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energy storage materials 130
Energy Storage Materials
Growing energy needs and depletion of fossil-fuel resources demand the pursuit of sustainable energy alternatives, including both renewable energy sources and
Energy Storage Materials | Vol 30, Pages 1-432 (September 2020
Energy Storage Materials. 33.0 CiteScore. 18.9 Impact Factor. Articles & Issues. About. Publish. Menu. Articles & Issues. Latest issue; Pages 130-137 View PDF. select article Significantly enhanced energy storage density and efficiency of BNT-based perovskite ceramics via A-site defect engineering.
Energy Storage Materials | Vol 19, Pages 1-464 (May 2019
Energy Storage Materials. 33.0 CiteScore. 20.4 Impact Factor. Articles & Issues. About. Publish. Menu. Articles & Issues. Latest issue; on two-dimensional unilamellar metal oxide nanosheets and tailored nanostructures from them for electrochemical energy storage. Pages 130-136 View PDF. Article preview.
Energy Storage Materials | Vol 66, 25 February 2024
Fire-safe polymer electrolyte strategies for lithium batteries. Minghong Wu, Shiheng Han, Shumei Liu, Jianqing Zhao, Weiqi Xie. Article 103174. View PDF. Article preview. select article Recent advances on charge storage mechanisms and optimization strategies of Mn-based cathode in zinc–manganese oxides batteries.
Nanocarbon Materials for Ultra-High Performance Energy Storage
The ever-increasing demands for higher energy/power densities of these electrochemical storage devices have led to the search for novel electrode materials. Different nanocarbon materials, in particular, carbon nanotubes, graphene nanosheets, graphene foams and electrospun carbon nanofibers, along with metal oxides have been extensively studied.
Energy Storage Materials | Vol 63, November 2023
Molecular cleavage strategy enabling optimized local electron structure of Co-based metal-organic framework to accelerate the kinetics of oxygen electrode reactions in lithium-oxygen battery. Xinxiang Wang, Dayue Du, Yu Yan, Longfei Ren, Chaozhu Shu. Article 103033.
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Energy Storage Materials | Vol 65, February 2024
Synergistic combination of ether-linkage and polymer-in-salt for electrolytes with facile Li+ conducting and high stability in solid-state lithium batteries. Minh Le Nguyen, Van-Can Nguyen, Yuh-Lang Lee, Jeng-Shiung Jan, Hsisheng Teng. Article 103178. View PDF.
Energy Storage Materials | Vol 9, Pages A1-A4, 1-234 (October
Lei Qin, Dengyun Zhai, Wei Lv, Wei Wei, Quan-Hong Yang. Pages 134-139. View PDF. Article preview. Previous vol/issue. Read the latest articles of Energy Storage Materials at ScienceDirect , Elsevier''s leading platform of peer-reviewed scholarly literature.
Recent advances of electrode materials for low-cost sodium-ion
Energy storage plays an important role in the development of portable electronic devices, electric vehicles and large-scale electrical energy storage applications
Energy Storage Materials | Vol 39, Pages 1-420 (August 2021)
Read the latest articles of Energy Storage Materials at ScienceDirect , Elsevier''s leading platform of peer-reviewed scholarly literature
Advanced sodium-ion batteries using superior low cost pyrolyzed
Here we report a pyrolyzed anthracite (PA) anode material with superior low cost and high safety through one simple carbonization process. The PA anode material shows promising sodium storage performance demonstrated by prototype pouch cells with a practical energy density of 100 Wh kg −1, good rate and cycling performance.
Graphene wrapped silicon suboxides anodes with
Introduction. Lithium ion batteries (LIBs) have been successfully used in electrified products during the last decades. As the ever-increasing demand for energy density (nowadays <300 Wh kg −1 for commercial graphite-lithium metal oxides system), innovative electrode materials are urgent needed to break the theoretical limit of
Energy Storage Materials | Vol 53, Pages 1-968 (December 2022
Multi-functional yolk-shell structured materials and their applications for high-performance lithium ion battery and lithium sulfur battery. Nanping Deng, Yanan Li, Quanxiang Li, Qiang Zeng, Bowen Cheng. Pages 684-743. View PDF.
Energy Storage Materials
Carbon is one of the most popularly used electrode materials (as an active material or current collector) of the rechargeable batteries for its high capacity, low storage potential, low cost and easy fabrication [1-3]. Due to the structural diversity of the carbon, the.
Energy Storage Materials | Vol 5, Pages A1-A4, 1-230 (October
Electrospun carbon-based nanostructured electrodes for advanced energy storage – A review. Xiaoyan Li, Yuming Chen, Haitao Huang, Yiu-Wing Mai, Limin Zhou. Pages 58-92. View PDF.
