Harnessing Nature's Molecular Recognition Capabilities to Map and Study RNA Modifications [0.03%]
利用分子识别技术绘制和研究RNA修饰
Ansley S Felix,Alexandria L Quillin,Shikufa Mousavi et al.
Ansley S Felix et al.
RNA editing or "epitranscriptomic modification" refers to the processing of RNA that occurs after transcription to alter the sequence or structure of the nucleic acid. These chemical alterations can be found on either the ribose sugar or th...
Mimicking Color-Changing Organisms to Enable the Multicolors and Multifunctions of Smart Fluorescent Polymeric Hydrogels [0.03%]
模仿变色生物赋予智能荧光聚电解质水凝胶多彩多功能性质
Wei Lu,Muqing Si,Xiaoxia Le et al.
Wei Lu et al.
Fluorescent polymer hydrogels (FPHs) are of significant interest for diverse emerging applications such as visualized sensing, smart display, camouflaging skins, soft actuators/robots, because they can synergize the features of classic fluo...
Oxidation of Organic Compounds Using Water as the Oxidant with H2 Liberation Catalyzed by Molecular Metal Complexes [0.03%]
分子金属配合物催化以水作氧化剂释放氢气氧化有机化合物研究
Sayan Kar,David Milstein
Sayan Kar
Oxidation reactions of organic compounds play a central role in both industrial chemical and material synthesis as well as in fine chemical and pharmaceutical synthesis. While traditional laboratory-scale oxidative syntheses have relied on ...
Candidate for Catalyst during Water-Oxidation Reaction in the Presence of Manganese Compounds, from Nanosized Particles to Impurities: Sleep with One Eye Open [0.03%]
水氧化反应中含锰化合物体系的催化剂候选者——从纳米颗粒到杂质:谨小慎微得过且过
Mohammad Mahdi Najafpour
Mohammad Mahdi Najafpour
Water-oxidation reaction (WOR) catalysts are critical for energy conversion. WOR is a four-electron oxidation and sluggish reaction. WOR needs a high thermodynamic driving force; it is also a kinetically slow reaction. Different compounds h...
One-Pot Catalysis: A Privileged Approach for Sustainable Polymers? [0.03%]
一步催化:可持续聚合物合成的privileged approach?
Kanokon Upitak,Christophe M Thomas
Kanokon Upitak
Almost all aspects of daily life involve polymers in some form or the other. However, polymer production is largely based on finite feedstocks. These limitations combined with environmental concerns force us to rethink the strategies for th...
Pralay Gayen,Sulay Saha,Vijay Ramani
Pralay Gayen
Fuel cells (FCs), water electrolyzers (WEs), unitized regenerative fuel cells (URFCs), and metal-air batteries (MABs) are among the emerging electrochemical technologies for energy storage, fuel (H2), oxidant (O2), and clean energy producti...
Establishing a Resilient Conductive Binding Network for Si-Based Anodes via Molecular Engineering [0.03%]
通过分子工程建立基于硅阳极的鲁棒导电结合网络
Shiming Chen,Zhibo Song,Lu Wang et al.
Shiming Chen et al.
ConspectusSilicon-based anode materials have become a research hot spot as the most promising candidates for next-generation high-capacity lithium-ion batteries. However, the irreversible degradation of the conductive network in the anode a...
Synergic Heterodinuclear Catalysts for the Ring-Opening Copolymerization (ROCOP) of Epoxides, Carbon Dioxide, and Anhydrides [0.03%]
用于环氧烷烃、二氧化碳和酸酐的开环共聚反应(ROCOP)的协同双核催化剂
Wilfred T Diment,Wouter Lindeboom,Francesca Fiorentini et al.
Wilfred T Diment et al.
The development of sustainable plastic materials is an essential target of chemistry in the 21st century. Key objectives toward this goal include utilizing sustainable monomers and the development of polymers that can be chemically recycled...
Revisiting Aromatic Claisen Rearrangement Using Unstable Aryl Sulfonium/Iodonium Species: The Strategy of Breaking Up the Whole into Parts [0.03%]
重温芳香Claisen重排反应:利用不稳定的芳基锍/碘鎓物种将整体分解为部分的策略
Yuchen Liang,Bo Peng
Yuchen Liang
Since Ludwig Claisen's discovery of the sigmatropic rearrangement of allyl aryl ethers in 1912, aromatic Claisen rearrangement has continuously attracted the attention of both experimental and theoretical chemists. Over more than a century ...
Crystal Structure Prediction via Efficient Sampling of the Potential Energy Surface [0.03%]
通过有效采样势能面进行晶体结构预测
Yanchao Wang,Jian Lv,Pengyue Gao et al.
Yanchao Wang et al.
The crystal structure prediction (CSP) has emerged in recent years as a major theme in research across many scientific disciplines in physics, chemistry, materials science, and geoscience, among others. The central task here is to find the ...