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.
In this paper we have systematically studied the chemical etching of Ga and N-polar GaN with KOH, varying as a parameter either the concentration or the temperature of the solution for a fixed etch
The synthesis and field-effect transistor (FET) electron mobility of ten N-substituted naphthalene 1,4,5,8-tetracarboxylic diimide (NTCDI) derivatives deposited at ambient and elevated temperatures