Advanced sodium-ion batteries using superior low cost pyrolyzed
Energy storage technologies are the core technology for smooth integration of renewable energy into the grid. Among which sodium-ion batteries show great promise due to the potential low cost originated from the abundant resources and wide distribution of sodium.However, the anode still remains great challenge for the
Energy Storage Materials | Vol 51, Pages 1-900 (October 2022
Single-crystalline particle Ni-based cathode materials for lithium-ion batteries: Strategies, status, and challenges to improve energy density and cyclability. Chang-Heum Jo, Natalia Voronina, Seung-Taek Myung. Pages 568-587. View PDF.
Energy Storage Materials | Vol 54, Pages 1-894 (January 2023)
Recent progress of aqueous and organic/aqueous hybrid electrolytes for low-temperature rechargeable metal-ion batteries and supercapacitors. Xiaoyu Gao, Jun Yang, Zhixin Xu, Yanna Nuli, Jiulin Wang. Pages 382-402.
Deciphering the paradox between the Co-intercalation of sodium-solvent into graphite and its irreversible capacity
Recent advances of electrode materials for low-cost sodium-ion batteries towards practical application for grid energy storage Energy Storage Mater., 7 ( 2017 ), pp. 130 - 151 View PDF View article View in Scopus Google Scholar
Ultrahigh energy storage capacities in high-entropy relaxor
3 · Realizing ultrahigh recoverable energy-storage density (Wrec) alongside giant efficiency (η) remains a significant challenge for the advancement of dielectrics in next
Energy Storage: Fundamentals, Materials and Applications
Explains the fundamentals of all major energy storage methods, from thermal and mechanical to electrochemical and magnetic. Clarifies which methods are optimal for
Materials and technologies for energy storage: Status, challenges,
As specific requirements for energy storage vary widely across many grid and non-grid applications, research and development efforts must enable diverse range
Advances in Energy Storage Materials: Asia
Energy Storage Materials 30.4 CiteScore 20.4 Impact Factor Articles & Issues About Publish Menu Articles & Issues Latest issue Pages 130-136 View PDF Article preview select article Electrode thickness
Energy Storage Materials | Vol 30, Pages 1-432 (September
In-situ fabrication of carbon-metal fabrics as freestanding electrodes for high-performance flexible energy storage devices. Xinhua Liu, Mengzheng Ouyang, Marcin W. Orzech, Yubiao Niu, Billy Wu. Pages 329-336.
Deciphering the paradox between the Co-intercalation of
Energy Storage Materials. Volume 26, April 2020, Recent advances of electrode materials for low-cost sodium-ion batteries towards practical application for grid energy storage. Energy Storage Mater., 7 (2017), pp. 130-151. View PDF View article View in Scopus Google Scholar [2] H. Pan, Y.S. Hu, L. Chen.
Energy Storage Materials
Carbon is one of the most popularly used electrode materials (as an active material or current collector) of the rechargeable batteries for its high capacity, low storage
Energy Storage Materials | Vol 67, March 2024
structures for polysulfide conversion and dendrite-free lithium toward high-performance Li-S full cell" [Energy Storage Materials Volume 62 (2023) 102925] Yonghui Xie, Wenrui Zheng, Juan Ao, Yeqing Shao, Xinghui Wang Article 103233 View PDF
Energy Storage Materials | Vol 42, Pages 1-870 (November 2021
A novel phosphonium ionic liquid electrolyte enabling high-voltage and high-energy positive electrode materials in lithium-metal batteries. Fanglin Wu, Annika Regitta Schür, Guk-Tae Kim, Xu Dong, Stefano Passerini. Pages 826-835.
Energy Storage Materials | Vol 55, Pages 1-866 (January 2023)
Comparison of key performance indicators of sorbent materials for thermal energy storage with an economic focus. Letizia Aghemo, Luca Lavagna, Eliodoro Chiavazzo, Matteo Pavese. Pages 130-153. View PDF. Article preview. Review articleFull text access.
Energy Storage Materials | Vol 40, Pages 1-500 (September 2021
Corrigendum to ''Consecutive chemical bonds reconstructing surface structure of silicon anode for high-performance lithium-ion battery'' [Energy Storage Materials, 39, (2021), 354--364] Qiushi Wang, Tao Meng, Yuhang Li, Jindong Yang, Yexiang Tong. Page 499.
Copper
3 · Solid–solid phase change materials (ss-PCM) have emerged as a promising alternative to traditional methods of thermal regulation, such as solid–liquid
Energy Storage Materials | Vol 46, Pages 1-612 (April 2022
Mineral-based form-stable phase change materials for thermal energy storage: A state-of-the art review. Dian-ce Gao, Yongjun Sun, Alan ML Fong, Xiaobin Gu. Pages 100-128 View PDF. Article preview. select article Energy storage on demand: Thermal energy storage development, materials, design, and integration challenges.
