Accession Number:

AD1069874

Title:

Integrated Multifunctional Stretchable Nanofibers for Novel Energy Applications

Descriptive Note:

Technical Report,28 May 2015,27 May 2018

Corporate Author:

UNIVERSITY OF WASHINGTON SEATTLE United States

Personal Author(s):

• Jen, Alex K Y

Report Date:

2018-09-19

Pagination or Media Count:

17.0

Abstract:

Fiber-based electronics is an emerging research field and attracting considerable attention in materials, medical, and engineering communities due to their great potential of being woven into smart electronic textiles for future wearable devices and combat-related missions of soldiers. In the Taiwanese Nanoscience Program, the Jen group is responsible for developing proper charge-transporting layers CTLs for the fiber-based target electronics, providing expertise in interfacial engineering, and applying them to polymer and hybrid perovskite solar cells. In this program, we have developed novel low temperature solution processable CTLs and interface materials to facilitate the fabrication of high-performance and stable perovskite solar cells PVSCs. Now, efforts have been extended to develop crosslinkable CTLs and non-fullerene acceptors for wide bandgap polymers, and to develop passivation methods based on graded fullerene heterojunction in low bandgap Pb-Sn binary PVSCs for fiber-based electronic applications.

Descriptors:

• fibers
• composite materials
• Energy Conversion
• FLEXIBLE ELECTRONICS
• nanomaterials
• wearable technology
• electronic textiles
• semiconductors
• electronic materials

Subject Categories:

• Electrical and Electronic Equipment

Distribution Statement:

APPROVED FOR PUBLIC RELEASE