- [Chem] 我室汪骋教授发表论文:Light-driven proton transport across liposomal membranes... 2021年12月07日
- [Chem] 我室熊海峰教授发表论文:Vapor-phase self-assembly for generating thermally sta... 2021年12月07日
- [Chemical Engineering Journal] 我室彭栋梁教授发表论文:Multi-strategy synergistic Li-... 2021年12月07日
- [Green Chemistry] 我室王野教授、张庆红教授和谢顺吉教授发表论文:Z-Scheme nanocomposit... 2021年12月07日
- [Energy Environ. Sci.] 我室廖洪钢教授发表论文:Efficient diffusion of superdense lith... 2021年12月07日
- [Nature Communications] 人工智能让精确而成本低廉的量子化学模拟成为可能 2021年12月03日
- [Nature] 我室李剑锋教授课题组揭示界面水分子结构 2021年12月02日
- [Nature Communications] 我室徐海超教授发表论文:Electrochemical C–H phosphorylation ... 2021年12月01日
- [Small] 我室洪文晶教授和杨扬副教授发表论文:Tracking Confined Reaction Based on Host... 2021年11月29日
- [ACIE] 我室李剑锋教授发表论文:In situ Raman probing of hot-electron transfer at Au-g... 2021年11月29日
我室汪骋教授在 Chem 上发表论文:Light-driven proton transport across liposomal membranes enabled by Janus metal-organic layers摘要:Photo-generation of a proton gradient over a lipid bilayer is of interest due to its essential role in photosynthetic bacteria. Membrane asymmetry is key to the proton gradient generation via directional proton transport. Here, we report a light-driven proton pump ...
我室熊海峰教授在 Chem 上发表论文:Vapor-phase self-assembly for generating thermally stable single atom catalysts摘要:With maximum atom efficiency, single-atom catalysts have attracted extensive attention in catalysis. However, metal single-atom catalysts (SACs) are thermodynamically unstable under reaction conditions, especially on conventional supports that have a weak metal-support interact...
我室彭栋梁教授在 Chemical Engineering Journal 上发表论文:Multi-strategy synergistic Li-rich layered oxides with fluorine-doping and surface coating of oxygen vacancy bearing CeO2 to achieve excellent cycling stability摘要:Li-rich layered oxides (LLOs) have attracted extensive attentions because of their high reversible capacity and operating voltages for advanced lithium-ion batteries. Howeve...
我室王野教授、张庆红教授和谢顺吉教授在 Green Chemistry 上发表论文:Z-Scheme nanocomposite with high redox ability for efficient cleavage of lignin C–C bonds under simulated solar light摘要:Depolymerization of lignin, a key component of lignocellulose, is a sustainable approach to provide value-added aromatics. Selective cleavage of recalcitrant C–C linkages is a key challenge for lignin depo...
我室廖洪钢教授在 Energy Environ. Sci. 上发表论文:Efficient diffusion of superdense lithium via atomic channels for dendrite-free lithium–metal batteries摘要:The non-uniform aggregation of fast-diffused Li on an anode surface would aggravate its tip-effect-induced nucleation/growth, leading to the notorious dendrite growth in Li metal batteries (LMBs). Tuning the Li diffusion on the anode sur...
我室Pavlo O. Dral副教授和吴玮教授与美国卡耐基梅隆大学的Olexandr Isayev副教授合作,发展了人工智能增强的量子力学新方法 (AIQM1)。相关成果以“Artificial Intelligence-Enhanced Quantum Chemical Method with Broad Applicability”为题发表在Nature Communications。发展高精度高效率的量子化学计算方法对复杂体系计算模拟具有重要意义。AIQM1 方法结合了人工智能方法和半经验量子力学方法,利用人工智能技术提高半经验...
2021年12月2日,我室李剑锋教授课题组与北京大学深圳研究生院潘锋教授团队合作,在Nature期刊上发表文章In situ Raman spectroscopy reveals the structure and dissociation of interfacial water,通过电化学原位拉曼光谱技术揭示界面水分子结构。 水分子在各个学科领域都扮演着至关重要的角色,人类对其结构的探索从未停止。电极/溶液界面水分子的物理化学特性是理解和发展...
我室徐海超教授在 Nature Communications 上发表论文:Electrochemical C–H phosphorylation of arenes in continuous flow suitable for late-stage functionalization摘要:The development of efficient and sustainable methods for carbon-phosphorus bond formation is of great importance due to the wide application of organophosphorus compounds in chemistry, material sciences and biology. Previous C–H pho...
我室洪文晶教授和杨扬副教授在 Small 上发表论文:Tracking Confined Reaction Based on Host–Guest Interaction Using Single-Molecule Conductance Measurement摘要:The host–guest interaction acts as an essential part of supramolecular chemistry, which can be applied in confined reaction. However, it is challenging to obtain the dynamic process during confined reactions below micromolar concentration...
我室李剑锋教授在 ACIE 上发表论文:In situ Raman probing of hot-electron transfer at Au-graphene interfaces with atomic layer accuracy摘要:Plasmonic metals under photoexcitation can generate energetic hot electrons to directly induce chemical reactions. However, the capability and fundamental insights of the transportation of these hot electrons at plasmonic metal-2D material interfaces remain ...