nanowire
Nanomechanical Resonators and Their Applications in Biological/Chemical Detection: Nanomechanics Principles
Nanomechanical Resonators and Their Applications in Biological/Chemical Detection: Nanomechanics Principles
Kilho Eom, Harold S. Park, Dae Sung Yoon, Taeyun Kwon
Abstract
In-surface Buckling of Silicon Nanowires on Elastomeric Substrates
Buckling of thin layers or aligned arrays of stiff materials on elastomeric substrates has many important applications, such as stretchable electronics, precision metrology and flexible optoelectronics. These systems show one common phenomenon, the stiff thin layers buckle normal to the substrate surface (out-of-surface buckling). By contrast, we recently reported for the first time that silicon nanowires (SiNWs) on elastomeric substrates buckle only within the substrate surface, i.e. in-surface buckling. Experimental process to obtain buckled SiNWs is described.
Stress-induced phase transformation and pseudo-elastic/pseudo-plastic recovery in intermetallic Ni–Al nanowires
Dear friends,
I want to share our recent research work on NiAl nanowire, which is published in Nanotechnology, IOP publishing. The abstract of the paper is given below. Further details can be found at "Vijay Kumar Sutrakar et al 2009 Nanotechnology 20 295705 (9pp) doi: 10.1088/0957-4484/20/29/295705"
Stress-induced martenstic phase transformation in Cu-Zr nanowires
Hi Friends
I want to share some of our recent research work on the stress induced phase transformation of CuZr nanowire which is published in Materials Letters.
Surface Stress Effects on the Resonant Properties of Silicon Nanowires
Abstract of paper recently accepted for publication in Journal of Applied Physics:
Surface dislocation nucleation
Ting Zhu, Ju Li, Amit Samanta, Austin Leach and Ken Gall, “Temperature and strain-rate dependence of surface dislocation nucleation”, Physical Review Letters, 100, 025502 (2008).