搜索结果: 1-14 共查到“energy storage”相关记录14条 . 查询时间(0.14 秒)
近日,潍坊学院化学化工与环境工程学院杨帆博士与四川大学材料科学与工程学院傅雪薇副教授合作,在Energy Storage Materials期刊上发表了题为Fibrous materials for interface engineering in durable and shape-customizable lithium metal batteries的学术论文,Energy Storage ...
电子设备和电动汽车日益增长的需求激发了人们对获取高能量密度电池的兴趣。锂金属电池(LMBs)具有超高的理论容量(3860mA h g-1)和极低的相对电势(-3.04 V vs. SHE),将引领下一代可充电电池的发展方向。然而,锂金属表面离子通量分布不均匀、体积变化、固体电解质界面相(SEI)不稳定导致锂枝晶生长不可控,库仑效率且锂利用率较低,甚至存在严重的安全问题。更重要的是,金属锂负极的工业...
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
2022/2/21
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 ...
近日,材料学院慈立杰教授课题组在高性能钾离子电池负极材料研究方面取得重要进展,相关研究成果以“Hierarchically porous carbon supported Sn4P3as a superior anode material for potassium-ion batteries”为题发表在能源材料类重要刊物Energy Storage Materials(2019,https://...
Energy storage solution combines polymers and nanosheets(图)
energy storage solution polymers nanosheets
2017/7/31
A new, lightweight composite material for energy storage in flexible electronics, electric vehicles and aerospace applications has been experimentally shown to store energy at operating temperatures w...
Entering the Fast Lane—MXene Electrodes Push Charging Rate Limits in Energy Storage
Entering the Fast Lane MXene Electrodes Charging Rate Limits Energy Storage
2017/7/10
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...
Real-time scans of self-healing nanoparticles show their energy storage potential
Real-time scans self-healing nanoparticles their energy storage potential
2017/1/16
In a lab 18 feet below the Engineering Quad of Stanford University, researchers in the Dionne lab camped out with one of the most advanced microscopes in the world to capture an unimaginably...
New electrical energy storage material shows its power
New electrical energy storage material power
2016/8/24
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 ...
Symposium ES3—Materials for Multivalent Electrochemical Energy Storage
organic materials Multivalent metallic anodes
2016/7/25
The development of high energy density electrochemical energy storage is dependent upon the identification of new materials and new mechanisms. To date, the most successful electrochemical energy stor...
Symposium EC2—Facilitating Charge Transport in Electrochemical Energy Storage Materials
composite hybrid electrolytes
2016/7/25
This symposium will focus on key issues limiting the charge transport in materials for electrochemical energy storage technologies. The pressing need for devices that are safer, lighter, cost-effectiv...
Symposium ES1: Materials Science and Chemistry for Grid-Scale Energy Storage
Low cost materials Na-S batteries
2016/7/25
This symposium will cover recent advances in materials science and materials chemistry for grid-scale energy storage applications (other than flow batteries).
Modeling and Analysis of the Role of Fast-Response Energy Storage in the Smart Grid
Fast-Response Energy Storage Smart Grid
2015/8/17
The large short time-scale variability of renewable energy resources presents significant challenges to the reliable operation of power systems. This variability can be mitigated by deploying fa...
Cost optimal operation of thermal energy storage system with real-time prices
Thermal energy storage system heating ventilation air conditioning electricity costs mixed integer linear programming linear relaxation
2015/8/7
In this paper we propose a method to optimize operation of a thermal energy storage (TES) system for heating, ventilation and air conditioning (HVAC) in terms of electricity cost. We pose this optimiz...
COLLEGE PARK, Md. – If you think your origami skills can’t be beat – try this: (1) use the world’s thinnest material, (2) make the origami fold and unfold itself, and (3) pack into your miniscule orig...