Zeya Huang scite author profile

Sun, wind and tides have huge potential in providing us electricity in an environmental-friendly way. However, its intermittency and non-dispatchability are major reasons preventing full-scale adoption of renewable energy generation. Energy storage will enable this adoption by enabling a constant and high-quality electricity supply from these systems. But which storage technology should be considered is one of important issues. Nowadays, great effort has been focused on various kinds of batteries to store energy, lithium-related batteries, sodium-related batteries, zinc-related batteries, aluminum-related batteries and so on. Some cathodes can be used for these batteries, such as sulfur, oxygen, layered compounds. In addition, the construction of these batteries can be changed into flexible, flow or solid-state types. There are many challenges in electrode materials, electrolytes and construction of these batteries and research related to the battery systems for energy storage is extremely active. With the myriad of technologies and their associated technological challenges, we were motivated to assemble this 2020 battery technology roadmap.

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High-Energy-Density Solid-Electrolyte-Based Liquid Li-S and Li-Se Batteries

Jin

Lang

et al. 2020

Joule

129

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High-energy-density battery systems have been critical to applications in consumer electronics, aviation, electric vehicles, and emerging large-scale stationary storage. Here, we report a solid-electrolyte-based liquid Li-S and Li-Se (SELL-S and SELL-Se in short) battery system with the potential to deliver energy density exceeding 500 Wh kg À1 and 1,000 Wh L À1 , together with the ability of low cost and stable electrochemical performance for future concentrated and largescale storage applications.

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Construction of 3D MXene/Silver nanowires aerogels reinforced polymer composites for extraordinary electromagnetic interference shielding and thermal conductivity

Liu

Huang

Tian

et al. 2022

Chemical Engineering Journal

131

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Zeya Huang

A dopamine modified Li_6.4La₃Zr_1.4Ta_0.6O₁₂/PEO solid-state electrolyte: enhanced thermal and electrochemical properties

An intermediate temperature garnet-type solid electrolyte-based molten lithium battery for grid energy storage

The 2021 battery technology roadmap

High-Energy-Density Solid-Electrolyte-Based Liquid Li-S and Li-Se Batteries

Construction of 3D MXene/Silver nanowires aerogels reinforced polymer composites for extraordinary electromagnetic interference shielding and thermal conductivity

Contact Info

Product

Resources

About

Zeya Huang

A dopamine modified Li6.4La3Zr1.4Ta0.6O12/PEO solid-state electrolyte: enhanced thermal and electrochemical properties

An intermediate temperature garnet-type solid electrolyte-based molten lithium battery for grid energy storage

The 2021 battery technology roadmap

High-Energy-Density Solid-Electrolyte-Based Liquid Li-S and Li-Se Batteries

Construction of 3D MXene/Silver nanowires aerogels reinforced polymer composites for extraordinary electromagnetic interference shielding and thermal conductivity

Contact Info

Product

Resources

About

A dopamine modified Li_6.4La₃Zr_1.4Ta_0.6O₁₂/PEO solid-state electrolyte: enhanced thermal and electrochemical properties