MERLOT Materials

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1-24 of 128 results for Materials Submitted by nanoHUB

Atomic Force Microscopy is has become an indispensible tool in nanoscience for the fabrication, metrology, manipulation... see more

This presentation will highlight for nanoelectronic device examples how the effective mass approximation breaks down and... see more

Nanotechnology can be defined as using materials and systems whose structures and components exhibit novel and... see more

Computational tools are playing a rapidly expanding role in biology, both for engineering design and in exploratory... see more

Computer simulation of bio-molecules has become a valuable tool for the pharmaceutical industry, promising not only the... see more

The study of the basic electron transport mechanism through molecular systems has been made accessible by fabrication... see more

New materials will be necessary to break through today’s performance envelopes for solid-state energy conversion devices... see more

Thermoelectric effects are based on the difference between the average energy of the conduction electrons (or holes) and... see more

Recent demonstrations of high performance carbon nanotube field-effect transistors (CNFETs) highlight their potential for... see more

Characterization of charge transport in molecular scale electronic devices has to date shown exquisite sensitivity to... see more

The quantitativelly accurate prediction of materials behavior from first principles requires the chracterization of a... see more

Physico-chemical models of cells and nanoparticles are being developed for pure and applied studies. Nanoparticles are... see more

BioMEMS and Bionanotechnology have the potential to make significant impact in a wide range of fields and applications.... see more

Enhanced laser cooling of ion doped nanocrystalline powders (e.g., Yb3+: Y2O3) can be achieved by enhancing the... see more

Polymers filled with nanoscale fillers (carbon nanotubes or nanoparticles) exhibit enhanced properties compared with the... see more

It is common to differentiate between two ways of building a nanodevice: a top-down approach where we start from... see more