The structural features and synthetic strategies of bismuth-based anodes in
AI Customer ServiceBismuth oxide may be a promising battery material due to the high
AI Customer ServiceThe exploration of high performance and low cost electrode materials is
AI Customer ServiceThis study investigates the potential of micron-sized Bi as an alloy-type anode material for lithium-ion batteries (LIBs). Compared to the limited capacity of conventional anode materials, Bi offers a high theoretical
AI Customer ServiceLithium-antimony-lead liquid metal battery for grid-level energy storage. Nature, 514 (2014), pp. 348-350, 10.1038/nature13700. View in Scopus Google Scholar
AI Customer ServiceIn this work, we report bismuth ion battery (BIB) as a promising trivalent metal ion battery, next to the only known aluminum ion battery. Our BIB successfully demonstrates
AI Customer ServiceBismuth oxide directly grown on nickel foam (p-Bi 2 O 3 /Ni) was prepared by a facile polymer
AI Customer ServiceBismuth is a lithium-ion battery anode material that can operate at an equilibrium potential higher than graphite and provide a capacity twice as high as that of Li 4 Ti 5 O 12, making it
AI Customer ServiceBismuth oxide: a new lithium-ion battery anode. J Mater Chem A Mater., 1 (2013), pp. 12123-12127, 10.1039/C3TA12655B. View in Scopus Google Scholar [30] H. Wang, H.
AI Customer ServiceBismuth oxide directly grown on nickel foam (p-Bi2O3/Ni) was prepared by a facile polymer-assisted solution approach and was used directly as a lithium-ion battery anode
AI Customer ServiceBismuth oxide directly grown on nickel foam (p-Bi 2 O 3 /Ni) was prepared by a facile polymer-assisted solution approach and was used directly as a lithium-ion battery anode for the first
AI Customer ServiceThis study investigates the potential of micron-sized Bi as an alloy-type anode material for lithium-ion batteries (LIBs). Compared to the limited capacity of conventional
AI Customer ServiceBismuth fluoride is a promising cathode material for lithium ion batteries due to its high theoretical capacity and cycling stability, but low-cost production methods are needed
AI Customer ServiceConcentrated ternary ether electrolyte allows for stable cycling of a lithium metal battery with commercial mass loading high-nickel NMC and thin anodes
AI Customer ServiceBismuth oxide directly grown on nickel foam (p-Bi 2 O 3 /Ni) was prepared by a facile polymer-assisted solution approach and was used directly as a lithium-ion battery anode for the first
AI Customer ServiceBismuth germanate (Bi 4 Ge 3 O 12), a promising high-capacity lithium-ion battery anode J. R. Rodriguez, C. Belman-Rodriguez, S. A. Aguila, Y. Zhang, H. Liu and V. G.
AI Customer ServiceConcentrated ternary ether electrolyte allows for stable cycling of a lithium
AI Customer Servicebismuth-based ternary mixed-anion compounds as high capacity anode materials in rechargeable batteries. Cells utilising Bi 13S 18I 2 achieved an initial capacity value of 807 mA h g 1, while
AI Customer ServiceThe exploration of high performance and low cost electrode materials is crucial for their potential applications. Bismuth (Bi), with high energy density and low redox potential, shows
AI Customer ServiceThe structural features and synthetic strategies of bismuth-based anodes in the field of rechargeable K/Na ion batteries are summarized, and their existing challenges for
AI Customer ServiceIn this work, we report bismuth ion battery (BIB) as a promising trivalent metal
AI Customer ServiceBismuth oxide directly grown on nickel foam (p-Bi 2 O 3 /Ni) was prepared by a facile polymer-assisted solution approach and was used directly as a lithium
AI Customer ServiceLithium-bismuth liquid metal batteries have much potential for stationary energy storage applications, with characteristics such as a large capacity, high energy density, low
AI Customer ServiceBy pairing with a Li + intercalation electrode, an aqueous LiMn 2 O 4 //Bi 2 O 3 full cell is fabricated, which exhibits stable cycling with a low self-discharge rate and delivers a high
AI Customer ServiceFig. 1 Schematic representation of a lithium based liquid metal battery. The model focuses on transport in the positive (bismuth) electrode Convection-Diffusion Model of Lithium-Bismuth
AI Customer ServiceThis study investigates the potential of micron-sized Bi as an alloy-type anode material for lithium-ion batteries (LIBs). Compared to the limited capacity of conventional anode materials, Bi offers a high theoretical
AI Customer ServiceBismuth oxide may be a promising battery material due to the high gravimetric (690 mAh g−1) and volumetric capacities (6280 mAh cm−3).
AI Customer ServiceThe coating material includes antimony, bismuth, antimony-bismuth alloy, antimony-lithium alloy, bismuth-lithium alloy, or antimony-bismuth-lithium alloy. All-solid
AI Customer ServiceOur device, bismuth ion battery (BIB) comprised of bismuth pellet as anode, V 2 O 5 as cathode, and 1 M Bi (NO 3) 3 •5H 2O in Dimethyl sulfoxide (DMSO) as electrolyte.
Li, Y. et al. Bismuth oxide: a new lithium-ion battery anode. J. Mater. Chem. A 1, 12123–12127 (2013). Drache, M., Roussel, P. & Wignacourt, J. P. Structures and oxide mobility in Bi-Ln-O materials: heritage of Bi2O3 .
Scientific Reports 5, Article number: 9307 (2015) Cite this article Bismuth oxide may be a promising battery material due to the high gravimetric (690 mAh g −1) and volumetric capacities (6280 mAh cm −3). However, this intrinsic merit has been compromised by insufficient Li-storage performance due to poor conductivity and structural integrity.
Bismuth oxide directly grown on nickel foam (p-Bi 2 O 3 /Ni) was prepared by a facile polymer -assisted solution approach and was used directly as a lithium-ion battery anode for the first time. The Bi 2 O 3 particles were covered with thin carbon layers, forming network-like sheets on the surface of the Ni foam.
Herein, we review the recent progress on the bismuth-based anode materials because they demonstrate a comparable higher theoretical specific capacity and emerge as promising electrode materials for sodium and potassium ion batteries.
Bismuth sulfide (Bi 2 S 3) have been reported as a potential electrode material for LIBs because of its intriguing reaction mechanism and high theoretical capacity. Bismuth sulfide (Bi 2 S 3) as a semiconductor material demonstrates superior performance due to a direct band gap of 1.3 eV.
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