JAMES DEAN SMITH
Pilots at Sunrise Trl Pl, Albuquerque, NM

License number

New Mexico A2314962

Issued Date

Sep 2016

Expiration Date

Sep 2018

Professional information

A/R Supervisor At Lovelace Respiratory Research Institute

Position:

CMAR Supervisor at Lovelace Respiratory Research Institute

Location:

Albuquerque, New Mexico Area

Industry:

Research

Work:

Lovelace Respiratory Research Institute since Jun 2003 - CMAR Supervisor Pfizer Ann Arbor MI - Ann Arbor MI Aug 1986 - May 2003 - Group leader, animal care Natural science Jan 1983 - May 1989 - University of Michigan

Education:

USMC 1976 - 1982
lincoln high school 1972 - 1976

Interests:

I play drums for Hedger Breed band and the Mud brothers band,you can find the music on Reverbnation, Gary Lane,Steve Elis, Dave Baker.

James Smith - Albuquerque, NM

Work:

ClingZ, Inc
Director of Technology Advanced Materials Technology, Inc
President Advanced Materials Technology, Inc - The Woodlands, TX
Senior Research Scientist Advanced Materials Technology, Inc - Rio Rancho, NM
Laboratory Director Advanced Materials Technology, Inc - Albuquerque, NM
Vice President Chemical & Hydrogen Technology Section - Aiken, SC
Senior Scientist Chemistry Dept., Florida State University - Tallahassee, FL
Postdoctoral Research Associate

Education:

New Mexico State University - Las Cruces, NM
Ph.D. in Physical University of Arkansas - Fayetteville, AR
B.S. in Chemistry

Director New Mexico Complex At Merrill Lynch

Position:

Director New Mexico Complex at Merrill Lynch

Location:

Albuquerque, New Mexico Area

Industry:

Financial Services

Work:

Merrill Lynch - Director New Mexico Complex

Principal Member Technical Staff At Sandia National Laboratories

Position:

Principal Member Technical Staff at Sandia National Laboratories

Location:

Albuquerque, New Mexico Area

Industry:

Defense & Space

Work:

Sandia National Laboratories - Principal Member Technical Staff

Project Manager At Sandia National Laboratories

Position:

Project Manager at Sandia National Laboratories

Location:

Albuquerque, New Mexico Area

Industry:

Defense & Space

Work:

Sandia National Laboratories - Project Manager

Education:

The University of New Mexico 1968 - 1971

Sr. Programmer/Analyst At The Bombay Company

Position:

Sr. Programmer/Analyst at The Bombay Company

Location:

Albuquerque, New Mexico Area

Industry:

Computer Software

Work:

The Bombay Company - Sr. Programmer/Analyst

Education:

Abilene Christian University 1989 - 1992

Biotechnology Professional

Location:

Albuquerque, New Mexico Area

Industry:

Biotechnology

Method For Preventing Micromechanical Structures From Adhering To Another Object

US Patent:

5766367, Jun 16, 1998

Filed:

May 14, 1996

Appl. No.:

8/645976

Inventors:

James H. Smith - Albuquerque NM
Antonio J. Ricco - Albuquerque NM

Assignee:

Sandia Corporation - Albuquerque NM

International Classification:

C23G 100

US Classification:

134 2

Abstract:

A method for preventing micromechanical structures from adhering to another object includes the step of immersing a micromechanical structure and its associated substrate in a chemical species that does not stick to itself. The method can be employed during the manufacture of micromechanical structures to prevent micromechanical parts from sticking or adhering to one another and their associated substrate surface.

Calorimetric Gas Sensor

US Patent:

5834627, Nov 10, 1998

Filed:

Dec 17, 1996

Appl. No.:

8/766142

Inventors:

Antonio J. Ricco - Albuquerque NM
Robert C. Hughes - Cedar Crest NM
James H. Smith - Albuquerque NM
Daniel J. Moreno - Albuquerque NM
Ronald P. Manginell - Albuquerque NM
Stephen D. Senturia - Brookline MA
Robert J. Huber - Bountiful UT

Assignee:

Sandia Corporation - Albuquerque NM

International Classification:

G01N 700

US Classification:

73 2331

Abstract:

A combustible gas sensor that uses a resistively heated, noble metal-coated, micromachined polycrystalline Si filament to calorimetrically detect the presence and concentration of combustible gases. The filaments tested to date are 2. mu. m thick. times. 10. mu. m wide. times. 100, 250, 500, or 1000. mu. m-long polycrystalline Si; some are overcoated with a 0. 25. mu. m-thick protective CVD Si. sub. 3 N. sub. 4 layer. A thin catalytic Pt film was deposited by CVD from the precursor Pt(acac). sub. 2 onto microfilaments resistively heated to approximately 500. degree. C. ; Pt deposits only on the hot filament. Using a constant-resistance-mode feedback circuit, Pt-coated filaments operating at ca. 300. degree. C. (35 mW input power) respond linearly, in terms of the change in supply current required to maintain constant resistance (temperature), to H. sub. 2 concentrations between 100 ppm and 1% in an 80/20 N. sub. 2 /O. sub. 2 mixture.

Method For Integrating Microelectromechanical Devices With Electronic Circuitry

US Patent:

5798283, Aug 25, 1998

Filed:

Sep 6, 1995

Appl. No.:

8/524700

Inventors:

Stephen Montague - Albuquerque NM
James H. Smith - Albuquerque NM
Jeffry J. Sniegowski - Albuquerque NM
Paul J. McWhorter - Albuquerque NM

Assignee:

Sandia Corporation - Albuquerque NM

International Classification:

H01L 2100

US Classification:

438 24

Abstract:

A method for integrating one or more microelectromechanical (MEM) devices with electronic circuitry. The method comprises the steps of forming each MEM device within a cavity below a device surface of the substrate; encapsulating the MEM device prior to forming electronic circuitry on the substrate; and releasing the MEM device for operation after fabrication of the electronic circuitry. Planarization of the encapsulated MEM device prior to formation of the electronic circuitry allows the use of standard processing steps for fabrication of the electronic circuitry.