Skip to content
Latest:
  • Modulation Doping via a Two-Dimensional Atomic Crystalline Acceptor
  • Detection of a multi-disease biomarker in saliva with graphene
  • A Cleanroom in a Glovebox
  • New magnetic regimes by tuning the ligand spin-orbit coupling
  • Dielectrophoresis assisted rapid, selective and single cell detection of antibiotic resistant bacteria with G-FETs

Laboratory for Assembly and Spectroscopy of Emergence

  • Home
  • Research
    • Emergent Phases and Novel Heterostructures
    • 2D Magnetic Materials
    • Toptotronics
    • BioChemical Sensing
  • Facilities
    • Microscopy
    • Broadband FTIR Spectroscopy
    • Ellipsometry
    • Cleanroom in a Glovebox
  • Publications
    • Publisher
      • 2D Materials
      • ACS Nano
      • Advanced Materials
      • Applied Physics Letters
      • Applied Spectroscopy
      • Biosensors and Bioelectronics
      • Journal of Applied Physics
      • Journal of Magnetism and Magnetic Materials
      • Nanoletters
      • Nature Publishing Group
      • New Journal of Physics
      • Physical Review
      • Physical Review X
      • Physical Review Letters
      • Review of Scientific Instruments
      • Science Advances
      • Sup. Sci. & Tech.
    • Year
      • 2020
      • 2019
      • 2018
      • 2017
      • 2016
      • 2015
      • 2014
      • 2013
      • 2012
      • 2011
      • 2010
      • 2009
      • 2008
      • 2007
      • 2006
      • 2005
      • 2004
      • 2003
  • Group Members
  • Find Us
  • Links

EuS

2020 Nanoletters News Publications 

Modulation Doping via a Two-Dimensional Atomic Crystalline Acceptor

November 10, 2020November 10, 2020 Kenneth Burch 2D Atomic Crystals, Doping, EuS, Graphene, Raman, RuCl3, Transport, WSe2

Two-dimensional nanoelectronics, plasmonics, and emergent phases require clean and local charge control, calling for layered, crystalline acceptors or donors. Our

Read more
2018 News Physical Review 

Charge transfer in EuS/Bi2Se3 heterostructures as indicated by the absence of Raman scattering

July 31, 2018 Kenneth Burch EuS, Films, Magnetism, Raman, Topological Insulators

Heterostructures of topological insulators and ferromagnets offer new opportunities in spintronics and a route to novel anomalous Hall states. In

Read more

Translate this site

Chinese (Simplified)DanishDutchEnglishFrenchGermanHebrewHindiJapaneseKorean

Support from:

Corporate Partners

LASE in the News

Department of Energy Highlight
Wired
Toronto Star
NBC News
Gizmodo
Copyright © 2021 . All rights reserved.
Theme: ColorMag by ThemeGrill. Powered by WordPress.