The electrochemical performance of the silicon-carbon electrodes at 100 cycles is shown in Fig. 4 (a). The test results that the amorphous carbon-coated silicon anode material
AI Customer ServiceSilicon/carbon anodes have been widely considered and studied, owing to their various advantages. This review highlights the major research progresses and achievements
AI Customer ServiceIn this progress report, the focus is on the challenges and recent progress in the development of Si anodes for lithium-ion battery, including initial Coulombic efficiency, areal
AI Customer ServiceA new method of fabricating silicon micro/nano rod arrays with controllable diameters in the range of 300 nm-8 μm is proposed. 2 μm silicon rods as anodes were
AI Customer ServiceThe electrochemical performance of the silicon-carbon electrodes at 100
AI Customer ServiceHere the researchers attributed the outstanding electrochemical
AI Customer ServiceA honeycomb-cobweb inspired hierarchical coreeshell structure design for electrospun silicon/carbon fibers as lithium-ion battery anodes
AI Customer ServiceCoupling of Si with carbon (C) realizes a favorable combination of the two materials properties, such as high lithiation capacity of Si and excellent mechanical and
AI Customer ServiceSilicon/carbon anodes have been widely considered and studied, owing to their various advantages. This review highlights the major
AI Customer ServiceIn this work, we aim to use industrial scale silicon from Elkem in a
AI Customer ServiceFoundation structure: Lithium ion batteries (LIBs) are considered to be the most competitive recyclable energy storage devices at present and in the future.Silicon/carbon
AI Customer ServiceHere the researchers attributed the outstanding electrochemical performances to the unique material structure in which the carbon shell can effectively relieve the cracking
AI Customer ServiceAs a consequence, the first reversible capacity and initial coulombic efficiency of the silicon/carbon composite are 936.4 mAh g −1 and 88.6% in half-cell and the full-cell 18650
AI Customer ServiceSilicon-based anodes for lithium-ion batteries have been the subject of extensive research efforts due to the fact that their theoretical gravimetric capacity surpasses that of
AI Customer ServiceSilicon-carbon composites, usually in the form of core–shell silicon-carbon
AI Customer ServiceThe proof-of-concept of two-dimensional, covalently bound silicon-carbon
AI Customer ServiceOptimising the geospatial configuration of a future lithium-ion battery recycling industry in the transition to electric vehicles and a circular economy. Sticky" carbon coating
AI Customer ServiceSilicon-carbon composites, usually in the form of core–shell silicon-carbon
AI Customer ServiceThe Government of the Autonomous Republic of Abkhazia [a] is an administration established in exile by Georgia as the de jure government of its separatist region of Abkhazia.Abkhazia has
AI Customer ServiceA honeycomb-cobweb inspired hierarchical coreeshell structure design for
AI Customer ServiceSilicon-carbon composites, usually in the form of core–shell silicon-carbon nanostructures, have been widely investigated as potential candidates for the replacement of
AI Customer ServiceCoupling of Si with carbon (C) realizes a favorable combination of the two
AI Customer ServiceSilicon-carbon composites, usually in the form of core–shell silicon-carbon nanostructures, have been widely investigated as potential candidates for the replacement of
AI Customer ServiceLithium cobalt oxide (LiCoO 2 or LCO), manganese oxide (LiMn 2 O 4 or LMO), lithium cobalt manganese cobalt oxide (LiNiMnCoO 2 or NMC), lithium iron phosphate
AI Customer ServiceIn this work, we aim to use industrial scale silicon from Elkem in a composite material as a negative anode for the lithium-ion battery and achieve a considerable
AI Customer ServiceThis could be attributed to the following two factors: 1) Si@C possesses a higher amorphous carbon content than Si@G@C, which enhances the buffering effect of silicon
AI Customer ServiceThe proof-of-concept of two-dimensional, covalently bound silicon-carbon hybrids exhibits stable high-capacity and high-rate lithium storage performances when referred
AI Customer ServiceLithium–silicon batteries are lithium-ion batteries that employ a silicon-based anode, and lithium ions as the charge carriers. [1] Silicon based materials, generally, have a much larger specific
AI Customer ServiceSohn, H., Kim, D.H., Yi, R., et al.: Semimicro-size agglomerate structured silicon-carbon composite as an anode material for high performance lithium-ion batteries. J. Power Sources 334, 128–136 (2016)
Silicon/carbon anodes have been widely considered and studied, owing to their various advantages. This review highlights the major research progresses and achievements of silicon/carbon anode materials for LIBs. Structure design, synthesis methods as well as issues and challenges are discussed.
Silicon-carbon composites, usually in the form of core–shell silicon-carbon nanostructures, have been widely investigated as potential candidates for the replacement of graphite in anodes for lithium ion batteries.
A well-defined silicon nanocone–carbon structure for demonstrating exclusive influences of carbon coating on silicon anode of lithium-ion batteries. ACS Appl. Mater. Interfaces 9, 2806–2814 (2017) Wang, B., Qiu, T., Li, X., et al.: Synergistically engineered self-standing silicon/carbon composite arrays as high performance lithium battery anodes.
Carbon materials can effectively enhance the electrochemical performance of silicon electrodes and mitigate the volume changes of silicon anodes during charging and discharging. In this work, we prepared silicon-carbon composites using phenolic resin as the precursor for carbon.
Silicon, because of its high specific capacity, is intensively pursued as one of the most promising anode material for next-generation lithium-ion batteries. In the past decade, various nanostructures are successfully demonstrated to address major challenges for reversible Si anodes related to pulverization and solid-electrolyte interphase.
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