Peer Reviewed Articles:
  1. J. Srivastava, and A. Gaur. "A Tight-binding Study of the Electron Transport Through Single-Walled Carbon Nanotube–Graphene Hybrid Nanostructures," J. Chem. Phys. 155, 244104 (2021).
  2. J. Srivastava, and A. Gaur. "Tight-binding Investigation of the Structural and Vibrational Properties of Graphene–Single Wall Carbon Nanotube Junctions," Nanoscale Adv. 3, 2030 (2021).
  3. J. Srivastava, S. Nahas, S. Bhowmick, and A. Gaur. "Electronic Structure and Transport in Amorphous Metal Oxide and Amorphous Metal Oxynitride Semiconductors," J. Appl. Phys. 126, 125702 (2019).
  4. J. Srivastava and A. Gaur. "Understanding Electronic Transport in Multi-component Amorphous Semiconductors," CSIT 7(2), 123-129 (2019).
  5. S. Nahas, A. Gaur, and S. Bhowmick. "First principles prediction of amorphous phases using evolutionary algorithms," J. Chem. Phys. 145, 014106 (2016).
  6. A. Gaur and M. Shim. "Substrate-enhanced O2 Adsorption and Complexity in the Raman G-band Spectra of Individual Metallic Carbon Nanotubes," Physical Review B 78, 125422 (2008).
  7. M. Shim, A. Gaur, K. T. Nguyen, D. Abdula, and T. Ozel, "Spectral Diversity in Raman G-band Modes of Metallic Carbon Nanotubes with Single Chirality," Journal of Physical Chemistry C 112, 13017 (2008).
  8. K. T. Nguyen, A. Gaur, and M. Shim, "Fano Lineshape and Phonon Softening in Single Isolated Metallic Carbon Nanotubes," Physical Review Letters 98, 145504 (2007).
  9. M. Shim, T. Ozel, A. Gaur, and C. Wang, "Insights on Charge Transfer Doping and Intrinsis Phonon Line Shape of Carbon Nanotubes by Simple Polymer Adsorption," Journal of American Chemical Society 128, 7522-7530 (2006).
  10. F. Hua, A. Gaur, Y. Sun, M. Word, J. Niu, I. Adesida, M. Shim, A. Shim and J. A. Rogers, "Processing Dependent Behavior of Soft Imprint Lithography on the 1-10 nm Scale," IEEE Transactions on Nanotechnology 5(3), 301-308 (2006).
  11. T. Ozel, A.Gaur, J A. Rogers, and M. Shim, "Polymer Electrolyte Gated Carbon Nanotube Network Transistors," Nano Letters 5, 905 (2005).
  12. S. H. Hur, C. Kocabas, A. Gaur, O. O. Park, M. Shim, and J. A. Rogers, "Printed Thin Film Transistors and Complementary Logic Gates That Use Polymer Coated Single Walled Carbon Nanotube Networks," Journal of Applied Physics 98, 114302 (2005).
  13. S. H. Hur, M.-H. Yoon, A. Gaur, M.Shim, A. Facchetti, T. J. Marks, and J. A. Rogers, "Organic Nanodielectrics for Low VOltage Carbon Nanotube Thin Film Transistors and Complementary Logic Gates," Journal of American Chemical Society 127(40), 13808-13809 (2005).
  14. C. J. Wang, Q. CAo, T. Ozel, A. Gaur, J. A. Rogers, and M. Shim, "Electronically Selective Chemical Functionalization of Carbon Nanotubes: Correlation between Raman spectral and electrical responses,"
    Journal of American Chemical Society 127(32), 11460-11468 (2005).
  15. C. Kocabas, S. H. Hur, A. Gaur, M. Meitl, M. Shim, and J. A. Rogers, "Guided Growth of Large Scale, Horizontally Aligned Single Walled Carbon Nanotubes and Their Use in Thin Film Transistors," Small 1(11), 1110-1116 (2005).
  16. E. Menard, V. Podzorov, S. H. Hur, A. Gaur, M. Gershenson, and J. A. Rogers, "High Performance n- and p-type Single-Crystal Organic Transistors with Free-space Gate Dielectrics," Advanced Materials 16(23-24), 2097-2101 (2004).
  17. C. Kocabas, M. A. Meitl, A. Gaur, M.Shim, and J. A. ROgers, "Aligned Arrays of Single Walled Carbon Nanotubes Generated from Random Networks by Orientationally Selective Laser Ablation," Nano Letters 4(12), 2421-2426 (2004).
  18. F. Hua, Y. Sun, A. Gaur, M. A. Meitl, L. Bilhaut, L. Rotkina, J. Wang, P. Geil, M. Shim, and J. A. Rogers, "Polymer Imprint Lithography with Molecular Scale Resolution," Nano Letters 4(12), 2467-2471 (2004).
  19. Y. Zhou, A. Gaur, S. H. Hur, C. Kocabas, M. A. Meitl, M. SHim, and J. A. Rogers, "p-channel, n-channel Thin Film Transistors and p-n Diodes based on Single Walled Carbon Nanotube Networks," Nano Letters 4(10), 2031-2035 (2004).
  20. M. A. Meitl, Y. Zhou, A. Gaur, S. Jeon, M. L. Usrey, M. S. Strano, and J. A. Rogers, "Solution Casting and Transfer Printing Single-Walled Carbon Nanotube Films," Nano Letters 4(9), 1643-1647 (2004).
  21. T. S. Yeoh, C. P. Liu, R. B. Swint, A. Gaur, V. C. Elarde, and J. J. Coleman, "Nano on Nano," IEEE Circuits and Devices Magazine 19(3), 26-31 (2003).
  22. T.S. Yeoh, R. B. Swint, A. Gaur, V. C. Elarde and J. J. Coleman, "Selective Growth of InAs Quantum Dots by Metalorganic Chemical Vapor Deposition," IEEE Journal of Selected Topics in Quantum Electronics 8(4), 833 (2002).
  23. Deepak, A. Gaur, and Monica Katiyar, "Blanket Tungsten: A non-isothermal approach," Materials and Manufacturing Processes 17(4), 483-492 (2002).
  24. Deepak and A. Gaur, "Role of Thermal Gradients in Blanket Tungsten for Microelectronic Application," Semiconductor Science and Technology 16, 665-675 (2001).
Conference Publications:
  1. A. Gaur, T. Ozel, and M. Shim, "Electrochemical Gating and Molecular Adsorption on Carbon Nanotubes, " 207th Electrochemical Society Meeting, Qubec City, Canada, May 15-20, 2005.
  2. Deepak, A. Gaur and Monica Katiyar, "Process Modeling to Investigate Feasibility of Non-isothermal Processing in Blanket Tungsten," Int. Conf. on Advances in Materials and Materials Processing, IIT Kharagpur, Ed. N. Chakraborti and U. K. Chatterjee, Tata McGraw-Hill Ltd., New Delhi, February 1-3, 2002.
  3. Anshu Gaur, Deepak and Prabhanjan Mishra, "Investigation of a new non-isothermal process for blanket tungsten for microelectroni interconnects," Indo-Israel Workshop on Advanced Materials, Hyderabad, February 11-13, 2001.