San Francisco / Los Alto / Cancun / Leiden / Kinesin / Magdeburg / Montreux / Heart Catheter / Boston / Sn / New York / Sydney / Nagoya / Chicago / /
Company
DisplaySearch / CMOS Technologies / Hewlett Packard / Plenum Press / Kretly L.C. / Research Laboratory / Wiley & Sons / PARC / W.W. Wood L.C. / ABC News / Nano-Build Hardware / IBM / Ge / Intel Corp. / ACTA Press / Bell Laboratories / John Wiley & Sons / /
Country
Switzerland / Netherlands / Japan / Australia / Germany / Mexico / United States / Singapore / /
Currency
USD / cent / / /
Facility
Research Laboratory / Dept. Fluid Mechanics Tel Aviv University / Pharmacy Parmaceutical Science / New York University / Mechatronics Research Laboratory Monash University / /
IndustryTerm
energy demand / minimal energy cost / time 3D prototyping tools / 45nm devices / biomolecular computing / chemical contact sensors / chemical and thermal parameters / nanoelectronics manufacturing methodologies / distributed processing / nano-kinetic devices / embedded nanoscopic devices / power source devices / real time / metal nanowires / energy supply / required technology background / molecular machinery / control technologies / wireless data transmission / energy / thermal and chemical parameters / chemical reactions / transducers chips / multithread software / versatile tool / diamond-like carbon-metal nanocomposites / treatment of a wide number of diseases / chemical changes / precise chemical dosage administration / adenosine triphosphate devices / gas sensors / manufacturing / variates devices / chemical based sensor / nanoscale electronic devices / signal processing circuitry readout / chemicals / manufacturing array kinetic vibration / control algorithms / energy mesoscopic nanowires performance / software programming / manufacturing feasibilities / nanorobot manufacturing design / parallel processing techniques / biomedical applications / manufacturing nanodevices / transponder device / low energy consumption / manufacturing analyses / wireless sensor networks / electromagnetic device / chemical and thermal gradients / 3D real time analyses / nanomedical devices / Chemical signal / chemical signals / signal processing capabilities / meso-scale metal particles / chemical sensors / ancillary devices / suitable tool / manufacturing nanorobots / Kinetic energy / technology devices / fabrication technology / chemical industry / chemical detection / manufacturing techniques / electronics / little energy / manufacturing design / electronics device miniaturization / circuit ambient energy / treatment tool / energy using active circumstances / low cost polymer electronics / chemical sensor efficient approach / chemical sensor / /
NaturalFeature
Great Lakes / /
Organization
New York University / Moshe Rosenfeld CAN Center for Automation / Medicine and Biology Society / Monash University / American Mathematical Society / Tel Aviv University / U.S. National Science Foundation / Int’l Society for Optical Engineering / Vol. / p. / IEEE Computer Society / Computational Intelligence for Modelling / Control and Automation / Stanford / /
Person
Luiz C. Kretly / George D. Skidmore / Shmuel Einav / Adriano Cavalcanti / Ralph C. Merkle / W. Liu / J.D.V / Nano / James R. Von Ehr / Acta / P. Dumon / V / Robert A. Freitas Jr. / Bijan Shirinzadeh / Michael Yahalom / S.F.A. Sarawi / V / Moshe Rosenfeld / / /
Product
SDI iP1 Speakers / /
ProvinceOrState
New York / New Mexico / Illinois / Massachusetts / /