GJU Research Scholar Sunidhi will conduct research at US Varsity; will  receive a $7,000 fellowship

Sunidhi, a research scholar in the Department of Physics at Guru Jambheshwar University of Science and Technology, Hisar has been selected for a five-month research stint at the prestigious Michigan Technological University in the USA. During this research visit, she will also be awarded a fellowship of 7,000 US dollars by the university.

GJU Research Scholar Sunidhi will conduct research at US Varsity; will  receive a $7,000 fellowship

Hisar, July 17, 2026: Sunidhi, a research scholar in the Department of Physics at Guru Jambheshwar University of Science and Technology, Hisar has been selected for a five-month research stint at the prestigious Michigan Technological University in the USA. During this research visit, she will also be awarded a fellowship of 7,000 US dollars by the university.

Congratulating Sunidhi, her research supervisor, and the Department of Physics on this achievement, Vice-Chancellor Prof. Narsi Ram Bishnoi stated that this milestone is not only significant for Sunidhi's academic career but also a matter of great pride for the university. He remarked that such international research opportunities would give new momentum to the university's global research collaborations, academic reputation, and international rankings. Registrar Dr. Vijay Kumar also congratulated Sunidhi.

Prof. Sujata Sanghi, Dean of the Faculty of Physical Sciences and Technology, and Prof. Rajendra Kundu, Head of the Department of Physics, described this as a moment of immense pride for the department.

Expressing happiness over this achievement, Dr. Hardev Saini, Associate Professor and PhD supervisor in the Department of Physics, explained that Sunidhi would conduct research on the topic "Computational Investigation of Optical Properties of Graphene-Based Flex" at the American university. Under this project, state-of-the-art computational techniques will be used to study how changes in the size, internal structure, and electronic properties of graphene-based nanostructures influence their optical behavior. This research could make significant contributions to the future development of high-efficiency optoelectronic devices, flexible electronics, and next-generation solar energy technologies.