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Fluorinated Nanodiamond as a Precursor for Solid substrate Surface Coating Using Wet Chemistry

Detailed Technology Description
A wet chemistry method for coating surfaces with nanocrystalline diamond
*Abstract


Advantages

  • More cost-effective than existing chemical vapor deposition (CVD) methods
  • Low-temperature process
  • Adaptable to large scale processes
  • Compatible with a variety of different substrates


Technology
The process of this invention produces nanodiamond surface coatings using a linker species to covalently bond fluorinated diamond crystallites to a surface. The technique can be applied to surfaces such as ceramics, glass, polymers, semiconductors, and metals. Using standard wet chemistry techniques, the process avoid the sophisticated and costly equipment (vacuum chamber, furnace, heater or plasma generator, etc.) required by conventional vapor deposition techniques. Additionally, this technique can be applied on a large scale and for coating large areas on a variety of different substrates.

Potential Applications

  • Nano-electromechanical systems (NEMS)
  • Micro-electromechanical systems (MEMS)
  • Field emission devices and sensors
  • Chemically resistant coatings for tools, etc.


Patent Status

U.S. Patents 8,003,215 and 7,858,186 have been issued for this invention.

The Inventors

Dr. Valery Khabashesku is a Faculty Fellow in the Department of Chemistry and the Richard E. Smalley Institute of Nanoscale Science and Technology at Rice University. Dr. Khabashesku has been a visiting scientist/ professor with the U.S. National Academy of Science at universities across the U.S. and an invited lecturer at various international symposia, workshops and industrial meetings. In 2001 he was named a Laureate of the State Prize of the Russian Federation in science and technology, the nation's highest civilian honor.

Prof. Naomi Halas is the Stanley C. Moore Professor in Electrical and Computer Engineering and Professor of Chemistry. She has been the recipient of the NSF Young Investigator Award, three Hershel Rich Invention Awards, the 2003 Cancer Innovator Award, and the 2000 CRS-Cygnus Award for outstanding work in drug delivery. Her research interests include nanoengineering, plasmonics, and photonics.

Availability 
This technology is available for license from Rice University

To inquire about licensing this technology please contact Luba Pacala at Rice University's Office of Technology Transfer at (713)348-5590 or by e-mail at lpacala@rice.edu

Country/Region
USA

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