Toni Spilfogel and Joseph Marrett win RSC Mechanochemistry and RSC Sustainability poster prizes

RSC Mechanochemistry and RSC Sustainability were delighted to sponsor two Poster Prizes at the recent Birmingham Symposium on Mechanochemistry and Sustainability. Researchers from around the world came together during this symposium to present their latest research.

 

RSC Mechanochemistry Assistant Editor Patrick de Jongh attended this event and presented the RSC-sponsored Poster Prizes to Toni Spilfogel and Joseph Marrett (University of Birmingham, UK). Congratulations to the prize winners!

 

Left: John Warner, Patrick de Jongh, Toni Spilfogel and Thomas Auvray. Right: John Warner, Patrick de Jongh, Joseph Marrett and Thomas Auvray.

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

 

Introducing the second issue of RSC Mechanochemistry

 

We are delighted to present issue two of RSC Mechanochemistry, the first journal dedicated to this transformative field.

Explore exciting new research and innovative applications across all areas of theoretical and experimental chemistry for free. RSC Mechanochemistry focuses on the publication of innovative research that advances the fundamental understanding and application of the use of mechanical force for driving and controlling chemical reactions and materials transformations in the gas, liquid, and solid states.

 

“As part of a leading scientific society, publishing with RSC Mechanochemistry offers authors a global reach, as well as opportunities to engage with a myriad of interest groups to help foster connections and spread the word on their research. Our outstanding Associate Editors and Editorial Board provide an exceptional breath to the journal, so authors can be assured that their manuscripts are in the hands of leading experts who are dedicated to publishing their impactful science.”

James Batteas, Co-Editor-in-Chief

This journal will be a game-changer for mechanochemistry experts and novices alike – for the first time, authors in mechanochemistry will have the opportunity to publish their original and innovative mechanochemistry research in a dedicated journal, affiliated with a leading international chemistry publishing society.

 

Our second issue includes:

 

“Wash-free” synthesis of cyclodextrin metal–organic frameworks

Shuhei Fujita, Kazunori Kadot, Atsushi Koike, Hiromasa Uchiyama, Yuichi Tozukab and Shunsuke Tanaka

RSC Mechanochem., 2024, 1, 153-157
DOI: 10.1039/D3MR00006K

Mechanochemical indium(0)-mediated Barbier allylation of carbonyl compounds: unexpected immiscible water additive effect for hydrophobic reagents

Nuri Kim, Eun Sul Go and Jeung Gon Kim

RSC Mechanochem., 2024, 1, 158-161
DOI: 10.1039/D4MR00005F

Base-mediated trimerization of enones under solvent-free and ball-milling conditions

Gang Shao, Pinhua Li, Zheng-Chun Yin, Jun-Shen Chen, Xu-Ling Xia and Guan-Wu Wang

RSC Mechanochem., 2024, 1, 162-166
DOI: 10.1039/D3MR00010A

Unprecedented linear products by a mechanochemically activated Biginelli reaction using lawsone

Christina L. Koumpoura, Laure Vendier, Christian Bijani, Anne Robert, Philippe Carbonnière, Jean-Marc Sotiropoulos and Michel Baltas

RSC Mechanochem., 2024, 1, 167-175
DOI: 10.1039/D3MR00032J

Iron-free mechanochemical limonene inverse vulcanization

Rima Tedjini, Raquel Viveiros, Teresa Casimiro and Vasco D. B. Bonifácio

RSC Mechanochem., 2024, 1, 176-180
DOI: 10.1039/D3MR00002H

Diverse metastable diarylacetonitrile radicals generated by polymer mechanochemistry

Takumi Yamamoto, Daisuke Aoki, Koichiro Mikami and Hideyuki Otsuka

RSC Mechanochem., 2024,1, 181-188
DOI: 10.1039/D3MR00031A

Protecting-group-free mechanosynthesis of amides from hydroxycarboxylic acids: application to the synthesis of imatinib

