Bio-inspired riboflavin derivatives for organic electronics and biomimetic energy storage

Bio-inspired riboflavin derivatives for organic electronics and biomimetic energy storage

Abstrakt

Biologically inspired molecular engineering is a promising way towards environmentally responsible, cheap, non-toxic and efficient materials for organic electronics and energy storage. As an example, flavines are one of most structurally and functionally versatile redox centers in nature, which act as catalyzers in a wide range of biotransformations and electron-transfer reactions. Present work demonstrates the implementation of riboflavin inspired derivatives in organic electronics applications; such as semiconducting materials and bio-inspired redox centers for biomimetic energy storage.

Biologically inspired molecular engineering is a promising way towards environmentally responsible, cheap, non-toxic and efficient materials for organic electronics and energy storage. As an example, flavines are one of most structurally and functionally versatile redox centers in nature, which act as catalyzers in a wide range of biotransformations and electron-transfer reactions. Present work demonstrates the implementation of riboflavin inspired derivatives in organic electronics applications; such as semiconducting materials and bio-inspired redox centers for biomimetic energy storage.

bio-inspired materials, bio-organic electronic, flavines, energy storage

bio-inspired materials, bio-organic electronic, flavines, energy storage

KRAJČOVIČ, J.; RICHTÁR, J.; KOVALENKO, A.; WEITER, M.

2018

10.03.2017

4th International Winterschool on Bioelectronics, Kirchberg in Tirol, Austria

http://hdl.handle.net/