We have updated our reviewer recommended ‘HOT articles’ for 2024.
We update our HOT articles collection quarterly and make the selected articles free to access until 17 May 2024! This collection represents the top 10% of research published in Dalton Transactions between January – March 2024.
We have updated our reviewer recommended ‘HOT articles’ for 2023.
We update our HOT articles collection quarterly and make the selected articles free to access until 20 February 2024! This collection represents the top 10% of research published in Dalton Transactions between October – December 2023.
Happy New Year from the Dalton Transactions Editorial Office!
In 2023, Dalton Transactions published 48 issues with over 1800 articles, including 81 Frontier and Perspectives review articles, from 60 countries. With over 3 million article downloads, you can be confident that your article has excellent visibility.
We would also like share with you some highlights from Dalton Transactions in 2023, including our outstanding paper award, themed collections, and our most popular articles.
Meet our new Associate Editors
We were delighted to welcome Neal Mankad and Eric Rivard as Associate Editors to the journal in 2023. Read on to find out more about them and meet our full Editorial Board here.
Neal Mankad
Neal P. Mankad received his S.B. in chemistry from MIT in 2004 after having conducted undergraduate research with Prof. Joseph P. Sadighi on copper N-heterocyclic carbene complexes. In 2010, Neal earned a Ph.D. in inorganic chemistry from Caltech as an NSF graduate research fellow under the supervision of Prof. Jonas C. Peters, working on biomimetic and bioinspired complexes of copper and iron. During 2010-2012, he was an NIH postdoctoral research fellow at the University of California, Berkeley, with Prof. F. Dean Toste studying fundamental organometallic chemistry of gold.
Since 2012, Neal has been an independent faculty member in the Department of Chemistry at the University of Illinois Chicago (UIC), where his group focuses on synthetic inorganic and organometallic systems relevant to chemical sustainability. Selected research awards earned by Neal include the Alfred P. Sloan Research Fellowship and the NIH Maximizing Investigators’ Research Award (MIRA). He has also gained distinction for excellence in teaching, including by the UIC Teaching Recognition Program.
Eric Rivard
Eric Rivard completed his Ph.D. at the University of Toronto under the supervision of Professor Ian Manners in 2004. After NSERC sponsored postdoctoral work with Professors Jonas Peters (Caltech) and Philip Power (University of California, Davis), and a research stay with Professor Cameron Jones (Monash University), he joined the University of Alberta in 2008 where he is now a Full Professor. He has given over 200 invited lectures worldwide and has published around 150 articles. He was the inaugural 2016 Michael Lappert Lecturer from the RSC, an RCMS Visiting Professor at Nagoya University (2016), an Alexander von Humboldt Experienced Researcher Fellow (2017), held visiting fellowships in 2015 and 2023 from the Japan Society for the Promotion of Science (JSPS), was a Visiting Professor at National Taiwan University (2023), and won the 2018 Strem Chemicals Award for Pure and Applied Inorganic Chemistry (Canadian Society for Chemistry). The Rivard group studies fundamental low-coordinate and main group chemistry, catalysis, semiconducting material synthesis, and the development of phosphorescent materials and conjugated polymers based on inorganic elements.
2023 Dalton Transactions Outstanding Paper Award Winners
The Outstanding Paper Award is a new award aimed at recognising the great work published in Dalton Transactions from the previous year. This year’s winners were Bronte Charette, Lisa Olshansky, Paul Griffin and Claire Zimmerman for their paper:
Bronte J. Charette, Paul J. Griffin, Claire M. Zimmerman and Lisa Olshansky*
Dalton Trans., 2022, 51, 6212-6219
In this outstanding article, the authors explored the interplay between molecular and electronic structure for a series of Cu(I) and Cu(II) complexes with dpaR ligands through various spectroscopic and physical techniques.
Themed Collections
Find out more about the themed collections we have launched in 2023, including:
Highlighting recent developments in the application of the structural, optical, electronic and magnetic properties of inorganic and organometallic complexes in molecular electronics.
