Silicon as a potential anode material for Li-ion batteries: where size, geometry and structure matter M Ashuri, Q He, LL Shaw Nanoscale 8 (1), 74-103, 2016 | 748 | 2016 |
The dependency of microstructure and properties of nanostructured coatings on plasma spray conditions LL Shaw, D Goberman, R Ren, M Gell, S Jiang, Y Wang, TD Xiao, ... Surface and coatings technology 130 (1), 1-8, 2000 | 498 | 2000 |
Recent advances in lithium–sulfur batteries L Chen, LL Shaw Journal of Power Sources 267, 770-783, 2014 | 487 | 2014 |
Development and implementation of plasma sprayed nanostructured ceramic coatings M Gell, EH Jordan, YH Sohn, D Goberman, L Shaw, TD Xiao Surface and Coatings Technology 146, 48-54, 2001 | 434 | 2001 |
Advances and challenges of sodium ion batteries as post lithium ion batteries M Sawicki, LL Shaw RSC Advances 5 (65), 53129-53154, 2015 | 387 | 2015 |
Fabrication and evaluation of plasma sprayed nanostructured alumina–titania coatings with superior properties EH Jordan, M Gell, YH Sohn, D Goberman, L Shaw, S Jiang, M Wang, ... Materials Science and Engineering: A 301 (1), 80-89, 2001 | 358 | 2001 |
Microstructure development of Al2O3–13wt.% TiO2 plasma sprayed coatings derived from nanocrystalline powders D Goberman, YH Sohn, L Shaw, E Jordan, M Gell Acta Materialia 50 (5), 1141-1152, 2002 | 336 | 2002 |
Thermal and mechanical finite element modeling of laser forming from metal and ceramic powders K Dai, L Shaw Acta Materialia 52 (1), 69-80, 2004 | 304 | 2004 |
Distortion minimization of laser‐processed components through control of laser scanning patterns K Dai, L Shaw Rapid Prototyping Journal 8 (5), 270-276, 2002 | 232 | 2002 |
Nanocrystalline hydroxyapatite with simultaneous enhancements in hardness and toughness J Wang, LL Shaw Biomaterials 30 (34), 6565-6572, 2009 | 229 | 2009 |
Comparison between shot peening and surface nanocrystallization and hardening processes K Dai, L Shaw Materials Science and Engineering: A 463 (1-2), 46-53, 2007 | 191 | 2007 |
Indentation fracture behavior of plasma-sprayed nanostructured Al2O3–13wt.% TiO2 coatings H Luo, D Goberman, L Shaw, M Gell Materials Science and Engineering: A 346 (1-2), 237-245, 2003 | 191 | 2003 |
Thermal and stress modeling of multi-material laser processing K Dai, L Shaw Acta Materialia 49 (20), 4171-4181, 2001 | 189 | 2001 |
On the improved properties of injection-molded, carbon nanotube-filled PET/PVDF blends M Wu, LL Shaw Journal of power sources 136 (1), 37-44, 2004 | 187 | 2004 |
New insights into the solid-state hydrogen storage of nanostructured LiBH4-MgH2 system Z Ding, H Li, L Shaw Chemical Engineering Journal 385, 123856, 2020 | 184 | 2020 |
X-ray diffraction analysis of a severely plastically deformed aluminum alloy AL Ortiz, L Shaw Acta Materialia 52 (8), 2185-2197, 2004 | 182 | 2004 |
Polymorphic transformation and powder characteristics of TiO2 during high energy milling R Ren, Z Yang, LL Shaw Journal of materials science 35, 6015-6026, 2000 | 178 | 2000 |
Finite element analysis of the effect of volume shrinkage during laser densification K Dai, L Shaw Acta materialia 53 (18), 4743-4754, 2005 | 175 | 2005 |
Finite element modeling of the surface roughness of 5052 Al alloy subjected to a surface severe plastic deformation process K Dai, J Villegas, Z Stone, L Shaw Acta Materialia 52 (20), 5771-5782, 2004 | 172 | 2004 |
Thermal stability of nanostructured Al93Fe3Cr2Ti2 alloys prepared via mechanical alloying L Shaw, H Luo, J Villegas, D Miracle Acta Materialia 51 (9), 2647-2663, 2003 | 162 | 2003 |