Soft contact lamination and metal-coated elastomeric stamps provide the basis for a convenient and noninvasive approach to establishing high resolution electrical contacts to electroactive organic
A technique for highly resolved maskless patterning is obtained by combining focused ion beam lithography with wet chemical etching.
We present fabrication schemes for nanoscal molecular junctions, which allow the deposition of molecules after the fabrication steps that can uncontrollably affect the electrical properties of the
A comparative atomic force microscopy (AFM) study of melt-formed and fracture surfaces of silica and E-glass is reported.
In this paper, we study the (i) behavior of organic transistors (ii) examine the current-voltage characteristics and quantum efficiencies of polymer light emitting diodes (PLEDS) (iii) construct th
Molecular beam epitaxy (MBE) is essentially a controlled evaporation from various elemental sources in high vacuum onto a temperature- controlled single crystal substrate.
This review systematically surveys: 1) nanometer fabrication techniques and their limits, 2) new physical phenomena such as localization, quantum-interference, quantum-size, and discrete- electro
No abstract. Refer back to previously released 072385.
Conventional integrated circuits now contain linewidths approaching one micron, but on a laboratory scale, patterns and complete electronic devices can be made with minimum features as small as te
The mammalian brain is a phenomenal piece of ``organic machinery{''} that has fascinated scientists and clinicians for centuries.
