北陸先端科学技術大学院大学 [JAIST] - 研究者総覧
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MURUGANATHAN, Manoharan (ムルガナタン マノハラン) 講師
マテリアルサイエンス系、環境・エネルギー領域

42件中1-20件目

  • 1. グラフェンを用いたナノセンサ素子による二酸化炭素分子一個の検出,水田 博,ジアン スン,マノハラン ムルガナタン,『応用物理』,第87巻, 第3号, 193 - 197, 2018
  • 2. Sub-10 nm graphene nano-ribbon tunnel field-effect transistor,A. M. M. Hammam, M. E. Schmidt, M. Muruganathan, S. Suzuki and H. Mizuta,Carbon,Vol. 126, pp. 588-593, 2017.
  • 3. Graphene Nanomechanical Resonator Mass Sensing of Mixed H2/Ar Gas,Manoharan Muruganathan, Fumihiro Seto, and Hiroshi Mizuta,International Journal of Automation Technology,Vol.12 No.1 pp. 24-28, 2018
  • 4. Structurally Controlled Large-Area 10 nm Pitch Graphene Nanomesh by Focused Helium Ion Beam Milling,M. E. Schmidt, T. Iwasaki, M. Muruganathan, M. Haque, H. Van Ngoc, S. Ogawa and H. Mizuta,ACS Applied Materials & Interfaces,10, 12, pp. 10362-10368, 2018
  • 5. Enhanced Sodium Ion Storage in Interlayer Expanded Multiwall Carbon Nanotubes,Ajay Piriya Vijaya Kumar Saroja, Manoharan Muruganathan, Kamaraj Muthusamy, Hiroshi Mizuta, and Ramaprabhu Sundara,NanoLetters,18 (9), pp 5688-5696, 2018
  • 6. Controlled Fabrication of Electrically Contacted Carbon Nanoscrolls,Marek E. Schmidt, Ahmed M.M. Hammam, Takuya Iwasaki, Teruhisa Kanzaki, Manoharan Muruganathan, Shinichi Ogawa, and Hiroshi Mizuta,Nanotechnology,Vol. 29, 235605, 2018
  • 7. Fabrication of a three-terminal graphene nanoelectromechanical switch using two-dimensional materials,Ngoc Huynh Van, Manoharan Muruganathan, Jothiramalingam Kulothungan and Hiroshi Mizuta,Nanoscale,Vol. 10, pp.12349-12355, 2018
  • 8. Comparison of Piezoelectric Energy Harvesting Performance using Silicon & Graphene Cantilever Beam,L. T. Lee, I. Yahya, M. A. Mohamed, J. Kulothungan, M. Muruganathan and H. Mizuta,Microsystem Technologies,24(9), 3783-3789, 2018
  • 9. First-Principles Calculation of a Negatively Charged Boron-Vacancy Center in Diamond,A. Kunisaki, M. Muruganathan, H. Mizuta and T. Kodera,Japanese Journal of Applied Physics,56,04CK02,2017
  • 10. Quantized conductance operation near a single-atom point contact in a polymer-based atomic switch,K. Krishnan, M. Muruganathan, T. Tsuruoka, H. Mizuta, and M. Aono,Jpn. J. App. Phys.,56, 06GF02,2017
  • 11. Theoretical Insights into the Experimental Observation of Stable p-Type Conductivity and Ferromagnetic Ordering in Vacuum-Hydrogenated TiO2,Divya Nechiyil, Manoharan Muruganathan, Hiroshi Mizuta, and Sundara Ramaprabhu,The Journal of Physical Chemistry C DOI: 10.1021/acs.jpcc.7b04397,2017
  • 12. Interaction study of nitrogen ion beam with silicon,M. E. Schmidt, X. Zhang, Y. Oshima, L. T. Anh A. Yasaka, T. Kanzaki, M. Muruganathan, M. Akabori, T. Shimoda and H. Mizuta,J. Vac. Sci.& Tech. B,35,03D101,2017
  • 13. Partial hydrogenation induced interaction in a graphene-SiO2 interface: Irreversible modulation of device characteristics,T. Iwasaki, M. Muruganathan, M. E. Schmidt and H. Mizuta,Nanoscale,9,1662-1669,2017
  • 14. Sharp switching behaviour in graphene nanoribbon p-n junction,A. M. M. Hammam, M.E. Schmidt, M. Muruganathan, H. Mizuta,Carbon,DOI: 10.1016/ j.carbon.2017.05,2017
  • 15. Single-electron quantization at high temperatures in a-few-donor quantum dot in silicon nano-transistors,Arup Samanta, Manoharan Muruganathan, Masahiro Hori, Yukinori Ono, Hiroshi Mizuta, Michiharu Tabe, Daniel Moraru,Applied Physics Letters 110, 093107, 2017
  • 16. Highly Reproducible and Regulated Conductance Quantization in a Polymer-Based Atomic Switch,K. Krishnan, M. Muruganathan, T. Tsuruoka, H. Mizuta, and M. Aono,Advanced Functional Materials,1605104,2017
  • 17. Study of dynamic contacts for graphene nano-electro-mechanical switches,W. Wang, M. Muruganathan, J. Kulothungan and H. Mizuta,Jpn. J. Appl. Phys.,56,04CK05,2017
  • 18. Three-Dimensional Finite Element Method Simulation of Perforated Graphene Nano-Electro-Mechanical (NEM) Switches,Mohd Amir Zulkefli, Mohd Ambri Mohamed, Kim S. Siow, Burhanuddin Yeop Majlis, Jothiramalingam Kulothungan, Manoharan Muruganathan and Hiroshi Mizuta,Micromachines,8,236,2017
  • 19. Stress Analysis of Perforated Graphene Nano-Electro-Mechanical (NEM) Contact Switches by 3D Finite Element Simulation,M. A. Mohamed, M. A. Zulkefli, K. S. Siow, B. Y. Majlis, J. Kulothungan, M. Muruganathan and H. Mizuta,Microsystem Technologies,2017
  • 20. Highly Functional Graphene Nano-Electromechanical (GNEM) Devices for Advanced Switch and Sensor Applications,H. Mizuta, J. Sun, M. E. Schmidt and M. Muruganathan,ECS Transactions,2016

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