Ultrafast single-shot diffraction imaging of nanoscale dynamics by Barty, A, Boutet, S, Bogan, M, Hau-Riege, S, Marchesini, S, Sokolowski-Tinten, K, Stojanovic, N, Tobey, R, Ehrke, H, Cavalleri, A, Duesterer, S, Frank, M, Bajt, S, Woods, B, Seibert, M, Hajdu, J, Treusch, R, Chapman, H

“…The transient nanoscale dynamics of materials on femtosecond to picosecond timescales is of great interest in the study of condensed phase dynamics such as crack formation, phase separation and nucleation, and rapid fluctuations in the liquid state or in biologically relevant environments. …”

Nanoscale optoelectronic memory with nonvolatile phase-change photonics by Youngblood, N, Farmakidis, N, Li, X, Bhaskaran, H

Tools for understanding nanoscale lipid regulation of ion channels by Robinson, C, Rohacs, T, Hansen, S

“…However, recent technologies have established an emerging system of nanoscale signaling to ion channels based on lipid compartmentalization (clustering), direct lipid binding, and local lipid dynamics that allow cells to harness lipid heterogeneity to gate ion channels. …”

EBSD-coupled indentation: nanoscale mechanics of lithium metal by Aspinall, J, Armstrong, DEJ, Pasta, M

“…Understanding the mechanics of lithium at the nanoscale is therefore essential. In this work, the elastic and plastic properties of lithium are measured by nanoindentation within an electron microscope. …”

Novel Scanning Probe Concepts for Nanoscale Electrical Characterization by Sebastian, A, Bhaskaran, H, Pauza, A, Despont, M, Pozidis, H, IEEE

“…There is a significant need for nanoscale electrical characterization of materials. …”

Nanoscale PtSi Tips for Conducting Probe Technologies by Bhaskaran, H, Sebastian, A, Despont, M

“…Wear measurements are carried out on both tip types of similar geometries, and a one-on-one comparison between Si and PtSi at the nanoscale is shown for the first time. Both the wear properties on tetrahedral amorphous carbon and the conduction on Au of the PtSi tip apexes are shown to be superior to the Si tips. © 2006 IEEE.…”

Storing quantum information in chemically engineered nanoscale magnets by Ardavan, A, Blundell, S

“…We review the implementation of quantum information processing using quantum spins and pulsed spin resonance techniques. Molecular magnets, nanoscale clusters of coupled transition metal ions, offer various potential advantages over other spin systems as the building blocks of a quantum computer. …”

Electrochemical heterogeneity at the nanoscale: diffusion to partially active nanocubes by Wong, R, Batchelor-McAuley, C, Yang, M, Compton, R

“…These results have clear and important implications for experimental work that uses a correlation-based approach to evidence changes in activity at the nanoscale. …”

Nanoscale bilayer mechanical lithography using water as developer by Shu, Y, Porter, BF, Soh, EJH, Farmakidis, N, Lim, S, Lu, Y, Warner, J, Bhaskaran, H

Nanoscale mechanical and transport properties of multilayers and energy materials by Romano Brandt, LM

Storing quantum information in chemically engineered nanoscale magnets by Ardavan, A, Blundell, S

“…We review the implementation of quantum information processing using quantum spins and pulsed spin resonance techniques. Molecular magnets, nanoscale clusters of coupled transition metal ions, offer various potential advantages over other spin systems as the building blocks of a quantum computer. …”

Nanoscale domain patterns and a concept for an energy harvester by Balakrishna, A, Huber, J

“…The current work employs a phase-field model to test the stability of nanoscale periodic domain patterns, and to explore the application of one pattern in an energy harvester device. …”

Synthetic routes to nanoscale BxCyNz architectures by Terrones, M, Grobert, N, Terrones, H

Optical spectroscopy of wide bandgap semiconductor nanoscale structures by Holmes, M, Mark Holmes

Nanoscale separation of molecular species based on their rotational mobility. by Testa, I, Schönle, A, von Middendorff, C, Geisler, C, Medda, R, Wurm, C, Stiel, A, Jakobs, S, Bossi, M, Eggeling, C, Hell, S, Egner, A

“…In addition to imaging with nanoscale spatial resolution, this technique allows determination of the fluorescence anisotropy of each detected dipole emitter and thus an estimate of its rotational mobility. …”

Metrology at nanoscale: thermal wave probe made it simple by Abd. Moksin, Mohd Maarof

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Invited paper: modeling of nanoscale MOSFET using MATLAB by Arora, Vijay K.

“…Quantum and high-field effects present in a nanoscale MOSFET are modeled and data processed using MATLAB. …”

Physics-based modelling of ballistic transport in nanoscale transistor by Saad, Ismail, Lee, Razak M. A., Ismail, Razali, Arora, Vijay K.

Design and simulation analysis of nanoscale vertical MOSFET technology by Saad, Ismail, Mohd. Ali Lee, Razak, A. Riyadi, Munawar, Ismail, Razali

“…The final part evaluates the innovative design of incorporating dielectric pocket (DP) on top of vertical MOSFET turret with comprehensive device performance analysis as compared to standard vertical MOSFET in nanoscale realm. An optimized body doping for enhanced performance of vertical MOSFET was revealed. …”

Micro/nanoscale biosensing in microfluidics: selection of polymers and microstructures by Adam, Tijjani, Hashim, U., Leow, Pei Ling, Ali, M. E.