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Maryland NanoCenter

University of Maryland College Park

Nano-Bio Science & Technology  nanobio

  • Bi-layer Lipid Membrane (BLM)-based Bio-sensors
  • Characterization of an Electrodeposited Chitosan Film
  • DNA attachment to GaAs substrates for Biosensor Applications
  • Enhanced Fluorescence from Ag nanoRods: Is Particle Plasmon Resonance Alone Responsible?
  • Growth Factor Influence on Myoblastic Cells Attached to a Novel Polymer
  • Nanoporous Silicon for Biosensing Applications
  • Patterned Assembly of A Genetically Modified Viral Nanotemplate Via Nucleic Acid Hybridization
  • Porous Silicon for Biosensing Applications
  • Scaffold Facilitated Osteoblastic Differentiation for Orbital Bone Repair
  • Shape-coded Silica Nanotubes for biosensing
  • Single Cell Manipulation Using Dielectrophoresis: Loading Cell Clinics
  • Ultra-sensitive and High Resolution UV Absorbance Detection of Proteins via Integrated Polymer Microfluidics


A. James Clark School of Engineering    Computer, Mathematical, and Physical Sciences    College of Chemical & Life Sciences

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