Prof Dr. Rohollah Talebitooti | Energy Harvesting | Best Researcher Award
PHD at Iran University science and technology, Iran
Dr. Roohollah Talebitooti is a Full Professor at the Iran University of Science and Technology, specializing in mechanical engineering with a focus on vibro-acoustics, structural vibration, and noise control. He earned his Ph.D., M.Sc., and B.Sc. from IUST. Dr. Talebitooti’s research includes sound transmission, wave propagation, and energy harvesting from structural vibrations. He has held numerous administrative roles, including Director of Post Graduate Studies and Head of the Aerospace Engineering Group. Recognized in the top 2% of most cited scientists since 2020, he continues to contribute significantly to his field.
Professional Profiles
Education
Ph.D., Iran University of Science and Technology, IRAN (2009) M.Sc., Iran University of Science and Technology, IRAN (2004) B.Sc., Iran University of Science and Technology, IRAN (2002)
Experience
Secretary of the Recruitment Board (2022-present): Iran University of Science and Technology Director of Post Graduate Studies (2021-present): IUST Director of Noise and Control Research Lab (2015-present): School of Mechanical Engineering, IUST Head of Aerospace Engineering Group (2019-2021): School of Mechanical Engineering, IUST Director of Research Affairs (2017-2019): School of Mechanical Engineering, IUST Director of B.Sc. Projects Office (2014-2017): School of Mechanical Engineering, IUST Associate Professor (2013-present): School of Mechanical Engineering, IUSTquantum computing
Honors and Awards:
First Rank Student Award, IUST (1999) Outstanding Student Award, IUST (1999, 2001, 2002, 2004) 3rd Position Award, Young Researcher Club (2002) Named in top 2 percent of the most cited scientists (2020-present)
Research Interests
Vibro-Acoustics of plates and shells Structural vibration and stability of plates and shells Vibration and noise controls Energy harvesting from vibration of structures
Research Focus
Dr. Roohollah Talebitooti’s research focuses on the acoustic and vibrational analysis of advanced materials and structures. His work includes studying the acoustic performance of multilayered cylinders, the effects of external pressures and thermal conditions on aerospace composites, and sound transmission through various materials.
Publications
- CNT-woven glass fiber laminated composite for folded plate application: 2D-GDQ and Experimental study, Publication date: 2024.
- Hygrothermal vibro-buckling of FG ceramic-steel porous consolidated conical-conical shells, Publication date: 2024.
- A comparative study on vibration suppression and energy harvesting via mono-, bi-, and tri-stable piezoelectric nonlinear energy sinks, Publication date: 2024.
- Improving soundproof characteristics of an FG-CNT–reinforced composite structure by adding a coating magneto-electro-elastic layer, Publication date: 2024.
- On the frequency characteristics of rotating combined conical-conical shells made of FG-CNTRC composite materials under thermal environments, Publication date: 2024.
- The exact characteristic equation of frequency and mode shape for transverse vibrations of non-uniform and non-homogeneous Euler Bernoulli beam with general non-classical, Publication date: 2023.
- On size-dependent nonlinear forced dynamics of MRE-cored sandwich micro-pipes in presence of moving flow and harmonic excitation, Publication date: 2023.
- A unique and comprehensive approach to investigate the transverse free vibration of non-uniform and functionally graded Euler–Bernoulli beams, Publication date: 2023.
- Applying a 3D Re-Entrant Auxetic Cellular Core to a Graphene Nanoplatelet–Reinforced Doubly Curved Structure: A Sound Transmission Loss Study, Publication date: 2023.
- Acoustic insulation characteristics improvement of a thick CNT-reinforced doubly-curved shell by using GPLRC and MEE composite layers, Publication date: 2023.