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Integrating the Essence of a Metal-Organic Framework with Electrospinning: A New Approach for Making a Metal Nanoparticle Confined N-Doped Carbon Nanotubes/Porous Carbon Nanofibrous Membrane for Energy Storage and Conversion.

Tanka MukhiyaAlagan MuthurasuArjun Prasad TiwariKisan ChhetriSu-Hyeong ChaeHyoju KimBipeen DahalByoung Min LeeHak Yong Kim
Published in: ACS applied materials & interfaces (2021)
The fabrication of an economic and efficient multifunctional advanced nanomaterial with a rational composition and configuration by a facile methodology is a crucial challenge. Herein, we are the first to report the growth of Co nanoparticle-integrated nitrogen-doped carbon nanotubes (N-CNTs) on porous carbon nanofibers by simply heating in the situ-developed metal-organic framework (MOF)-based electrospun nanofibrous membrane with no need for an external supply of any additional precursors and reducing gases. The long and entangled N-CNTs originating from highly porous and graphitic carbon nanofibers offer good flexibility, large surface area, high porosity, high conductivity, the homogeneous incorporation of heteroatoms and metallic constituents, and an abundant exposure of active nanocatalytic sites. The as-developed nanoassembly demonstrates attractive characteristics for electrocatalytic hydrogen and oxygen evolution reactions and electrochemical energy storage. This strategy of integrating the essence of an MOF with electrospinning offers a new, direct, and cost-effective approach for making N-doped CNT-based multifunctional membranes.
Keyphrases
  • metal organic framework
  • carbon nanotubes
  • tissue engineering
  • visible light
  • ionic liquid
  • mass spectrometry
  • drug delivery
  • molecularly imprinted
  • reduced graphene oxide
  • low cost
  • essential oil
  • lactic acid