A high energy-density tin anode for rechargeable magnesium-ion batteries

2013 ◽  
Vol 49 (2) ◽  
pp. 149-151 ◽  
Author(s):  
Nikhilendra Singh ◽  
Timothy S. Arthur ◽  
Chen Ling ◽  
Masaki Matsui ◽  
Fuminori Mizuno
Keyword(s):  
Energy Density ◽  
High Energy ◽  
High Energy Density ◽  
Magnesium Ion ◽  
Tin Anode ◽  
Magnesium Ion Batteries

Ni-Doped magnesium manganese oxide as a cathode and its application in aqueous magnesium-ion batteries with high rate performance

2020 ◽  
Vol 7 (11) ◽  
pp. 2168-2177 ◽  
Author(s):  
Hongyu Zhang ◽  
Dianxue Cao ◽  
Xue Bai
Keyword(s):  
Energy Storage ◽  
Energy Density ◽  
Storage Systems ◽  
High Energy ◽  
High Rate ◽  
High Energy Density ◽  
Magnesium Ion ◽  
Rate Performance ◽  
Magnesium Ion Batteries ◽  
High Rate Performance

Aqueous magnesium-ion batteries feature good safety and high energy density and represent promising energy storage systems.

Polyviologen as a high energy density cathode in magnesium-ion batteries

2018 ◽  
Vol 283 ◽  
pp. 393-400 ◽  
Author(s):  
Amol Bhairuba Ikhe ◽  
Nirmalesh Naveen ◽  
Kee-Sun Sohn ◽  
Myoungho Pyo
Keyword(s):  
Energy Density ◽  
High Energy ◽  
High Energy Density ◽  
Magnesium Ion ◽  
Magnesium Ion Batteries

High-Energy-Density Aqueous Magnesium-Ion Battery Based on a Carbon-Coated FeVO4 Anode and a Mg-OMS-1 Cathode

2017 ◽  
Vol 23 (67) ◽  
pp. 17118-17126 ◽  
Author(s):  
Hongyu Zhang ◽  
Ke Ye ◽  
Kai Zhu ◽  
Ruibai Cang ◽  
Jun Yan ◽  
...  
Keyword(s):  
Energy Density ◽  
High Energy ◽  
High Energy Density ◽  
Magnesium Ion ◽  
Carbon Coated

Improved Li+ diffusion enabled by SEI film in a high-energy-density hybrid magnesium-ion battery

2019 ◽  
Vol 441 ◽  
pp. 227190 ◽  
Author(s):  
Xusheng Wang ◽  
Jingyi Ding ◽  
Jitao Chen ◽  
Mianqi Xue
Keyword(s):  
Energy Density ◽  
High Energy ◽  
High Energy Density ◽  
Magnesium Ion ◽  
Sei Film

A high-energy-density sodium-ion full battery based on tin anode

2019 ◽  
Vol 62 (5) ◽  
pp. 616-621 ◽  
Author(s):  
Mingming Song ◽  
Chenchen Wang ◽  
Dongfeng Du ◽  
Fujun Li ◽  
Jun Chen
Keyword(s):  
Energy Density ◽  
High Energy ◽  
Sodium Ion ◽  
High Energy Density ◽  
Tin Anode

A HIGH ENERGY DENSITY ZINC/OXYGEN BATTERY SYSTEM

1966 ◽  
Author(s):  
S. CHODOSH ◽  
E. KATSOULIS ◽  
M. ROSANSKY
Keyword(s):  
Energy Density ◽  
High Energy ◽  
High Energy Density ◽  
Battery System

Efficient Co-Harvesting of Solar Energy and Low-Grade Heat by Molecular Photoswitches for High Energy Density, Long-Term Stable Solar Thermal Battery

2019 ◽  
Author(s):  
Zhao-Yang Zhang ◽  
Tao LI
Keyword(s):  
Energy Density ◽  
Solar Energy ◽  
High Performance ◽  
High Energy ◽  
Solar Thermal ◽  
High Energy Density ◽  
Low Grade ◽  
Thermal Battery ◽  
Low Grade Heat

Solar energy and ambient heat are two inexhaustible energy sources for addressing the global challenge of energy and sustainability. Solar thermal battery based on molecular switches that can store solar energy and release it as heat has recently attracted great interest, but its development is severely limited by both low energy density and short storage stability. On the other hand, the efficient recovery and upgrading of low-grade heat, especially that of the ambient heat, has been a great challenge. Here we report that solar energy and ambient heat can be simultaneously harvested and stored, which is enabled by room-temperature photochemical crystal-to-liquid transitions of small-molecule photoswitches. The two forms of energy are released together to produce high-temperature heat during the reverse photochemical phase change. This strategy, combined with molecular design, provides high energy density of 320-370 J/g and long-term storage stability (half-life of about 3 months). On this basis, we fabricate high-performance, flexible film devices of solar thermal battery, which can be readily recharged at room temperature with good cycling ability, show fast rate of heat release, and produce high-temperature heat that is >20<sup> o</sup>C higher than the ambient temperature. Our work opens up a new avenue to harvest ambient heat, and demonstrate a feasible strategy to develop high-performance solar thermal battery.

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