Includes recent research and reviews by early career researchers in the Asia-Pacific region, highlighting the achievements of emerging scientists in the field of inorganic chemistry
Guest Editors:
Jitendra K. Bera, Indian Institute of Technology Kanpur
Sally Brooker, University of Otago
Takashi Uemura, University of Tokyo
Li-Min Zheng, Nanjing University
Themed Collections still open for submissions:
Intercalation Compounds: properties, mechanisms and advanced applications
Submission deadline: 31st January 2024
Guest Editors:
Chiara Bisio, University of Eastern Piedmont Sebastien Cahen, Institut Jean Lamour – CNRS-Université de Lorraine
Fabrice Leroux, University of Clermont-Ferrand
Recent Progress and Perspectives on Spin Transition Compounds
Submission deadline: 16th February 2024
Guest Editors:
Shinya Hayami, Kumamoto University
Malcolm Halcrow, University of Leeds
Birgit Weber, University of Jena
If you would like to contribute to any of the above collections, please email dalton-rsc@rsc.org.
Most popular articles from 2023
We are pleased to share a selection of our most popular articles from 2023 – all free to access until July 2024.
We are delighted to welcome our new Associate Editor Professor Eric Rivard from the University of Alberta to the Dalton TransactionsEditorial Board!
Eric Rivard completed his Ph.D. at the University of Toronto under the supervision of Professor Ian Manners in 2004. After NSERC sponsored postdoctoral work with Professors Jonas Peters (Caltech) and Philip Power (University of California, Davis), and a research stay with Professor Cameron Jones (Monash University), he joined the University of Alberta in 2008 where he is now a Full Professor. He has given over 200 invited lectures worldwide and has published around 150 articles. He was the inaugural 2016 Michael Lappert Lecturer from the RSC, an RCMS Visiting Professor at Nagoya University (2016), an Alexander von Humboldt Experienced Researcher Fellow (2017), held visiting fellowships in 2015 and 2023 from the Japan Society for the Promotion of Science (JSPS), was a Visiting Professor at National Taiwan University (2023), and won the 2018 Strem Chemicals Award for Pure and Applied Inorganic Chemistry (Canadian Society for Chemistry). The Rivard group studies fundamental low-coordinate and main group chemistry, catalysis, semiconducting material synthesis, and the development of phosphorescent materials and conjugated polymers based on inorganic elements.
We have updated our reviewer recommended ‘HOT articles’ for 2023.
We update our HOT articles collection quarterly and make the selected articles free to access until 13 November 2023! This collection represents the top 10% of research published in Dalton Transactions between July – September 2023.
We are delighted to announce our new spotlight collection on aggregation induced luminescence of metal complexes. Spotlight Collections are ongoing themed collections highlighting the best past and present work in Dalton Transactions.
Metal complexes have been known as luminescent materials for decades and still represent an extremely attractive class of materials due to their peculiar structure-related properties. As a consequence, they have found applications as responsive supramolecular motifs, sensors and photocatalysts. In the last 10 years, the emerging field of Aggregation-Induced Emission (AIE) demonstrated how a vast variety of compounds are able to switch from negligible emissive compounds in solutions to intensely luminescent materials upon aggregation.
This Spotlight Collection is focused on recent advances of AIE-active metal complexes published in Dalton Transactions, displaying the synthetic strategies for the preparation of new coordination motifs, their photophysical properties and their use as tuneable emissive materials in sensing-oriented and opto-electronic applications, aiming to define useful design principles for future improvements.
This collection is guest edited by Dalton Transactions Associate Editor Professor Paola Ceroni (University of Bologna, Italy), Dr Andrea Fermi (University of Bologna, Italy) and Professor Inamur R. Laskar (Birla Institute of Technology and Science Pilani, India).
Prof Paola Ceroni
Dr Andrea Fermi
Prof Inamur Laskar
See the full collection as it grows on our collection webpage, and check out a selection of articles below:
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:
We have updated our reviewer recommended ‘HOT articles’ for 2023.
We update our HOT articles collection quarterly and make the selected articles free to access until 18 August 2023! This collection represents the top 10% of research published in Dalton Transactions between April – June 2023.
We are delighted to announce our new spotlight collection on Metallocycles and Metallocages. Spotlight Collections are ongoing themed collections highlighting the best past and present work in Dalton Transactions.
