Insights into carbon nanotube and graphene formation mechanisms from molecular simulations: a review.
about
Can We Optimize Arc Discharge and Laser Ablation for Well-Controlled Carbon Nanotube Synthesis?State-space reduction and equivalence class sampling for a molecular self-assembly modelSelf-assembly of endohedral metallofullerenes: a decisive role of cooling gas and metal-carbon bondingAn Open-Cage Fullerene That Mimics the C60 H10 (5,5)-Carbon Nanotube Endcap to Host Acetylene and Hydrogen Cyanide Molecules.Modeling the Growth of Single-Wall Carbon Nanotubes.In situ Characterization of Nanoparticles Using Rayleigh Scattering.Catalytic CVD synthesis of boron nitride and carbon nanomaterials - synergies between experiment and theory.A free energy study of carbon clusters on Ir(111): Precursors to graphene growth.Atomic scale simulation of carbon nanotube nucleation from hydrocarbon precursors.Hydrocarbon decomposition kinetics on the Ir(111) surface.Three pillars for achieving quantum mechanical molecular dynamics simulations of huge systems: Divide-and-conquer, density-functional tight-binding, and massively parallel computation.Effect of ammonia on chemical vapour deposition and carbon nanotube nucleation mechanisms.The near-infrared spectrum of ethynyl radical.Artificial Force Induced Reaction (AFIR) Method for Exploring Quantum Chemical Potential Energy Surfaces.QM/MD studies on graphene growth from small islands on the Ni(111) surface.In silico carbon molecular beam epitaxial growth of graphene on the h-BN substrate: carbon source effect on van der Waals epitaxy.Supracolloidal fullerene-like cages: design principles and formation mechanisms.Simulations of the synthesis of boron-nitride nanostructures in a hot, high pressure gas volume.Inward growth by nucleation: Multiscale self-assembly of ordered membranes.
P2860
Q28077198-21824715-5968-4502-9B47-560C8405A496Q28595609-5D4F2465-7A02-4D04-A611-D9F6BE41FC13Q28834082-E9554E37-FC95-468B-B24C-C40111BB9A9EQ31129441-D1C5A413-199F-433D-89A1-861353C463AAQ33365381-41FC5232-7C9F-402C-888A-8D59695B8D78Q36245288-59271199-6FCA-4C8E-B3D3-16597BEED7A3Q38636281-4D8FC95A-56E2-4BE3-9712-CF3995A0A5A6Q38986178-21735835-7D26-4B98-86EB-8F2D308280F0Q41829491-90EFDAD5-1058-4AA1-947E-244C7004E414Q47206664-5639CCE3-5A51-4F8E-8553-CED88A310C82Q48042012-00C0AAC5-795E-47AA-B7A4-7877F990DD71Q48049743-87B85CA5-241D-46F1-9014-5EAFFF072C73Q50593781-AA95A074-25EF-4864-814F-4A38C4A8EC70Q51136171-F8A62AAF-AE42-4FC7-8F52-FF47E29A171FQ51554855-35BACFEE-4278-43CD-BAA5-D956C166B8C0Q53161617-82A69B54-A371-42F4-AD47-E47628626FE3Q53668195-ADDA8020-C388-4B11-B85A-A7188187FF7EQ55008339-619BAE8C-C387-4653-970D-39358C00DBF5Q55352006-8A5E1924-533B-44F6-9CA9-5525529EB3D5
P2860
Insights into carbon nanotube and graphene formation mechanisms from molecular simulations: a review.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh
2015年學術文章
@zh-hant
name
Insights into carbon nanotube ...... lecular simulations: a review.
@en
type
label
Insights into carbon nanotube ...... lecular simulations: a review.
@en
prefLabel
Insights into carbon nanotube ...... lecular simulations: a review.
@en
P356
P1476
Insights into carbon nanotube ...... lecular simulations: a review.
@en
P2093
P304
P356
10.1088/0034-4885/78/3/036501
P407
P577
2015-02-01T00:00:00Z