Index of Keywords


Enhanced Mass Sensing for Nanomechanical Resonators


MEMS/NEMS Dynamics Measurement Tool Using The Stroboscopic Principle

A Coarse-Grained Tight Binding Method for Electrostatic Analysis of Nanoelectromechanical Systems (NEMS)

Self-Welded Metal-Catalyzed Carbon Nanotube Piezoresistors with Very Large Longitudinal Piezoresistivity of ~ 4x10-8 Pa-1

Silicon Carbide Micro/Nano Systems for Harsh Environment and Demanding Applications

Stability of micro and nano devices actuated by Casimir forces

Thickness-controlled Metal Nanoscale Etch for Proposed Metal Nanowires Fabrication

MEMS Reliability Assessment Program – Progress to Date

MEMS and NEMS research for education

From MEMS to NEMS: Modelling and characterization of the non linear dynamics of resonators, a way to enhance the dynamic range

Control of NEMS Based on Carbon Nanotube

The Study of Mechanical Stress in NEMS Heterostructures

Design and Fabrication of Electromechanical Tweezers based on CNT Ropes


Carbon-based Nanoelectronic Devices for Space Applicatoins


SiCN nanomechanical resonators for array-based biosensor applications

AC and DC Applications of Three-Dimensional Nano-electro-mechanical-systems

Lumped Modeling of Carbon Nanotubes for M/NEMS Simulation

Sensitive detection of nonlinear nanomechanical motion using capacitive signal down-mixing for resonant NEMS-based sensors

Design of a nano-mechanical beam based memory element

Electromechanical response of high frequency silicon nanowire resonators:simulation and measurements