This collection demonstrates the amazing breadth of ground-breaking research being undertaken in the area of metallocycles and metallocages all over the world.
Metallocycles and metallocages are discrete, 2D and 3D metal-organic architectures. These beautiful and often complex structures can be formed from relatively simple building blocks through self-assembly processes centred around transition metal and lanthanide coordination chemistry. The diversity of accessible topologies and sizes, combined with their well-defined cavities, make them fascinating synthetic targets and attractive hosts in supramolecular chemistry. This Spotlight Collection aims to celebrate recent developments in the field, highlighting both fundamental and applied research.
Fundamental research into the construction and structural interconversion of new cages and metallocycles remains a valuable and popular research topic, while new and varied applications of these structures continue to develop and expand. Examples found within this collection include studies of spin and magnetism, hierarchical self-assembly into gels and applications in catalysis, separations, cancer therapeutics and optical detection.
This collection is guest edited by Dalton Transactions Advisory Board member Professor Lin Xu (East China Normal University), alongside Dr Cally Haynes (University College London) and Dr James Lewis (Imperial College London).
Dr Jamie Lewis
Dr Cally Haynes
Professor Lin Xu
See the full collection as it grows on our collection webpage, and check out a selection of articles below:
We are delighted to announce the winner of our 2022 Outstanding Paper Award.
The Outstanding Paper Award is a new award aimed at recognising the great work published in Dalton Transactions from the previous year. The process for selecting the winner involves the shortlisting of papers published in the journal within the previous year based on nominations by members of the Editorial Board as well as a variety of metrics including article downloads, Altmetric score and citations. The Editorial Board then votes on this shortlist to select the winner.
Bronte J. Charette, Paul J. Griffin, Claire M. Zimmerman and Lisa Olshansky*
Dalton Trans., 2022, 51, 6212-6219
In this outstanding article, the authors explored the interplay between molecular and electronic structure for a series of Cu(I) and Cu(II) complexes with dpaR ligands through various spectroscopic and physical techniques.
Meet the authors of this outstanding paper
Lisa Olshansky
Lisa Olshansky is an Assistant Professor of Chemistry at UIUC. She received her PhD from MIT in 2015. Her current research focuses on mimicking the ways that biological systems efficiently interconvert different forms of energy. Specifically, she hypothesizes that there is a critical interplay between macroscopic changes in molecular structure and subatomic changes in electronic structure that can be leveraged for diverse applications ranging from solar energy conversion to biomedical research. Olshansky has been named a Searle, Vallee, and Cottrell Scholar, a Kavli fellow (2022), and has received early career research awards from the NIH and DOE.
Bronte Charette
Bronte obtained her B.Sc. in Chemistry from the University of Winnipeg where she began her research career in synthetic inorganic chemistry which she continued during her M.Sc. studies under the supervision of Prof. Jamie Ritch at the University of Manitoba. In 2021, Bronte received her Ph.D. in Chemistry from the University of California, Irvine as a Natural Science and Engineering Research Council of Canada (NSERC) Postgraduate Doctoral Fellow with Prof. Alan Heyduk. Her postdoctoral work with Prof. Lisa Olshansky focused on synthesizing switchable transition metal complexes for renewable energy conversion strategies. Bronte is excited to start her independent career as an assistant professor at UC Davis this summer.
Paul Griffin
Paul Griffin received his bachelor’s in chemistry and philosophy (2016) and his Master’s in chemistry (2018) from the University of Scranton. His master’s research was conducted under Dr Art Catino in which he developed a general approach to synthesize substituted tetraarylmethanes. Paul recently obtained his PhD in inorganic chemistry at the University of Illinois, Urbana-Champaign (2023), where he works with Lisa Olshansky to study the relationship between conformational dynamics, photochemistry, and electron transfer in copper coordination complexes. Paul is passionate about mentoring the next generation of scientists and explores his philosophy interests by having riveting discussions with his cat, Mookie.
Claire Zimmerman
Claire completed her B.S. at the University of Illinois at Urbana-Champaign under Dr Lisa Olshansky. She is currently in her first year of graduate studies at the University of California Irvine with Dr Jenny Yang.
Please join us in congratulating this year’s winners and read the outstanding paper here.
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