Research Updates

  • icon Graphene Nanoribbons
  • icon Electrosctatic force spectroscopy
  • icon Metallized Graphine
  • iconMonitoring the Band Gaps
  • icon Graphene Nanoribbons
  • icon Graphene Ribbonsicon Infrared Filter
  • icon Graphene Ribbons
  • icon Resonant heterodyne force microscopy provides elasticity contrast on the molecular level using a standard cantilever
  • icon Multiple Quantum Well Structures of Graphene Nanoribbons
  • icon Nanoscale charging hysteresis measurement using multifrequency electrosctatic force spectroscopy
  • icon Spin confinement in the superlattices of graphene ribbons
  • icon Electronic and magnetic properties of 3d transition-metal atom adsorbed graphene and graphene nanoribbons
  • icon First-principles approach to monitoring the band gap and magnetic state of a graphene nanoribbon via its vacancies
  • icon Transition Metal-Ethylene Complexes as High-Capacity Hydrogen Storage Media
  • icon High-capacity hydrogen storage by metallized graphene
  • icon Sensitizers for photodynamic therapy
  • icon Sensitizers for Solar Cells
  • icon Molecular logic gates
  • icon Fluorescent Molecular Sensors
  • icon All-chalcogenide Tunable Infrared Filter
  • icon Nanocalorimetry: Calorimetry of ultra-small materials
  • icon Multi-frequency Fluxgate MFM
  • icon Lasing action from a micro-toroid
  • icon Photonic bandgap fibers