Quantum-coupled radial-breathing oscillations in double-walled carbon nanotubes.

نویسندگان

  • Kaihui Liu
  • Xiaoping Hong
  • Muhong Wu
  • Fajun Xiao
  • Wenlong Wang
  • Xuedong Bai
  • Joel W Ager
  • Shaul Aloni
  • Alex Zettl
  • Enge Wang
  • Feng Wang
چکیده

Van der Waals-coupled materials, ranging from multilayers of graphene and MoS(2) to superlattices of nanoparticles, exhibit rich emerging behaviour owing to quantum coupling between individual nanoscale constituents. Double-walled carbon nanotubes provide a model system for studying such quantum coupling mediated by van der Waals interactions, because each constituent single-walled nanotube can have distinctly different physical structures and electronic properties. Here we systematically investigate quantum-coupled radial-breathing mode oscillations in chirality-defined double-walled nanotubes by combining simultaneous structural, electronic and vibrational characterizations on the same individual nanotubes. We show that these radial-breathing oscillations are collective modes characterized by concerted inner- and outer-wall motions, and determine quantitatively the tube-dependent van der Waals potential governing their vibration frequencies. We also observe strong quantum interference between Raman scattering from the inner- and outer-wall excitation pathways, the relative phase of which reveals chirality-dependent excited-state potential energy surface displacement in different nanotubes.

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عنوان ژورنال:
  • Nature communications

دوره 4  شماره 

صفحات  -

تاریخ انتشار 2013