Academic Departments Nanotechnology Technology

@Intermall

Top: Science: Technology: Nanotechnology: Academic_Departments:

• - Defense University Research Initiative on Nanotechnology Project - use combinatorial biology techniques to select surface-specific polypeptides, and then use these Genetically Engineered Proteins for Inorganics (GEPIs) for assembling functional nanostruct
  
• - Department of Engineering: Nanoscale Science Laboratory: nanotubes, nanomagnetics, nanowires, spin dependent transport, nanotribology, sensors, scanning probe microscopy, electron beam lithography, and an introduction to nanotechnology.
  
• - Nanotechnology Group, Advanced Materials Department: Research, facilities and courses, including the MSc in Microsystems and Nanotechnology, the first nanotechnology degree course in Europe.
  
• - Center for Nanoscience and Nanotechnology. Nanostructure synthesis, sensors, MEMS, photonic crystals, microscopy, nano-lithography.
  
• - Nanoscale Physics Research Laboratory: surface modification, cluster physics, sensors, scanning probe microscopy, nano-optics, and thin films.
  
• - Experimental Physics II: development and modification of nanostructured materials such as aerogels, nanostructured foams, carbon nanofibers and composites for different fields of applications mainly in energy storage, energy conversion and thermal insulat
  
• - Department of Physics, Centre for Nanoscale Physics: ultrafast microscopy, ultrafast spectroscopy, nanocrystals and ion implantation, modelling of dynamics at solid surfaces, superconductivity, phase transitions and biophysics.
  
• - Research facility affiliated with the University at Albany engaged in a variety of nanoscience fields, including MEMS. Pictures and facility descriptions, news, events, staff profiles, bibliography.
  
• - Consists of five academic staff specialising in aspects of the fabrication and measurement of nanostructures. Includes people, jobs, facilities and postgraduate courses.
  
• - Malcolm Brown's Nanopage: ongoing research in the structure and synthesis of nanostructures and high resolution transmission electron microscopy and specialized light microscopy.
  
• - Studies size effects in phase transitions, structure and surface phenomena in condensed films of various materials. Includes research interests, people, publications, photo gallery and links.
  
• - The Beckman Institute for Advanced Science and Technology: molecular and electronic nanostructures; computational electronics; scanning tunneling microscopy, including lithography and fabrication; semiconductor nanostructures and photonics; synthesizing a
  
• - Advanced Materials & Nanotechnology Research
  
• - Nanoscience Group: "bottom up" approaches to nanotechnology, scanning probe microscopes, properties of fullerenes and derivatives.
  
• - Nanotube group: producing boron nitride and carbon nanotubes using a new relatively low temperature milling process.
  
• - North carolina state university, providing studies in instruments electron & scanned probe microscopy.
  
• - Centre for Nanoscale Science & Technology: multidisciplinary research centre linking scientists, engineers, medical researchers, and clinicians developing micro and nanodevices and technologies for applications in biology, biotechnology and medicine.
  
• - Center for study and research in nanotechnology, offering cross disipline graduate courses in the field.
  
• - Department of Physics: Condensed Matter Physics: Zettl Research Group: research into the electronic, magnetic, and structural properties of novel materials, including nanostructures such as telescoping nanotube bearings. (Berkeley)
  
• - Nanoscience and Technology Lab: synthesis and properties of carbon and boron nitride nanotubes and nanofibers, fullerenes, and how materials synthesis at the sub-micron scale can impact the biological sciences.
  
• - Undertakes programme of one-year interdisciplinary nanomaterials research masters course. Provides funds as well.
  
• - Nanoscale Physics: research into nanotubes, nanoclusters, molecular wires, break junctions, scanning probe microscopy (STM and AFM), and field-ion microscopy.