For Yong Wu (@YongWu1990), who synthesized the alpha-, beta-, and gamma-L-cyclodextrins, it’s the second time in his early academic career that he has netted this accolade from @cenmag. Congratulations Squared Yong!
Yes! Ion Migration Enhances the Performance of Perovskite CsPbBr3 γ-Ray Detectors. New findings on the role of mobile ions and their impact on the performance of all gamma-ray perovskite detectors https://t.co/KT7NqgkVV9
So happy to have this work published, huge thanks especially to @l_killalea@letizia_liiro Tom Rees @PancottiGiulia Sergi Riera and @b23_diamond Nanoscale arrangement of a chiral electron donor in its blends with an achiral electron acceptor https://t.co/hmgz07pWRc
Check out this great work by Lea in @ACSEnergyLett ..Weakly Coordinating Sulfonamide Electrolytes for 4.6 V Lithium Metal Batteries in collaboration with @Jang_Wook_Choi .. @snsf_ch funded, @unifrChemistry https://t.co/hGqnLMhczH
Hugh congratulations Qing-Hui and your team on this groundbreaking piece of research. What makes it so special is that the bottom-up synthesis is so simple. Elegance personified!
In this year, commemorating the 20th anniversary of Graphene's discovery, we present a sustainable bottom-up chemical synthesis of reduced graphene oxide (rGO) by upcycling of biomass. @sirfrasersays@naturesustainab https://t.co/9A9k35feXG
Thrilled to see our wholly synthetic α-L-CD appear on the list of six Molecules of the Year of 2024 selected by the Editors at C&EN. Please vote if you like it. Thank you! @sirfrasersays@NUChemistry@HKU_Chemistry@UNSWScience@ZJU_China
https://t.co/NpZkUMXWg7
Budding molecular magicians are invited to apply for a 4-year PhD studentship on catalysis-driven molecular machinery (e.g. https://t.co/qWudTDBfUo; https://t.co/Ndx2Xj9UBO; etc) available in my group, autumn 2025 start: https://t.co/azgS1NNh9z. Position open until filled😃
Our recent paper will be highlighted in the backcover of one of the next @ChemicalScience issues. I thank my collaborators @DJKimLab@SimonDai0517@BertonCesare, and MUR and @snsf_ch for having made this research possible. Here is the updated link: https://t.co/BvOEbPOYGH
The fundamental message from this research is that it’s possible when substrates are bound in nano-sized receptors for one binding source to become dominant over all the others, i.e., many a mickle makes a muckle doesn’t always have to rule the roost. @NUChemistry@HKU_Chemistry
Electrostatic interactions turn out to be a dominant factor in determining the pre-organization of carboxylate guests in CD-MOFs. This observation could open up many opportunities for engineering chemical reactions in confined spaces. @Dengke_Shen@sirfrasersays@HKU_Chemistry
[ISMSC 2025 Award Speaker]
Prof. Xi Zhang (Tsinghua Univ./Jilin Univ.) has been selected as the recipient of the 2025 Stoddart Science Fund Chemist Award. The Fund is used for awarding those who made outstanding contributions to supramolecular chemistry and molecular machines.
[ISMSC2025 Speakers]
The list of speakers for ISMSC2025 is available on our homepage, to be updated further in the future. It's a unique opportunity to witness the world's leading-edge supramolecular chemistry. Please be sure to register for participation!
https://t.co/7XjifD3EfG
A key point is that the time honored concept of a "driving force" for transition between two states away from equilibrium is wrong. Each trajectory has a "driving force" - some forward and some backward - but it is kinetic asymmetry that selects which dominates.
The Role of Kinetic Asymmetry in Chemical and Thermodynamic Coupling - Dean Astumian - ChemSystemsChem - Wiley Online Library The essence of non-equilibrium is having several trajectories, with kinetic selection between them.
https://t.co/rdJmEdctwP
https://t.co/u1b8oSyvKt