Maier S. A. / Heinz / Multiscale Energy Systems / Urban A. S. / Hillenbrand / Thomas J. Watson Laboratory / Schlather A. E. / ASSOCIATED CONTENT / /
Country
Guinea / United States / Korea / South Korea / / /
Facility
‡Kavli Nanoscience Institute / Thomas J. Watson Laboratory of Applied Physics / Resnick Sustainability Institute / California Institute of Technology / Kavli Nanoscience Institute / Seoul National University / /
IndustryTerm
carrier concentration / graphene plasmonic devices / different carrier densities / graphene carrier density / chemical vapor deposition / carrier density / carrier densities / experimental device / energy / optical phonon energy / normal metal plasmons / minimum energy separation / phonon energy / plasmonic devices / graphene devices / conventional metal / graphene nanoresonator devices / using chemical vapor deposition / /
OperatingSystem
Fermi / /
Organization
California Institute of Technology / POSCO TJ Park Foundation / Kavli Nanoscience Institute / Applied Physics and ‡Kavli Nanoscience Institute / Resnick Sustainability Institute / School of Mechanical and Aerospace Engineering / Seoul National University / Seoul / Division of WCU Multiscale Mechanical Design / Center for Multiscale Energy Systems / Global Frontier Center / Ministry of Science / National Research Foundation / /
Person
Josue J. Lopez / Victor W. Brar / Min Seok Jang / Lal / Michelle Sherrott / † Seyoon / Harry Atwater / Laura B. Kim / /
Position
Farmer / AUTHOR INFORMATION Corresponding Author *E-mail / Author / King / /
Letter pubs.acs.org/NanoLett Hybrid Surface-Phonon-Plasmon Polariton Modes in Graphene/ Monolayer h‑BN Heterostructures Victor W. Brar,†,‡,⊥ Min Seok Jang,§,⊥ Michelle Sherrott,† Seyoon Kim,† Josue J. Lope