A controlled nucleation and growth of Si nanowires by using a TiN diffusion barrier layer for lithium-ion batteries
Dong-Hyeong Kim,Towfiq Ahmed,Kenneth Crossley,Jon K. Baldwin,Sun Hae Ra Shin,Yeon Hoo Kim,Chris J. Sheehan,Nan Li,Douglas V. Pete,Henry H. Han,Jinkyoung Yoo +10 more
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In this paper , a simple approach to control the nucleation of Si nanowires via interfacial energy tuning between metal catalysts and substrates by introducing a conductive diffusion barrier was developed.Abstract:
Uniform size of Si nanowires (NWs) is highly desirable to enhance the performance of Si NW-based lithium-ion batteries. To achieve a narrow size distribution of Si NWs, the formation of bulk-like Si structures such as islands and chunks needs to be inhibited during nucleation and growth of Si NWs. We developed a simple approach to control the nucleation of Si NWs via interfacial energy tuning between metal catalysts and substrates by introducing a conductive diffusion barrier. Owing to the high interfacial energy between Au and TiN, agglomeration of Au nanoparticle catalysts was restrained on a TiN layer which induced the formation of small Au nanoparticle catalysts on TiN-coated substrates. The resulting Au catalysts led to the nucleation and growth of Si NWs on the TiN layer with higher number density and direct integration of the Si NWs onto current collectors without the formation of bulk-like Si structures. The lithium-ion battery anodes based on Si NWs grown on TiN-coated current collectors showed improved specific gravimetric capacities (>30%) for various charging rates and enhanced capacity retention up to 500 cycles of charging–discharging.read more
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Embedding silicon in biomass-derived porous carbon framework as high-performance anode of lithium-ion batteries
TL;DR: In this article , a grape stem-derived porous carbon framework (PCF) with slender through-holes in the interior and a large number of micropores on the carbon walls was employed as the Si matrix.
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Ion-Conducting Cross-Linked Polyphosphazene Binders for High-Performance Silicon Anodes in Lithium-Ion Batteries
TL;DR: In this paper , a cross-linked polyphosphazene-based polymeric material was prepared using NH3-neutralized poly[bis(4-carboxyphenoxy)phosphasene] (PCPP-NH3) as the base polymer and poly(ethylene glycol)bisamine (PEG)-NH3 as a crosslinker for use as a silicon (Si) anode binder in lithium-ion batteries.
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Direct growth of crystalline SiGe nanowires on superconducting NbTiN thin films
TL;DR: In this article , high-crystalline SiGe nanowires on a NbTiN thin film were shown to exhibit Ohmic characteristics as well as a shift of the superconducting transition temperature.
References
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High-performance lithium battery anodes using silicon nanowires
Candace K. Chan,Hailin Peng,Gao Liu,Kevin McIlwrath,Xiao Feng Zhang,Robert A. Huggins,Yi Cui +6 more
TL;DR: The theoretical charge capacity for silicon nanowire battery electrodes is achieved and maintained a discharge capacity close to 75% of this maximum, with little fading during cycling.
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The surface energy of metals
TL;DR: In this article, a database of surface energies for low index surfaces of 60 metals in the periodic table was used to establish a consistent starting point for models of surface science phenomena, and the accuracy of the database was established in a comparison with other density functional theory results and the calculated surface energy anisotropies were applied in a determination of the equilibrium shape of nano-crystals of Fe, Cu, Mo, Ta, Pt and Pb.
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Designing nanostructured Si anodes for high energy lithium ion batteries
TL;DR: In this article, the authors outline three fundamental materials challenges associated with large volume change, and then show how nanostructured materials design can successfully address these challenges, which can also be extended to other battery materials that undergo large volume changes.
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The Development and Future of Lithium Ion Batteries
TL;DR: This year, the battery industry celebrated the 25th anniversary of the introduction of the lithium ion rechargeable battery by Sony as discussed by the authors, which used a combination of lower temperature carbons for the negative electrode to prevent solvent degradation and lithium cobalt dioxide modified somewhat from Goodenough's earlier work.
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Direct Measurements of the Surface Energies of Crystals
TL;DR: In this paper, the surface energies of several simple crystals have been measured at −196°C by means of quantitative cleavage experiments and the measured values of their respective surface energies (ergs/cm2) are: 340, 1200, 450, 280, 230, 1240, and 105.