Search Results - "Zhou, Haoshen"

High-Energy Cathode Materials (Li2MnO3–LiMO2) for Lithium-Ion Batteries by Yu, Haijun, Zhou, Haoshen

“…Lithium-rich layered oxide materials xLi2MnO3·(1–x)LiMO2 (M = Mn, Ni, Co, Fe, Cr, etc.) have attracted much attention for the use of cathode materials in…”
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Li–CO2 and Na–CO2 Batteries: Toward Greener and Sustainable Electrical Energy Storage by Mu, Xiaowei, Pan, Hui, He, Ping, Zhou, Haoshen

“…Metal–CO2 batteries, especially Li–CO2 and Na–CO2 batteries, offer a novel and attractive strategy for CO2 capture as well as energy conversion and storage…”
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A stable quasi-solid electrolyte improves the safe operation of highly efficient lithium-metal pouch cells in harsh environments by Chang, Zhi, Yang, Huijun, Zhu, Xingyu, He, Ping, Zhou, Haoshen

“…Nanoconfined/sub-nanoconfined solvent molecules tend to undergo dramatic changes in their properties and behaviours. In this work, we find that unlike typical…”
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Exploration of Advanced Electrode Materials for Rechargeable Sodium‐Ion Batteries by Sun, Yang, Guo, Shaohua, Zhou, Haoshen

“…As the rapid growth of the lithium‐ion battery (LIB) market raises concerns about limited lithium resources, rechargeable sodium‐ion batteries (SIBs) are…”
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Li−Air Rechargeable Battery Based on Metal-free Graphene Nanosheet Catalysts by Yoo, Eunjoo, Zhou, Haoshen

“…Metal-free graphene nanosheets (GNSs) were examined for use as air electrodes in a Li−air battery with a hybrid electrolyte. At 0.5 mA cm−1, the GNSs showed a…”
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Critical Challenges in Rechargeable Aprotic Li-O2 Batteries by Feng, Ningning, He, Ping, Zhou, Haoshen

“…Rechargeable aprotic Li–O2 batteries are one of the most promising next‐generation battery technologies that can deliver extremely high energy density. In the…”
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A high-energy-density and long-life initial-anode-free lithium battery enabled by a Li2O sacrificial agent by Qiao, Yu, Yang, Huijun, Chang, Zhi, Deng, Han, Li, Xiang, Zhou, Haoshen

“…Equipped with a fully lithiated cathode with a bare anode current collector, the anode-free lithium cell architecture presents remarkable advantages in terms…”
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A Review of Solid-State Lithium–Sulfur Battery: Ion Transport and Polysulfide Chemistry by Pan, Hui, Cheng, Zhu, He, Ping, Zhou, Haoshen

“…The lithium–sulfur (Li–S) battery has long been a research hotspot due to its high theoretical specific capacity, low cost, and nontoxicity. However, there are…”
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Materials for advanced Li-O2 batteries: Explorations, challenges and prospects by Wang, Di, Mu, Xiaowei, He, Ping, Zhou, Haoshen

“…In this review, notable progress of Li-O2 batteries during past two decades are discussed following up the whole development procedure, including the carbon…”
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Two-phase transition of Li-intercalation compounds in Li-ion batteries by Li, De, Zhou, Haoshen

“…Among all electrode materials, olivine LiFePO4 and spinel Li4Ti5O12 are well-known for their two-phase structure, characterized by a flat voltage plateau. The…”
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Environmentally stable interface of layered oxide cathodes for sodium-ion batteries by Guo, Shaohua, Li, Qi, Liu, Pan, Chen, Mingwei, Zhou, Haoshen

“…Sodium-ion batteries are strategically pivotal to achieving large-scale energy storage. Layered oxides, especially manganese-based oxides, are the most popular…”
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Constructing a Super‐Saturated Electrolyte Front Surface for Stable Rechargeable Aqueous Zinc Batteries by Yang, Huijun, Chang, Zhi, Qiao, Yu, Deng, Han, Mu, Xiaowei, He, Ping, Zhou, Haoshen

“…Rechargeable aqueous zinc batteries (RAZB) have been re‐evaluated because of the superiority in addressing safety and cost concerns. Nonetheless, the limited…”
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An improved 9 micron thick separator for a 350 Wh/kg lithium metal rechargeable pouch cell by Chang, Zhi, Yang, Huijun, Pan, Anqiang, He, Ping, Zhou, Haoshen

“…The use of separators that are thinner than conventional separators (> 20 µm) would improve the energy densities and specific energies of lithium batteries…”
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A Metal–Organic Framework as a Multifunctional Ionic Sieve Membrane for Long‐Life Aqueous Zinc–Iodide Batteries by Yang, Huijun, Qiao, Yu, Chang, Zhi, Deng, Han, He, Ping, Zhou, Haoshen

“…The introduction of the redox couple of triiodide/iodide (I3−/I−) into aqueous rechargeable zinc batteries is a promising energy‐storage resource owing to its…”
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Solid-State Electrolytes for Lithium-Ion Batteries: Fundamentals, Challenges and Perspectives by Zhao, Wenjia, Yi, Jin, He, Ping, Zhou, Haoshen

“…With the rapid popularization and development of lithium-ion batteries, associated safety issues caused by the use of flammable organic electrolytes have drawn…”
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A lithium-air battery with a potential to continuously reduce O2 from air for delivering energy by Wang, Yonggang, Zhou, Haoshen

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Reducing Water Activity by Zeolite Molecular Sieve Membrane for Long‐Life Rechargeable Zinc Battery by Yang, Huijun, Qiao, Yu, Chang, Zhi, Deng, Han, Zhu, Xingyu, Zhu, Ruijie, Xiong, Zetao, He, Ping, Zhou, Haoshen

“…Aqueous electrolytes offer major advantages in safe battery operation, green economy, and low production cost for advanced battery technology. However, strong…”
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Metal–organic framework-based separator for lithium–sulfur batteries by Bai, Songyan, Liu, Xizheng, Zhu, Kai, Wu, Shichao, Zhou, Haoshen

“…Lithium–sulfur batteries are a promising energy-storage technology due to their relatively low cost and high theoretical energy density. However, one of their…”
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Core-Shell-Structured CNT@RuO2 Composite as a High-Performance Cathode Catalyst for Rechargeable Li-O2 Batteries by Jian, Zelang, Liu, Pan, Li, Fujun, He, Ping, Guo, Xianwei, Chen, Mingwei, Zhou, Haoshen

“…A RuO2 shell was uniformly coated on the surface of core CNTs by a simple sol–gel method, and the resulting composite was used as a catalyst in a rechargeable…”
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A Layered P2- and O3-Type Composite as a High-Energy Cathode for Rechargeable Sodium-Ion Batteries by Guo, Shaohua, Liu, Pan, Yu, Haijun, Zhu, Yanbei, Chen, Mingwei, Ishida, Masayoshi, Zhou, Haoshen

“…A layered composite with P2 and O3 integration is proposed toward a sodium‐ion battery with high energy density and long cycle life. The integration of P2 and…”
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