Kaveh Bakhtari Ph.D.
His research focuses on numerical analysis of processes that will enable high-rate/high-volume assembly of nanoelements (such as carbon nanotubes, nanoparticles, etc.). EducationKaveh Bakhtari, Ph.D. received his B.S degree in aerospace engineering from Sharif University of Technology, Iran in 1999 and his MS and Ph.D. in mechanical engineering from Northeastern University, Boston in 2002 and 2006, respectively.Career HighlightsHe is a Post-Doctoral Research Associate at the Center for High-rate Nanomanufacturing (CHN) a National Science Foundation Nano Scale and Engineering Center (NSEC) at Northeastern University.He has also been involved with the Center for Microcontamination Control (CMC), an NSF Industry/University Cooperative Research Center at Northeastern, where he has worked on particle deposition control and removal projects for companies such as Seagate Technology, Brooks Automation Inc., Intel, and PCT Systems Inc. |
By this ResearcherRelated ContentAuthor Interview: Nano-Semiconductors: Devices and TechnologyNanoScienceWorks.org looks at the dynamic area of nano-semoconductors, and how these tiny devices are fundamentally changing the worlds of computing and communications. We speak with the author of Nano-Semiconductor: Devices and Technology, Dr. Krzysztof Iniewski, who manages R&D developments at Redlen Technologies, Inc., a start-up firm in British Columbia, Canada. His research interests are in VLSI circuits for medical and security applications.
UCLA Team Develops Graphene-Based SupercapacitorResearchers at University of California at Los Angeles (UCLA) have developed a supercapacitor or electrochemical capacitor (EC) composed of an expanded network of graphene — a one-atom-thick layer of graphitic carbon. The team demonstrated excellent mechanical and electrical properties as well as exceptionally high surface area.
MIT Team Controls Size, Composition of Individual NanowiresA team of MIT researchers has found a way of precisely controlling the width and composition of nanowires as they grow, making it possible to grow complex structures designed for particular applications.
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CRC Press — 2010 NanoScience and CleanTech catalog
