HYBRID SEMICONDUCTING POLYMER/CARBON NANOTUBE SUPERSTRUCTURES FOR OPTICAL, ELECTRO-OPTIC, AND SPINTRONIC APPLICATIONS

Abstract

The research objective of this effort is to build novel materials that will enable: (i) high-resolution vision and identification in near and total darkness, (ii) ultrafast signal processing, and (iii) processing and delivery of information at high frequency and low voltage operation costs. The technical approach that will be exploited involves the development of innovative compositions of matter based on carbon nanotubes and semiconducting polymers that helically wrap the nanotube surface in a single chain fashion at rigorously fixed periodicity. In addition to synthesizing these unique compositions, this effort exploits state-of-the-art time-resolved spectroscopic methods to characterize the optical, electrical, and spin transport properties of these structures. The anticipated outcomes of this research program include the realization of new hybrid structures based on carbon nanotubes and semiconducting polymers that display unusual properties and behaviors, and the elucidation of new chemical and physical insights that will lead to novel advanced materials for communication, detection, and information processing applications that are important for future U.S. Air Force applications. Potential impacts of this research effort include the development of new technologies that enable the military to detect, identify, and target, as well as those that provide fast, secure, and novel means of high-speed communication.

Document Details

Document Type

DoD Grant Award

Publication Date

Apr 20, 2023

Source ID

FA95502210466

Entities

Tags