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2023年2月15日,国际期刊《德国应用化学》(Angewandte Chemie International Edition)在线刊发了化学与化工学院钟芳锐教授团队完成的最新研究成果“拓展铜酶杂泛性催化吲哚氧化交叉偶联反应”(Expanding Promiscuity of a Copper-Dependent Oxidase for the Enantioselective Cross-Cou...
完善π芳香性拼图: Craig 反芳香物种的发现(图)
π芳香性 Craig 反芳香物种 碳龙化学
2023/2/17
“碳龙化学(Carbolong Chemistry)”团队再次取得重要进展:报道了首例Craig 反芳香物种的制备方法,并结合理论计算系统分析了其反芳香性的本质及驱动力。从而在首例芳香物种(萘)发现两个世纪后,完善了π芳香体系拼图(图1)。该成果以“Synthesis and Characterization of Craig-type Antiaromatic Species with [4n ...
Some researchers are driven by the quest to improve a specific product, like a battery or a semiconductor. Others are motivated by tackling questions faced by a given industry. Rob Macfarlane, MIT’s P...
甲烷高温重整反应是大规模产氢的主要方式之一。相对于常见的甲烷水蒸气重整和二氧化碳干重整,采用硫化氢对甲烷进行重整制氢的过程尚未引起人们足够的注意,而其优势在于能够产生更多摩尔当量的氢气,且该反应是针对酸性天然气矿直接利用的潜在方案。然而,甲烷硫化氢重整反应相对于蒸汽重整和干重整在热力学上更为困难,且高温和硫化氢气氛对高效稳定催化剂的设计极具挑战。
For more than a century, much of the world has run on the combustion of fossil fuels. Now, to avert the threat of climate change, the energy system is changing. Notably, solar and wind systems are rep...
近日,清华大学电机系易陈谊课题组基于三苯胺取代的吡咯设计合成了一类新型低成本空穴传输材料T3,并且可以高效地对其空穴传输等性能进行调控,基于该材料的钙钛矿太阳能电池获得了24.85%的高光电转化效率,相关成果发表在国际学术期刊《德国应用化学》(Angewandte Chemie)上。
全固态锂金属电池锂金属负极失效机制研究取得重要进展(图)
全固态 锂金属电池 锂金属负极 失效机制
2023/2/15
近日,厦门大学化学化工学院杨勇教授课题组在全固态锂金属电池锂金属负极失效机制研究取得重要进展,相关成果以“Understanding the failure process of sulfide-based all-solid-state lithium batteries via operando nuclear magnetic resonance spectroscopy”为题发表在Natu...
2023年2月3日,《美国化学会志》(Journal of the American Chemical Society)在线刊发了化学与化工学院王得丽教授团队的最新研究成果“赝Pt单层稳固催化氢氧化” (Pseudo-Pt Monolayer for Robust Hydrogen Oxidation, J. Am. Chem. Soc. DOI: 10.1021/jacs.2c11907)
Gel-like materials that can be injected into the body hold great potential to heal injured tissues or manufacture entirely new tissues. Many researchers are working to develop these hydrogels for biom...
近日,清华大学电机工程与应用电子技术系易陈谊课题组通过真空蒸发铅盐和有机铵盐溶液处理相结合(简称ES)的方法,实现了高度可重复的高效率钙钛矿太阳能电池的制备,并在大面积(1cm2)器件上取得了光电转换效率为24%的世界最高纪录,成果发表在国际学术期刊《先进材料》(Advanced Materials)上。
Pushing a shovel through snow, planting an umbrella on the beach, wading through a ball pit, and driving over gravel all have one thing in common: They all are exercises in intrusion, with an intrudin...
Moving water and earth(图)
颗粒形状 河流恢复 海岸侵蚀
2023/1/11
As a river cuts through a landscape, it can operate like a conveyer belt, moving truckloads of sediment over time. Knowing how quickly or slowly this sediment flows can help engineers plan for the dow...
A chemistry collaboration led to a creative way to put carbon dioxide to good – and even healthy – use: by incorporating it, via electrosynthesis, into a series of organic molecules that are vital to ...
超轻太阳能电池可将物体表面变为电源
超轻太阳能电池 物体表面 电源
2022/12/24
美国麻省理工学院(MIT)工程师在最新一期《小方法》杂志上刊发论文称,他们开发出一款超轻太阳能电池,可快速方便地将任何表面变为电源。这款比人头发丝还纤薄的太阳能电池黏附于一块织物上,重量仅为传统太阳能电池板的百分之一,但每千克的发电量是其18倍,可集成在船帆、救灾帐篷和防水布、无人机的机翼及各种建筑物表面。
Chemical reactions are happening around us all the time – it’s obvious when you think about it, but how many of us do when we start a car, cook an egg, or fertilize the lawn?