and extended inorganic solids, can undergo photoinduced redox chemistry. Fundamental studies of the thermodynamics and kinetics of these excited-state redox processes remain important, as they continue to reveal key insights into how ligand design, electron configuration, molecular structure, crystal structure, environment and composition affect the excited-state redox chemistry of these many categories of inorganic compounds. Moreover, photoinduced charge transport processes involving inorganic compounds are important elementary steps in several applications, including but not limited to solar fuels, organic photoredox catalysis, dye-sensitized solar cells, and photodynamic therapy.

This Spotlight Collection covers various aspects of photoinduced redox chemistry in inorganic compounds including excited-state redox processes involving new inorganic materials, the development of novel systems for studying and optimizing these processes, and studies using known compounds for applications related to photoinduced charge transport, highlighting the important roles that existing inorganic compounds can play in these areas. This collection will showcase the combined roles that synthetic and physical inorganic chemistry, including time-resolved spectroscopy and computational studies, play in driving fundamental and applied research in this continually evolving field of research.

This collection is guest edited by Dalton Transactions Advisory Board member Prof. Thomas Teets (University of Houston), Prof. Dr. Katja Heinze (Johannes Gutenberg University Mainz) and Prof. Paul Elliott (University of Huddersfield).

Prof Paul Elliott

Prof Dr Katja Heinze

Prof Thomas Teets

 

See the full collection as it grows on our collection webpage, and check out a selection of articles below:


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The role of photoinduced charge transfer for photocatalysis, photoelectrocatalysis and luminescence sensing in metal–organic frameworks

Xinlin Li, Sreehari Surendran Rajasree, Jierui Yu and Pravas Deria*
Dalton Trans., 2020, 49, 12892-12917

Mapping the influence of ligand electronics on the spectroscopic and 1O2 sensitization characteristics of Pd(ii) biladiene complexes bearing phenyl–alkynyl groups at the 2- and 18-positions

Maxwell I. Martin, Trong-Nhan Pham, Kaytlin N. Ward, Anthony T. Rice, Phoebe R. Hertler, Glenn P. A. Yap, Philip H. Gilmartina and Joel Rosenthal*

Dalton Trans., 2023, 52, 7512-7523

Evaluating the photophysical and photochemical characteristics of green-emitting cerium(iii) mono-cyclooctatetraenide complexes

Pragati Pandey, Qiaomu Yang, Michael R. Gau and Eric J. Schelter*

Dalton Trans., 2023, 52, 5909-5917

Mechanistic insights into template-driven polyoxovanadate self-assembly: the role of internal and external templates

Stefan Repp, Kim Lara Junginger, Dieter Sorsche, Theresa Zorn, Ann-Christin Pöppler,* Yuji Kikukawa,* Yoshihito Hayashi* and Carsten Streb*

Dalton Trans., 2023, 52, 4002-4007

Visible light induced formation of a tungsten hydride complex

Diane P. Isaacs, Cole T. Gruninger, Tao Huang, Aldo M. Jordan, Genique Nicholas, Chun-Hsing Chen, Marc A. ter Horst and Jillian L. Dempsey*

Dalton Trans., 2023, 52, 3210-3218

 

Photoinduced electron transfer in non-covalent complexes of C60 and phosphangulene oxide derivatives

 

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