Tatsiana Nikonovich, Tatsiana Jarg, Jevgenija Martõnova, Artjom Kudrjašov, Danylo Merzhyievskyi, Marina Kudrjašova, Fabrice Gallou, Riina Aav and Dzmitry Kananovich

RSC Mechanochem., 2024, 1, 189-195
DOI: 10.1039/D4MR00006D

Operando exploration of tribochemical decomposition in synthetic FeS2 thin film and mineral iron pyrite

E. Muñoz-Cortés, J. Sánchez-Prieto, B. Zabala, C. Sanchez, E. Flores, A. Flores, E. Roman, J. R. Ares and R. Nevshupa

RSC Mechanochem., 2024,1, 196-210
DOI: 10.1039/D3MR00027C

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

 

Hear from our authors: Tim Hanusa

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Hanusa about their study titled Grinding and the anisotropic environment: influences on the diastereoselective formation of Group 15 allyl complexes.

 

“The environment in a mechanochemically driven reaction is often considered chaotic and random, whether it’s from the pelting of stainless-steel balls or the effect of collisions in resonant acoustic mixing (RAM). So, the possibility of studying a mechanochemical environment that is less than homogenous—that has anisotropic features—is particularly attractive.”

 

“In this research, we revisited a system we had studied a few years ago, which involved organometallic diastereomers formed either in solution or mechanochemically. In the case of arsenic and antimony complexes with bulky allyl ligands, a greater percentage of the asymmetric form was generated during mechanochemical synthesis. The difference was traced to the use of layered starting reagents, specifically AsI₃ and SbCl₃, and their directing effect on compound formation. In solution, the anisotropic environment is lost, and a larger amount of the more symmetric diastereomer is formed, owing to the quasi-spherical environments around the As³⁺ and Sb³⁺ ions.”

 

“The current study expanded the range of reagents and mechanochemical variables used to synthesize the diastereomers. The aim was to determine their effect on the diastereomer ratios, yields, and formation of decomposition products. When liquid AsCl₃ was used in place of the layered, solid AsI₃, the diastereomer ratio of the arsenic complex not surprisingly veered toward solution values. However, the strong effect of liquid-assisted grinding (LAG) was unexpected. LAG altered the diastereomer ratio toward solution values, even when minimal amounts of solvents were added, and the reagents had negligible solubility in the added solvent.”

 

“These results indicate that the anisotropic environment can be meaningfully manipulated in the solid state. Since it is a variable with no direct solution counterpart, such as the time or temperature of the reaction, its expanded use holds promise for new outcomes from mechanochemically initiated synthesis.”

 

Want to know more about their work? Read the full paper here!

 

 

Grinding and the anisotropic environment: influences on the diastereoselective formation of Group 15 allyl complexes

Lauren E. Wenger and Timothy P. Hanusa

RSC Mechanochem. 2024, Advance Article, DOI: 10.1039/D4MR00001C

 

 

  RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

 

Hear from our authors: Masad Damha, James Thorpe and Julian Marlyn

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Masad Damha, James Thorpe and Julian Marlyn about their study titled Synthesis of short DNA and RNA fragments by resonant acoustic mixing (RAM).

 

Want to know more about their work? Read the full paper here!

Synthesis of short DNA and RNA fragments by resonant acoustic mixing (RAM)

James D. Thorpe, Julian Marlyn, Stefan G. Koenig and Masad J. Damha

RSC Mechanochem. 2024, Advance Article, DOI: 10.1039/D4MR00009A

 

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

 

Hear from our authors: Michel Baltas, Christina Koumpoura, Christian Bijani and Laure Vendier

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Michel Baltas, Christina Koumpoura, Christian Bijani and Laure Vendier about their study titled Unprecedented linear products by a mechanochemically activated Biginelli reaction using lawsone.

Want to know more about their work? Read the full paper here!

