In Situ Exfoliation of Covalent Metal-Organic Frameworks for Enhancing Photocatalytic Hydrogen Peroxide Production [0.03%]
原位剥落共价有机框架以增强光催化合成双氧水性能
Ri-Qin Xia,Zhen-Na Liu,Yu-Ying Tang et al.
Ri-Qin Xia et al.
Two-dimensional nanosheets exhibit largely enhanced photocatalytic activities for hydrogen peroxide (H2O2) production. Conventionally, the nanosheets are fabricated through ex situ approaches (i.e., top-down and bottom-up) prior to catalyti...
Engineering Donor-Acceptor Arrangement in Perylene Diimide-Based Covalent Organic Frameworks for Enhanced Singlet Oxygen Photocatalysis [0.03%]
基于并四苯二酰亚胺的供体-受体共价有机框架工程用于增强光催化产生 singlet 氧性能
Duojun Cao,Chengtao Gong,Yukun Han et al.
Duojun Cao et al.
The photocatalytic efficiency of two-dimensional covalent organic frameworks (2D COFs) is governed by the spatial arrangement of donor-acceptor (D-A) moieties, which strongly influences exciton transport. However, precise control over D-A a...
Unlocking the Full Potential of SERS: Merging Direct and Indirect Approaches for Enhanced Analysis of Multiplex Plasticizer Analogs in Matrices [0.03%]
解锁SERS的全部潜力:结合直接和间接方法以增强基质中多元塑化剂类似物的分析效果
Shan Huei Lim,Lam Bang Thanh Nguyen,Emily Xi Tan et al.
Shan Huei Lim et al.
Rapid and accurate identification of harmful plasticizer analogs in their native matrix is crucial for contaminant monitoring across industries. Surface-enhanced Raman scattering (SERS) shows promise for detecting structurally similar analo...
V-Induced Low-Spin State Mn3+ Suppresses Jahn-Teller Distortion for High-Performance Aqueous Zinc Ion Batteries [0.03%]
V诱导的低自旋Mn³⁺抑制JT畸变以提升水系锌离子电池性能
Jin Ma,Chen Li,Qianqian Ji et al.
Jin Ma et al.
The Jahn-Teller distortion caused by high-spin state Mn3+ (t2g 3eg 1) is a major limiting factor for improving both the specific capacity and cycling stability of MnO2 cathodes in aqueous zinc-ion batteries. Thus, an intrinsic strategy for ...
Programmable Chemoenzymatic Assembly of a Bisected and Core-Fucosylated N-Glycan Library Reveals Glycan-Binding Protein Specificity and Branch Preference [0.03%]
可编程化学酶法组装双分枝且核心岩藻糖基化N-聚糖文库揭示了糖蛋白结合特异性和分支偏好性
Jialin Liu,Wei Zhang,Zhuojia Xu et al.
Jialin Liu et al.
Bisected and core-fucosylated N-glycans represent a distinct class of complex biomolecules that are implicated in diverse biological and pathological processes. The structural complexity and synthetic challenges of these glycans hinder comp...
David B. Konrad [0.03%]
大卫·B·科纳德
David B Konrad
David B Konrad
"The one research question I would most like to answer is: What pathways are ideally suited as targets to treat advanced states of lung cancer?… The most challenging aspect of refereeing is finding the time for it…" Find out more about Da...
Ultralong-Lived Excitons in Metallo-Quinoline-Incorporated Covalent Organic Frameworks Promote Photoreductive Cross-Coupling [0.03%]
金属喹啉掺入共价有机框架中的超长寿命激发态促进光还原交叉偶联反应
Wencui Liang,Ming Gao,Jinlong Zhu et al.
Wencui Liang et al.
Designing long-lived excitons in photocatalysts is crucial for efficient charge separation. However, most of the current organic photocatalysts are characterized by a relatively short exciton lifetime within the range of picoseconds due to ...
Ethylene Electrosynthesis from Acetylene at Ampere-Level Current Density via Promoting Interparticle Mass Transport [0.03%]
通过促进颗粒间传质由乙炔amps级电流密度电合成乙烯
Chuanchuan Yan,Yi Wang,Youwen Rong et al.
Chuanchuan Yan et al.
The electrocatalytic acetylene semi-hydrogenation (EASH) driven by renewable energy offers an important non-petroleum route for ethylene production, yet suffers from insufficient reaction rate, ethylene selectivity, and energy efficiency. W...
Energy Dissipation Mediated by Multiple Noncovalent Interactions in Hydrogen-Bonded Organic Frameworks-Based Hydrogels for Wearable Gesture-to-Recognition Translation [0.03%]
基于氢键有机框架的水凝胶介导的多重非共价相互作用耗散用于穿戴式手势识别翻译
Guohui Liu,Dan Wang,He Li et al.
Guohui Liu et al.
Hydrogels hold great promises in intelligent wearable gesture-to-recognition translation devices, but high mechanical robustness usually encounters low sensitivity and poor cycling stability, it is pivotal and challenging to balance energy ...
In Situ Nanoscale Probing of Lithium-Aluminum Alloying / De-Alloying Kinetics and Mechanical Failure in All-Solid-State Batteries [0.03%]
全固态电池中锂铝合金化/去合金化的原位纳米力学探测及机械失效分析
Rui-Zhi Liu,Xu-Sheng Zhang,Zhen-Zhen Shen et al.
Rui-Zhi Liu et al.
Alloy anodes with high specific capacity are extensively utilized in all-solid-state batteries (ASSBs). However, they are challenged by interfacial kinetic and mechanical issues. Real-time investigation of interfacial failure mechanisms at ...