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Tools for Modeling & Simulation of Molecular and Nanomaterials for Optically Responsive Devices

Award Information
Agency: Department of Defense
Branch: Air Force
Contract: FA9550-10-C-0148
Agency Tracking Number: F09B-T30-0228
Amount: $99,918.00
Phase: Phase I
Program: STTR
Solicitation Topic Code: AF09-BT30
Solicitation Number: 2009.B
Timeline
Solicitation Year: 2009
Award Year: 2010
Award Start Date (Proposal Award Date): 2010-06-09
Award End Date (Contract End Date): 2011-03-09
Small Business Information
111 Downey Street
Norwood, MA 02062
United States
DUNS: 076603836
HUBZone Owned: No
Woman Owned: No
Socially and Economically Disadvantaged: No
Principal Investigator
 David Rauh
 President
 (781) 769-9450
 drauh@eiclabs.com
Business Contact
 Jeffery Bursell
Title: Vice President-CFO
Phone: (781) 769-9450
Email: jefbursell@eiclabs.com
Research Institution
 The Pennsylvania State University
 Lynn Mitchell
 
Office of Sponsored Programs 110 Technology Center
University Park, PA 16802
United States

 (814) 867-1332
 Nonprofit College or University
Abstract

The effective de novo prediction of linear and nonlinear optical properties of materials would be a great resource for developers of military and commercial optical devices. Of particular military interest are multiphoton processes that can be optimized for laser protection as well as for improving photovoltaic efficiencies above the Shockley–Queisser limit, for photodynamic therapy and for optical signal processing. EIC Laboratories and our collaborators at the Pennsylvania State University propose a program of first principles prediction of linear and nonlinear optical properties of molecules, clusters and nanomaterials. In Phase I, we will focus on developing accurate and efficient methods to simulate the two-photon absorption of molecular chromophores in solution. The theoretical models developed in Phase I will be validated against a high quality experimental data set. Phase II will entail further validation of the theory with molecules, nanoparticles and ensembles, and incorporation into an accessible and user friendly software package. BENEFIT: Of particular military interest are multiphoton processes that can be optimized for laser protection as well as for for optical signal processing. The software tools would have applications to materials design for a variety of commercial products, including 1) theoretical modeling software packages useful for designing optical materials, and 2) actual optical limiting materials and devices for protection of electronic sensors and the human eye from damage by intense laser radiation, for medical applications (PDT, optical imaging, etc), for photovoltaics (infrared to visible photon conversion, multiphoton UV to NIR downconversion).

* Information listed above is at the time of submission. *

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