Hongbing Wang,Yilin Liao,Jiaju Tang et al.
Hongbing Wang et al.
A gas-phase micro-solvation strategy is proposed to resolve the gas-liquid kinetic dilemma in hydrogen isotope exchange. Exploiting Pt@zeolite spatial confinement, trace water is precisely trapped to assemble localized interfacial water bri...
An ultralow-loaded molybdate catalyst on defect-engineered g-C3N4 for efficient electrochemical nitrate reduction to ammonia [0.03%]
Debasish Halder,Nandita Mohandas,Rupam Ghosh et al.
Debasish Halder et al.
Mo/g-C3N4 catalyst with nitrogen vacancies enables highly dispersed Mo nanoclusters via strong metal-support interactions. Defect engineering enhances nitrate-to-ammonia selectivity, activity, and stability while suppressing hydrogen evolut...
Cation-exchange-derived Cu1.8S-Fe0.8S nanocomposites for the construction of a photothermal immunoplatform toward sensitive alpha-fetoprotein assay [0.03%]
Chengxin Tian,Zengrong Fang,Mingzhe Jiang et al.
Chengxin Tian et al.
Herein, we rationally fabricated Cu1.8S-Fe0.8S photothermal nanocomposites via a cation exchange strategy, and further established a smartphone-integrated 3D-printed platform for the portable and reliable detection of alpha-fetoprotein.
Thiosulfonate synthesis via halothiolation of aryne intermediates followed by oxidative S-sulfonylation [0.03%]
Yusei Yamamoto,Shinya Tabata,Koyo Numata et al.
Yusei Yamamoto et al.
An efficient method for preparing aryl thiosulfonates through aryne intermediates is disclosed. Following aryne halothiolation with potassium xanthate, the resulting aryl xanthates were transformed into thiosulfonates using iodine and sodiu...
Correction: Iridium-catalyzed intramolecular asymmetric allylic amination of anthranilic acid derivatives: enantioselective construction of chiral benzodiazepinones [0.03%]
Yunru Wu,Bendu Pan,Long Jiang et al.
Yunru Wu et al.
Correction for 'Iridium-catalyzed intramolecular asymmetric allylic amination of anthranilic acid derivatives: enantioselective construction of chiral benzodiazepinones' by Yunru Wu et al., Chem. Commun., 2026, https://doi.org/10.1039/D6CC0...
Published Erratum
Chemical communications (Cambridge, England). 2026 May 5;62(34):8774. DOI:10.1039/d6cc90137a 2026
Substituent-induced modulation of proaromaticity in benzo-fused fluorenophenalene exhibiting a low-lying LUMO [0.03%]
Sakshi Sahewal,Suman Sharma,Dibyendu Mallick et al.
Sakshi Sahewal et al.
Fluorenophenalene (FP) is an underexplored proaromatic polycyclic hydrocarbon. Herein, we report the synthesis of benzo-fused FPs bearing aryls (mesityl, C6H2F3 and C6F5) of varying electronic character as apical substituents of the cyclope...
Reversible Cu+/Cu2+ cycles enable enhanced carrier separation for efficient photocatalytic ammonia synthesis [0.03%]
Weiwei Shao,You Yang,Yang Shen et al.
Weiwei Shao et al.
A reversible Cu+/Cu2+ cycling strategy is developed to enhance the extraction of photoexcited electrons. Cu-doped BiVO4 with an adjustable Cu+/Cu2+ ratio is selected as the prototype. The charge separation efficiency is improved by 25.6%, w...
Eleonora Casillo,Thomas Scattolin,Steven P Nolan
Eleonora Casillo
Correction for 'Catalysis meets machine learning: a guide to data-driven discovery and design' by Eleonora Casillo et al., Chem. Commun., 2025, 61, 18247-18272, https://doi.org/10.1039/D5CC05274B.
Published Erratum
Chemical communications (Cambridge, England). 2026 May 5;62(34):8775. DOI:10.1039/d6cc90142e 2026
Plasmonic TiN-supported CuPd alloy for highly selective and base-free photocatalytic Glaser homocoupling [0.03%]
Huijie Hao,Yaying Li,Ting Han et al.
Huijie Hao et al.
An ice-templated CuPd/TiN catalyst is reported for efficient, base-free photocatalytic Glaser homocoupling. Synergizing TiN's LSPR effect with CuPd alloying, the system achieves 99% conversion and 100% selectivity. XAS-confirmed electron tr...
LMCT enabled photo-decarboxylative C-N cross-coupling of α,β-unsaturated acids with pyrazoles [0.03%]
Soumya Mondal,Pradyut Ghosh
Soumya Mondal
An oxidative decarboxylative C-N cross coupling of α,β-unsaturated acids with pyrazoles is reported for a greener route of N-benzoylpyrazoles with traceless CO2 and H2O byproducts.