- Self-assembly of functionally gradient nanoparticle structures Jonghyun Park and Wei Lua
- Effect of electric field on exfoliation of nanoplates Department of Mechanical Engineering, University of Michigan, Ann Arbor, Michigan 48109
- Dynamic in Situ Characterization of Organic Monolayer Formation via a Novel Substrate-Mediated Mechanism
- Symmetry breaking in self-assembled monolayers on solid surfaces. II. Anisotropic substrate elasticity
- Monolayer Pattern Evolution via Substrate Strain-Mediated Spinodal Decomposition Kevin S. Schneider,1
- Stability and shape evolution of voids and channels due to surface misfit
- Journal of the Mechanics and Physics of Solids 54 (2006) 25542568
- IEEE TRANSACTIONS ON SEMICONDUCTOR MANUFACTURING, VOL. 20, NO. 4, NOVEMBER 2007 421 Self-Assembly for Semiconductor Industry
- Three-dimensional model of electrostatically induced pattern formation in thin polymer films Dongchoul Kim and Wei Lu*
- J Sci Comput (2008) 35: 330349 DOI 10.1007/s10915-008-9188-6
- Symmetry breaking in self-assembled monolayers on solid surfaces: Anisotropic surface stress W. Lu* and Z. Suo
- Highly Ordered Ga Nanodroplets on a GaAs Surface Formed by a Focused Ion Beam Qiangmin Wei,1
- Orientation of core-shell nanoparticles in an electric field Jonghyun Park and Wei Lua
- Patterning Multilayers of Molecules via Self-Organization Wei Lu* and David Salac
- Dynamics of the self-assembly of nanovoids and nanobubbles Hui-Chia Yu, Wei Lu *
- Programmable nanoscale domain patterns in multilayers Wei Lu *, David Salac
- Patterning Nanoscale Structures by Surface Chemistry
- Pattern formation in a polymer thin film induced by an in-plane electric field
- Journal of the Mechanics and Physics of Solids 49 (2001) 19371950
- Composition modulation and nanophase separation in a binary epilayer
- Interactions of metallic quantum dots on a semiconductor substrate Wei Lu* and David Salac
- Effect of mechanical load on the shuttling operation of molecular muscles Seungjun Lee and Wei Lua
- Engineering nanophase self-assembly with elastic field Wei Lu *, Dongchoul Kim
