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Method for Synthesis of Colloidal Nanoparticles

Technology Benefits

Energy efficient Reproducible for large-scale productionCost-effective

Technology Application

Biological sensing and tagging Optoelectronic devices Solid-state lighting Solar cells

Detailed Technology Description

Researchers at the University of California, Santa Barbara have developed a method for the synthesis of highly dispersive inorganic nanoparticles with narrow size distribution. The limitations of prior methods (e.g. bulky reaction under constant Argon flow with a heating mantle operating at 240°C) are overcome by a novel heating process that features a high ramping rate, producing high crystallinity of the nanoparticles. This novel method of synthesis is fit for safe, large-scale, reproducible, and energy efficient production of colloidal nanoparticles. In addition, this method allows for the mass production of colloidal nanoparticles that can enhance the sensitivity and specificity of biological sensors. The offered patent portfolio consists of 3 issued U.S. patents with broad method claims and claims to certain nanoparticles produced by the patent methods.

Supplementary Information

Patent Number: US7615169B2
Application Number: US2004945053A
Inventor: Strouse, Geoffrey Fielding | Gerbec, Jeffrey A. | Magana, Donny
Priority Date: 20 Sep 2004
Priority Number: US7615169B2
Application Date: 20 Sep 2004
Publication Date: 10 Nov 2009
IPC Current: B29B000900 | B29C006700
US Class: 264005 | 264489 | 977840
Assignee Applicant: The Regents of the University of California
Title: Method for synthesis of colloidal nanoparticles
Usefulness: Method for synthesis of colloidal nanoparticles
Summary: For chemically synthesizing nanoparticles (claimed) used in optoelectronic devices, biological tagging, optical switching, solid-state lighting, and solar cell applications.
Novelty: Chemical synthesis of nanoparticles for optoelectronic devices, involves heating process of reaction system comprising precursors, passivants, and/or solvents in reactor, in which temperature of constituent elements is specifically ramped

Industry

Environmental/Green Technology

Sub Group

Solar Cell

Application No.

7575699

Others

Background

Colloidal nanoparticles feature unique electronic, optical and magnetic properties that make them ideal tools for many applications in science, such as in biological sensing and tagging. The industry is, however, hampered by lack of a high-quantity synthetic methodology adaptable to high throughput automation for colloidal nanoparticles. The featured technology overcomes many current problems with automation.

Tech ID/UC Case

21388/2004-218-0

Related Cases

2004-218-0

Country/Region

USA

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