Resume

• 2009

  University of Alaska Fairbanks

  - Managed Nanotechnology and photonic laboratory – part of Office of Electronic Miniaturization.\n- Conducted research

  collect data

  analyze.\n- Prepare technical reports for the funding agency.\n- Represented UAF at National Space Symposium Trade show

  Colorado Springs

  CO.

  Research Scientist

  Office of Electronic Miniaturization

  UAF

• 2008

  University of Alaska Fairbanks

  - Research & Development monitoring

  keeping the task and deliverable on schedule.\n- Work with the technical staff on the tasks.\n- Technical report writing

  and communication with DARPA.\n- Published 25 peer-reviewed international publications.\n- Developed SENOOK - Multifunctional sensor platform selected in Top 100 World’s Best Technology \n Showcase

  2009.\n- Grants management (project manager) for the Defense Advanced Research Project Agency 2008

  Assistant Professor (Research)

  Office of Electronic Miniaturization

  UAF

  Department of Defense and NASA EPSCOR Alaska Grants and URSA Faculty Award UAF.\n- Authored market research based article on green technologies for the Technology Business Nexus.\n- Developed performance metrics for DARPA project and completed successfully.\n- During the DARPA contract management new set of compliance protocols established.\n- Coordinate with Office of Grants and Contracts and Office of Sponsored Programs for Post grant-\n management in compliance with the sponsor monitored contract protocols.

  Advanced Materials Group

  Institute of Northern Engineering

  University of Alaska Fairbanks

• 2006

  Office of Electronic Miniaturization

  UAF

  Advanced Materials Group

  Institute of Northern Engineering

  University of Alaska Fairbanks

• 1996

  physics

  Master of Science (M.S.)

  Management

  University of Alaska Fairbanks

• Higher Education

  Project Management

  PowerPoint

  Event Planning

  Spectroscopy

  University Teaching

  Physics

  Nanomaterials

  Public Speaking

  Research

  Data Analysis

  Characterization

  Program Management

  Nanotechnology

  Grant Writing

  Strategic Planning

  Analytical Skills

  Project Planning

  Thin Films

  Event Management

  Fascinating world of Nanomaterials

  Applications and Technology Hurdles in Commercial Production

  Nanoparticles

  nanowires

  nanorods and other kinds of nanostructures have been of great interest to scientific field. Semiconducting nanowires have attracted much attention due to the fact that reduced dimensional confinement of electrons

  holes and photons make them particularly attractive as potential building blocks for nanoscale optoelectronic devices

  highly quantum efficient lasers and non-linear optical converters. It is generally accepted that the low dimensional structures (where the size in one direction is equivalent to or smaller than the de Broglie wavelength) are useful materials for investigating the dependence of electrical and thermal transport or mechanical properties on the dimensionality and quantum confinement. Nanomaterials also play an important role as functional units in fabricating the electromechanical devices. Semiconductor nanostructures of different materials and shapes are investigated due to their size dependent electronic properties observable at dimensions comparable to or less than Bohr radius of exciton in these materials. Especially various oxides and sulphides have generated interests in variety of applications. In this paper

  the recent progress in various nanostructures

  paradigms in implementation and technology hurdles in implementing nanostructures are discussed

  Fascinating world of Nanomaterials

  Applications and Technology Hurdles in Commercial Production

  Nanoparticles

  nanowires

  nanorods and other kinds of nanostructures have been of great interest to scientific field. Semiconducting nanowires have attracted much attention due to the fact that reduced dimensional confinement of electrons

  holes and photons make them particularly attractive as potential building blocks for nanoscale optoelectronic devices

  highly quantum efficient lasers and non-linear optical converters. It is generally accepted that the low dimensional structures (where the size in one direction is equivalent to or smaller than the de Broglie wavelength) are useful materials for investigating the dependence of electrical and thermal transport or mechanical properties on the dimensionality and quantum confinement. Nanomaterials also play an important role as functional units in fabricating the electromechanical devices. Semiconductor nanostructures of different materials and shapes are investigated due to their size dependent electronic properties observable at dimensions comparable to or less than Bohr radius of exciton in these materials. Especially various oxides and sulphides have generated interests in variety of applications. In this paper

  the recent progress in various nanostructures

  paradigms in implementation and technology hurdles in implementing nanostructures are discussed

  Fascinating world of Nanomaterials

  Applications and Technology Hurdles in Commercial Production

  NILIMA

  HULLAVARAD