搜索结果: 1-12 共查到“国际动态 化学工程 Energy”相关记录12条 . 查询时间(0.125 秒)
浙江农林大学化学与材料工程学院胡勇教授团队在《Advanced Energy Materials》发表高水平研究论文(图)
碳包覆 Cu5Zn8合金 核壳纳米棒阵列 超稳定 锌负极
2024/3/19
近日,浙江农林大学化学与材料工程学院胡勇教授等人在国际顶尖期刊《Advanced Energy Materials》(中科院1区Top,IF=27.8)在线发表题为《分层亲锌纳米棒阵列通过先捕获后填平沉积实现超稳定锌负极》(Arrays of hierarchical zincophilic nanorods with trapping-and-leveling deposition for ul...
浙江工商大学环境科学与工程学院青年教师杨国详在催化领域顶级期刊Applied Catalysis B: Environmental and Energy (A+++) 发表研究论文(图)
杨国详 催化 Applied Catalysis B: Environmental and Energy 电镀废水
2024/3/28
近日,我院王齐教授、青年教师杨国详在国际顶级期刊Applied Catalysis B: Environmental and Energy上发表题为“Facile synthesis of direct Z-scheme PPy/NH2-UiO-66 heterojunction for enhanced photocatalytic Cr(VI) reduction, industrial el...
东华大学环境科学与工程学院乔锦丽教授课题组在Journal of Energy Chemistry上发表研究成果
东华大学 乔锦丽 Journal of Energy Chemistry 电催化
2023/11/27
近日,我院乔锦丽教授课题组在CO2电催化还原领域取得新进展,相关成果以“Crystal Facet Engineering Coexposed CuIn(200)and In(101)in CuIn alloy nanocatalysts Enabling Selective and Stable CO2 Electroreduction”为题发表在Journal of Energy Chemis...
2023年9月1日,化学与材料工程学院纳米催化与能源转化研究团队(胡勇教授团队)在国际顶尖期刊《Advanced Energy Materials》(中科院1区Top,IF=27.8)在线发表题为“Aqueous Zinc-Iodine Batteries: From Electrochemistry to Energy Storage Mechanism”(水系锌基电池:从电化学到储能机制)的综...
受制于传统电池内部复杂的电化学反应与苛刻的生化环境,长久以来,绝大多数生物材料都以高温煅烧制备生物质的方式在电池中使用。近几年来,伴随着生物技术的快速发展,越来越多的生物分子(如蛋白质等)开始进军电池领域,特别是近几年蓬勃发展的水系电池与金属负极更是为生物材料在电池内部的直接应用开启了新的大门。
In the endless quest to pack more energy into batteries without increasing their weight or volume, one especially promising technology is the solid-state battery. In these batteries, the usual liquid ...
力工学院鲍垠桦副教授在国际高水平学术期刊《Energy Storage Materials》上发表高能量密度柔性锂离子电池最新研究成果(图)
高能量 柔性锂离子电池 高水平学术期刊 固态电池
2022/5/26
近日,力学与工程科学学院鲍垠桦副教授与上海大学双聘院士、中国科学院院士、北京理工大学方岱宁教授,力学与工程科学学院吕浡,宋亦诚,张俊乾教授等人合作,在高能量密度柔性锂离子电池方面取得重要研究进展。研究成果以“Crocodile skin inspired rigid-supple integrated flexible lithium ion batteries with high energy ...
Rice University chemists have produced a catalyst based on laser-induced graphene that splits water into hydrogen on one side and oxygen on the other side. They said the inexpensive material may be a ...
Entering the Fast Lane—MXene Electrodes Push Charging Rate Limits in Energy Storage
Entering the Fast Lane MXene Electrodes Charging Rate Limits Energy Storage
2017/7/24
Can you imagine fully charging your cell phone in just a few seconds? Researchers in Drexel University’s College of Engineering can, and they took a big step toward making it a reality with their rece...
New electrical energy storage material shows its power
New electrical energy storage material power
2016/9/12
A powerful new material developed by Northwestern University chemist William Dichtel and his research team could one day speed up the charging process of electric cars and help increase their driving ...
Making a Solar Energy Conversion Breakthrough With Help From a Ferroelectrics Pioneer
Solar Energy Conversion Ferroelectrics Pioneer
2016/8/11
Designers of solar cells may soon be setting their sights higher, as a discovery by a team of researchers has revealed a class of materials that could be better at converting sunlight into energy than...
New lithium-oxygen battery greatly improves energy efficiency,longevity
New lithium-oxygen battery energy efficiency longevity
2016/8/1
Lithium-air batteries are considered highly promising technologies for electric cars and portable electronic devices because of their potential for delivering a high energy output in proportion to the...