Login / Signup

Nanobionics-Driven Synthesis of Molybdenum Oxide Nanosheets with Tunable Plasmonic Resonances in Visible Light Regions.

Yichao WangAli ZavabetiQifeng YaoThi Linh Chi TranWenrong YangLingxue KongDavid J Cahill
Published in: ACS applied materials & interfaces (2022)
Nanobionics-driven synthesis offers a process of designing and synthesizing functional materials on a nanoscale based on the structures and functions of biological systems. An approach such as this is environmentally friendly and sustainable, providing a viable option for synthesizing functional nanomaterials for catalysis and nanoelectronic components. In this work, we present a facile and green nanobionics approach to synthesize plasmonic H x MoO 3 by interacting chloroplasts extracted from spinach with two-dimensional (2D) MoO 3 nanoflakes. The generated plasmon resonances can be modulated in the visible wavelength ranges, and the efficiency to form the plasmonic materials is enhanced by 90% within 45 min of light excitation compared to reactions without chloroplast involvement. Such a characteristic is ascribed to the interfacial carrier dynamics between the two entities in the reactions, in which highly doped metal oxides with quasi-metallic properties can be formed to generate optical absorptions in the visible light region. The green synthesized plasmonic materials show high photocatalytic activities without the coupling of semiconductors, providing a promising nanoelectronics unit, based on the nanobionics-driven synthesized plasmonic materials.
Keyphrases
  • visible light
  • energy transfer
  • high resolution
  • single molecule
  • mass spectrometry
  • room temperature
  • quantum dots
  • ionic liquid
  • gold nanoparticles
  • protein kinase
  • label free
  • metal organic framework