A Direct Route toward Assembly of Nanoparticle−Carbon Nanotube Composite Materials
Citations Over TimeTop 10% of 2004 papers
Abstract
The preparation of nanocomposite materials from carbon nanotubes (CNTs) and metal or metal oxide nanoparticles has important implications to the development of advanced catalytic and sensory materials. This paper reports findings of an investigation of the preparation of nanoparticle-coated carbon nanotube composite materials. Our approach involves molecularly mediated assembly of monolayer-capped nanoparticles on multiwalled CNTs via a combination of hydrophobic and hydrogen-bonding interactions between the capping/mediating shell and the CNT surface. The advantage of this route is that it does not require tedious surface modification of CNTs. We have demonstrated its simplicity and effectiveness for assembling alkanethiolate-capped gold nanoparticles of 2-5 nm core sizes onto CNTs with controllable coverage and spatially isolated character. The loading and distribution of the nanoparticles on CNTs depend on the relative concentrations of gold nanoparticles, CNTs, and mediating or linking agents. The composite nanomaterials can be dispersed in organic solvent, and the capping/linking shells can be removed by thermal treatment to produce controllable nanocrystals on the CNT surfaces. The nanocomposite materials are characterized using transmission electron microscopy and Fourier transform infrared spectroscopy techniques. The results will be discussed in terms of developing advanced catalytic and sensory nanomaterials.
Related Papers
- → Maskless functionalization of a carbon nanotube dot array biosensor using an ultrafine atmospheric pressure plasma jet(2015)47 cited
- → Surface functionalization of microporous carbon fibers by vapor phase methods for CO2 capture(2023)3 cited
- → Selective external surface functionalization of large-pore silica materials capable of protein loading(2016)24 cited
- → Thermal Functionalization of GaN Surfaces with 1-Alkenes(2013)13 cited
- → Effects of Chemical Functionalization on Single-Walled Carbon Nanotubes by Mild Hydrogen Peroxide for PV Applications(2019)1 cited