• Nanophase Materials
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Carbon Nanotubes Make Simultaneous Temperature, Pressure Sensors Possible Carbon nanotubes have high thermal conductivity, an advantage for channeling heat and sensing temperature. The combination of pressure and temperature sensing, with the nanotubes other unique multifunctional properties optical transparency, charge dissipation, and electrical shielding strength enhancement makes the nanotub…

Trapping and Measuring Charged Particles in Liquids A nanoscale version of the Paul ion trap was developed by researchers at ORNL to trap and filter single atomic and molecular ions in liquid environments. Nanoscale control of matter offers an unprecedented means of examining and manipulating biological molecules, ions, polymers, and reactions. Genome sequencing especially benefits from the nanos…

: Fact Sheets
: Particle, Liquid, Nanoscale...

Extremely High Current, High-Brightness Energy Recovery Linac EXTREMELY HIGH CURRENT, HIGH-BRIGHTNESS ENERGY RECOVERY LINAC* I. Ben-Zvi#, D. Barton, D. Beavis, M. Blaskiewicz, J. M. Brennan, A. Burrill, R. Calaga, P. Cameron, X. Chang, R. Connolly, D. M. Gassner, J. Grimes, H. Hahn, A. Hershcovitch, H.-C. Hseuh, P. Johnson, D. Kayran, J. Kewisch, R. Lambiase, V. N. Litvinenko, G. McInt…

Methods for Detection and Quantification of Conductance and Dielectric Permittivity Methods for Detection and Quantification of Conductance and Dielectric Permittivity Disclosure Number 201503548 Technology Summary A device/test structure is described, which enables ac readout of nanoscale dielectric and conduction inhomogeneities and allows overcoming measurement parasitics in nanosca…

: Fact Cards
: Dielectric, Metrology, Nanoscale...

Control of Lateral Dimensions of Nanoscale Channels through the Use of Molecular Coatings Control of Lateral Dimensions of Nanoscale Channels through the Use of Molecular Coatings Disclosure Number 200100931 Technology Summary Control of Lateral Dimensionss of Nanoscale Channels - A method for reducing the lateral dimensions of fabricated nanochannels to…

Separation of Fischer-Tropsch Wax Products from Ultrafine Iron Catalyst Particles DE-FC26-03NT41965 Separation of Fischer-Tropsch Wax Products from Ultrafine Iron Catalyst Particles Technical Progress Report James K. Neathery, Gary Jacobs, Amitava Sarkar, and Burtron H. Davis Reporting Period October 1, 2005 to March 30, 2006 The Uni…

Barium titanate nanocomposite capacitor FY09 year end report. SANDIA REPORT SAND2009-7301 Unlimited Release Printed November 2009 Barium Titanate Nanocomposite Capacitor FY09 Year End Report Todd C. Monson, Tyler E. Stevens, Ben D. Fellows, Chris B. Diantonio, Mike R. Winter, Tom P. Chavez, Pin Yang, Alex. W. Roesler Prepared by Sandia National Laborato…

DOE Hydrogen Sorption Center of Excellence: Synthesis and Processing of Single-Walled Carbon Nanohorns for Hydrogen Storage and Catalyst Supports 1 Final Report: DOE Project Number 17580 DOE Hydrogen Sorption Center of Excellence: Synthesis and Processing of Single-Walled Carbon Nanohorns for Hydrogen Storage and Catalyst Supports David B. Geohegan (Principal Investigator), Hui Hu, …

: Metal, Hydrogen, Energy...

Chemical vapor deposition of long vertically aligned carbon nanotubes by external control of catalyst composition (CNMS IDR send it to Larry Dickens) Chemical vapor deposition of long vertically aligned carbon nanotubes by external control of catalyst composition (CNMS IDR send it to Larry Dickens) Disclosure Number 200501501 Technology Summary This inve…

MSD-Overview R1 The Monolithic Systems Development (MSD) Group was formed in 1988 to add application-specific integrated circuit design technologies to an already mature analog and digital electronics capability. The group bridges the gap between basic and applied research and acts as Oak Ridge National Laboratory's (ORNL's) technology and knowledge base in advanced electronic systems, particul…

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