CV:
Address:
Room W 145G, Nebraska Hall, University of Nebraska-Lincoln (City Campus),1400 R St, Lincoln, NE 68588.
Please feel free to contact me if you are interested in joining our group for PhD program or doing collaboration.
Website:
https://www.linkedin.com/in/kamran-keramatnejad-67a188109/
Research Interests:
- Design and fabrication of novel devices with Carbon-based nanomaterials for achieving superior electrical properties. - Laser-processing of low-dimensional materials. - Femtosecond laser drilling of metals. - Laser-assisted growth of thin films. - Porous silicon-based UV detectors.
Biography:
Kamran Keramatnejad is PhD candidate of Electrical Engineering at UNL since 2013, doing research on electrical properties of Carbon-based materials and their interaction with lasers. Prior to starting his PhD study, Kamran served as the lecturer for graduate courses such as "Semiconductor Devices" and "Theory and Technology of Fabrication of Semiconductor Devices" in Amirkabir University of Technology, Tehran, Iran, both during his Msc studies and after graduation. He has been frequently involved in other educational tasks such as teacher's assistantship, tutoring, and advising since his undergraduate studies. In addition, Kamran has the experience of preparing successful white papers and collaborating with industrial companies such as Conductix-Wamplfer in an effort to link the science behind his research to the real cases of its application in industry. He is the a recipient of the Milton Mohr graduate fellowship (2015). He has also won the 3rd place in Best Student Paper Award at ICALEO conference (2015).
Education:
BSc: Electrical Engineering (Electronics)- Isfahan University of Technology (Sep 2006- Sep 2010)
Msc: Applied Micro Electronics- Amirkabir University of Technology (Sep 2010- May 2013)
Students Advised:
Lydia Wemhoff (2014, Summer research program)
Journal Publications:
| 2018 | Fan, Lisha, Loic Constantin, Dawei Li, Lei Liu, Kamran Keramatnejad, Clio Azina, Xi Huang et al. "Ultraviolet laser photolysis of hydrocarbons for nondiamond carbon suppression in chemical vapor deposition of diamond films." Light: Science & Applications (2018). |
| 2017 | Li, Dawei, Lijia Jiang, Zhiyong Xiao, H. Rabiee Golgir, Xi Huang et al. " Large-Area 2D/3D MoS2-MoO2 Heterostructures with Thermally Stable Exciton and Intriguing Electrical Transport Behaviors." Advanced Electronic Materials (2017). |
| 2017 | Keramatnejad, K, Li, Dawei, H. Rabiee Golgir, Xi Huang et al. " Laser-assisted Nanowelding of Graphene to Metals: An Optical Approach towards Ultralow Contact Resistance" Advanced Materials Interfaces, (2017). |
| 2017 | K. Keramatnejad, H. Rabiee Golgir, F. Khorramshahi, S. Khatamie, and F. Raissi “Porous PtSi/Si Schottky detector: A new solution for highly selective and sensitive UV detection”. Submitted to Journal of Applied Physics. (2017). |
| 2017 | Hossein Rabiee Golgir, Dawei Li, Kamran Keramatnejad, Qi Ming Zou, Jun Xiao, Fei Wang, Lan Jiang, Jean-Francois Silvain, and Yongfeng Lu "Fast Growth of GaN Epilayers via Laser-Assisted Metal Organic Chemical Vapor Deposition for Ultraviolet Photodetector Applications", ACS Appl. Mater. Interfaces, 2017. |
| 2017 | D.W. Li, Q.M. Zou,H. Rabiee-Golgir, K. Keramatnejad , X. Huang, J. Song, Z. Xiao, L. Fan, X. Hong, L. Jiang, J. silvain, S. Sunand Y. Lu "Controlled defect creation and removal in graphene and MoS 2 monolayer", Nanoscale, 2017. |
| 2017 | Zou, Qi Ming, Leimin Deng, Dawei Li, Yunshen Zhou, Hossein Rabiee Golgir, Kamran Keramatnejad, Li Sha Fan, Lan Jiang, Jean-Francois Silvain, and Yongfeng Lu. "Thermally Stable and Electrically Conductive, Vertically Aligned Carbon Nanotube/Silicon Infiltrated Composite Structures for High-Temperature Electrodes." ACS Applied Materials & Interfaces (2017). |
| 2014 | H. Rabiee Golgir, Y. Gao, Y. S. Zhou, L. S. Fan, P. Thirugnanam, K. Keramatnejad, and Y. F. Lu, “Low-Temperature Growth of Crystalline Gallium Nitride Films Using Vibrational Excitation of Ammonia Molecules in Laser-Assisted Metal Organic Chemical Vapor Deposition”, ACS Cryst. Growth Des., DOI: 10.1021/cg500862b (2014) |