Unprecedented linear products by a mechanochemically activated Biginelli reaction using lawsone

Christina L. Koumpoura, Laure Vendier, Christian Bijani, Anne Robert, Philippe Carbonnière, Jean-Marc Sotiropoulos and Michel Baltas

RSC Mechanochem. 2024, Advance Article, DOI: 10.1039/D3MR00032J

 

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

Hear from our authors: Dzmitry Kananovich, Riina Aav and co-workers

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Dzmitry Kananovich, Riina Aav and co-workers about their study titled Protecting-group-free mechanosynthesis of amides from hydroxycarboxylic acids: application to the synthesis of imatinib.

Want to know more about their work? Read the full paper here!

Protecting-group-free mechanosynthesis of amides from hydroxycarboxylic acids: application to the synthesis of imatinib

Tatsiana Nikonovich, Tatsiana Jarg, Jevgenija Martõnova, Artjom Kudrjašov, Danylo Merzhyievskyi, Marina Kudrjašova, Fabrice Gallou, Riina Aav and Dzmitry Kananovich

RSC Mechanochem. 2024, Advance Article, DOI: 10.1039/D4MR00006D

 

 

  RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

 

Hear from our authors: Matteo Martelli, Lucia Maini and Marianna Marchini

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Matteo Martelli, Lucia Maini and Marianna Marchini about their study titled “What makes every work perfect is cooking and grinding”: the ancient roots of mechanochemistry.

 

Want to know more about their work? Read the full paper here!

“What makes every work perfect is cooking and grinding”: the ancient roots of mechanochemistry

Marianna Marchini, Giacomo Montanari, Lucia Casali, Matteo Martelli, Lucia Raggetti, Matej Baláž, Peter Baláž and Lucia Maini

RSC Mechanochem. 2024, 1, 123-129, DOI: 10.1039/D3MR00035D

 

 

  RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

Hear from our authors: Shunsuke Tanaka

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Shunsuke Tanaka about their study titled “Wash-free” synthesis of cyclodextrin metal–organic frameworks.

 

Want to know more about their work? Read the full paper here!

“Wash-free” synthesis of cyclodextrin metal–organic frameworks

Shuhei Fujita, Kazunori Kadota, Atsushi Koike, Hiromasa Uchiyama, Yuichi Tozuka and Shunsuke Tanaka

RSC Mechanochem. 2024, Advance Article, DOI: 10.1039/D3MR00006K

 

 

  RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

Hear from our authors: Ryan Kwok

RSC Mechanochemistry has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

 

In this edition, we hear from Ryan Kwok about their study titled Kinetics of primary mechanochemical covalent-bond-forming reactions.

 

Want to know more about their work? Read the full paper here!

 

Kinetics of primary mechanochemical covalent-bond-forming reactions

Yerzhan S. Zholdassov, Ryan W. Kwok, Milan A. Shlain, Monil Patel, Mateusz Marianski and Adam B. Braunschweig

RSC Mechanochem. 2024, 1, 11-32, DOI: 10.1039/D3MR00018D

 

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.

 

Tim Robertson and Jonathan Rider win RSC Mechanochemistry poster prizes at ACS Spring

RSC Mechanochemistry was delighted to sponsor two poster prizes at this week’s ACS Spring meeting in New Orleans. Within the ACS Colloids Division, a poster session titled Mechanochemistry in Colloid and Surface Chemistry was organised by Alison Altman, RSC Mechanochemistry Editor-in-Chief James Batteas, Ashlie Martini, and Isaiah Speight.

 

RSC Mechanochemistry Executive Editor Laura Fisher was there to present prizes to Tim Robertson (Rice University, USA) and Jonathan Rider (Florida State University, USA). Congratulations to the prize winners!

Left: Laura Fisher and Tim Robertson. Right: Laura Fisher and Jonathan Rider.

 

RSC Mechanochemistry offers you an inclusive and dedicated home for the ideas, scientific language and approaches that cut across the many disciplines mechanochemistry touches. Here we are seeking to build knowledge, as well as foster innovation and discovery at this forefront of chemistry. Whether you are seeking to understand the fundamentals of mechanochemistry, or you are excited by its applications and potential, this journal is for you.