Intelligent Epitaxy Technology, Inc.

1250 E. Collins Blvd.
Richardson, TX 75081
http://www.intelliepi.com
33 Employees

SBIR Award Summary

Total Number of Awards 9
Total Value of Awards $1.12MM
First Award Date 08/01/05
Most Recent Award Date 08/15/11

Key Personnel

Last Name Name Awards Contact
Pinsukanjana Paul Pinsukanjana 9 Message
Kao Yung-Chung Kao 3 Message

9 Awards Won

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA10-012
Budget: 08/15/11 - 02/17/12

This Phase I SBIR effort will develop robust and high performance infrared detector technology based on GaSb-based Type II strained-layer superlattices (SLS). The advanced device design will be based on the Naval Research Lab (NRL) W-barrier and Ternary absorber epitaxy materials system. The detector design will focus on the two-color LW/LW for...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA10-009
Budget: 08/01/11 - 02/03/12

This Phase I SBIR effort will seek to develop high performance superlattice infrared focal plane array technology by establishing a 4" GaSb substrate manufacturing line based in Texas. Under this program, IntelliEPI proposes to develop 4" GaSb crystal pulling capability based on the vertical gradient freeze method. In addition, a double-side p...

Phase 1 SBIR

Agency: Navy
Topic: N101-012
Budget: 05/06/10 - 11/19/10

This Phase I SBIR effort will develop dual-band mid-wavelength infrared/long-wavelength infrared (MWIR/LWIR) detector technology based on dual monolithic type-II strained-layer superlattices (SLS). The dual-band detector will operate in either MWIR or LWIR mode depending on the applied voltage bias, and will be compatible with the ROICs under de...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA09-002
Budget: 05/03/10 - 11/02/10

This Phase I SBIR effort will develop robust and high performance infrared detector technology based on two-color Type II strained-layer superlattices (SLS). The design architectures and process technologies in Sb-based SLS enable high-performance two-color LW/LW detectors. The SLS detector design efforts will be done by leading experts at Tel...

Phase 1 SBIR

Agency: Missile Defense Agency
Topic: MDA09-014
Budget: 05/03/10 - 11/02/10

This Phase I SBIR effort will develop low dark-current and high radiation-hardness infrared detector technology based on unipolar barrier structure Type II strained-layer superlattices. The design architectures and process technologies developed to minimize dark current are expected to enhance device performance, especially in the presence of t...

Phase 1 SBIR

Agency: Army
Topic: A09-094
Budget: 02/25/10 - 08/25/10

This Phase I SBIR effort will evaluate the preparation of epi-ready 211B InSb substrate to be used as starting substrate for the growth of high quality HgCdTe epi materials. The InSb substrate will be prepared via production III-V Molecular Beam Epitaxy (MBE) reactor. The 211B InSb substrate is chosen because it''s lattice matched to HgCdTe. Tex...

Phase 1 STTR

Institution: University of Illinois, Chicago

Agency: Missile Defense Agency
Topic: MDA07-T003
Budget: 10/18/07 - 04/17/08

This Phase I STTR proposes to develop Focal Plane Array (FPA) based on Corrugated-Infrared Hot Electron Transistor (C-IHET) technology as a passive sensor for discrimination seekers. The initial goal of achieving high sensitivity with operating temperature >77K for C-IHET in the 8 - 12 µm LWIR spectral region will be investigated. This IHET ef...

Phase 2 STTR

Institution: University of Texas at Dallas

Agency: Air Force
Topic: AF05-T003
Budget: 10/04/06 - 10/04/08

This Phase II STTR effort will demonstrate intersubband and interband quantum device modeling capability using UT-Dallas BandProf software package and optical coupling efficiency modeling using SMU optical cavity software packages. The software model will predict fabricated device characteristics based on data inputs from real-time in-situ growt...

Phase 1 STTR

Institution: University of Texas at Dallas

Agency: Air Force
Topic: AF05-T003
Budget: 08/01/05 - 05/01/06

This Phase I STTR effort will demonstrate intersubband quantum device modeling capability using UT-Dallas BandProf software package and optical coupling efficiency modeling using SMU optical cavity software packages. The software model will predict fabricated device characteristics based on data inputs from real-time in-situ growth monitoring a...