Artículos con órdenes de acceso público - Hanchen HuangMás información
Disponibles en algún lugar: 20
Shape and surface chemistry effects on the cytotoxicity and cellular uptake of metallic nanorods and nanospheres
PM Favi, MM Valencia, PR Elliott, A Restrepo, M Gao, H Huang, JJ Pavon, ...
Journal of Biomedical Materials Research Part A 103 (12), 3940-3955, 2015
Órdenes: US Department of Energy
Wedding cake growth mechanism in one-dimensional and two-dimensional nanostructure evolution
X Yin, J Shi, X Niu, H Huang, X Wang
Nano letters 15 (11), 7766-7772, 2015
Órdenes: US Department of Energy
Micro-scale modeling of interface-dominated mechanical behavior
S Shao, A Misra, H Huang, J Wang
Journal of Materials Science 53 (8), 5546-5561, 2018
Órdenes: US National Science Foundation, US Department of Energy
Atomistic simulations of mechanics of nanostructures
H Huang, H Van Swygenhoven
MRS bulletin 34 (3), 160-166, 2009
Órdenes: Swiss National Science Foundation
Degradation Mechanism of Ag Nanorods for Surface Enhanced Raman Spectroscopy
H Huang, L Gasparov, L Bachenheimer, P Elliott, R Scherzer, S Stagon
Scientific Reports 7, 16282, 2017
Órdenes: US Department of Energy, US Department of Defense, US National Aeronautics …
Enhanced thermal stability of Ag nanorods through capping
L Bachenheimer, P Elliott, S Stagon, H Huang
Applied Physics Letters 105 (21), 213104, 2014
Órdenes: US Department of Energy
Combined hydrophobicity and mechanical durability through surface nanoengineering
PR Elliott, SP Stagon, H Huang, DU Furrer, SF Burlatsky, TP Filburn
Scientific Reports 5 (1), 9260, 2015
Órdenes: US Department of Energy
Design of Ag nanorods for sensitivity and thermal stability of surface-enhanced Raman scattering
L Ma, Z Zhang, H Huang
Nanotechnology 28 (40), 405602, 2017
Órdenes: US National Science Foundation, US Department of Energy
Controllable growth of aluminum nanorods using physical vapor deposition
SP Stagon, H Huang
Nanoscale research letters 9 (1), 400, 2014
Órdenes: US Department of Energy
Simultaneous Thermal Stability and Ultrahigh Sensitivity of Heterojunction SERS Substrates
L Ma, J Wang, H Huang, Z Zhang, X Li, Y Fan
Nanomaterials 9 (6), 830, 2019
Órdenes: US Department of Energy, National Natural Science Foundation of China
Clustering on Magnesium Surfaces–Formation and Diffusion Energies
H Chu, H Huang, J Wang
Scientific Reports 7 (1), 5167, 2017
Órdenes: US National Science Foundation, US Department of Energy
Control of separation and diameter of ag nanorods through self-organized seeds
PR Elliott, SP Stagon, H Huang
Scientific Reports 5 (1), 16826, 2015
Órdenes: US Department of Energy
A generalized theory of thin film growth
F Du, H Huang
Surface Science 669, 154-159, 2018
Órdenes: US Department of Energy
A theory of growing crystalline nanorods–Mode I
F Du, H Huang
Surface Science 674, 18-24, 2018
Órdenes: US Department of Energy
Generalized theory of smallest diameter of metallic nanorods
F Du, PR Elliott, H Huang
Physical Review Materials 1 (3), 033401, 2017
Órdenes: US Department of Energy
Closed-form theory of nuclei separation on highly anisotropic surfaces
F Du, H Huang
Applied Surface Science 390, 107-110, 2016
Órdenes: US Department of Energy
Synergy to discovery and innovation—Growth of nanorods
Z Li, H Huang
Theoretical and Applied Mechanics Letters 6 (6), 249-252, 2016
Órdenes: US National Science Foundation, US Department of Energy
A first-principles study of the avalanche pressure of alpha zirconium
Q Peng, W Ji, J Lian, F Gao, S Peng, H Huang, S De
RSC Advances 6 (76), 72551-72558, 2016
Órdenes: US Department of Energy
A Theory of Growing Crystalline Nanorods
H Huang
Northeastern Univ., Boston, MA (United States), 2019
Órdenes: US Department of Energy
When is Lonely Adatom Model valid?
F Du, H Huang
Surface Science 682, 60-63, 2019
Órdenes: US Department of Energy
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