| Issue Date | Title | Author(s) |
| 2024-02 | Advances in ferrofluid-based triboelectric nanogenerators: Design, performance, and prospects for energy harvesting applications | Kulandaivel, Anu; Potu, Supraja; Babu, Anjaly; Madathil, Navaneeth; Velpula, Mahesh; Rajaboina, Rakesh Kumar; Khanapuram, Uday Kumar |
| 2021 | Characteristics of 2D ZnO-based piezoelectric nanogenerator and its application in non-destructive material discrimination | Supraja, P; Ravi Sankar, P; Rajaboina, Rakesh Kumar; Prakash, K; Jayarambabu, N; Rao, T Venkatappa |
| 2023-11 | Facile Direct Growth of ZIF-67 Metal–Organic Framework for Triboelectric Nanogenerators and Their Application in the Internet of Vehicles | Babu, Anjaly; Bochu, Lakshakoti; Potu, Supraja; Kaja, Ruthvik; Madathil, Navaneeth; Velpula, Mahesh; Kulandaivel, Anu; Khanapuram, Uday Kumar; Rajaboina, Rakesh Kumar; Divi, Haranath; Kodali, Prakash; Ketharachapalli, Balaji; Ammanabrolu, Rajanikanth |
| 2025-05 | Functionalized MIL-125(Ti) Based High-Performance Triboelectric Nanogenerators for Hygiene Monitoring | Babu, Anjaly; Navaneeth, M.; Rajaboina, Rakesh Kumar; Borkar, Hitesh; Devarayapalli, K. C.; Mishra, Yogendra K.; Hajra, Sugato; Kim, Hoe Joon; Uday Kumar, Khanapuram; Sung Lee, Dae |
| 2025 | Harvesting energy from friction: the revolutionary decade of triboelectric nanogenerators | Khanapurarm, Uday Kumar; Rani, Gokana Mohana Ranib; Panda, Swati; Charoonsuk, Thitirat; Mistewicz, Krystian; Hajra, Sugato; Kaja, Kushal Ruthvik; Umapathi, Reddicherla; Sriphan, Saichon; Jała, Jakub; Divi, Haranath; Smalcerz, Albert; Belal, Mohamed; Jaahnavi, Pannur; Safarkhani, Moein; Kim, Hanseung; Mishra, Yogendra Kumar; Kim, Hoe Joon; Huh, Yun Suk; Vittayakorn, Naratip; Nowacki, Bartłomiej; Ravi, Sai Kishore; Eichhorn, Stephen James; Craciun, Monica, F.; Borras, Ana; Khanbareh, Hamideh; Qin, Jiaqian; Rajaboina, Rakesh Kumar |
| 2022-06 | A novel ZnS nanosheets-based triboelectric nanogenerator and its applications in sensing, self-powered electronics, and digital systems | Mishra, Siju; Potu, Supraja; Puppala, Ravi Sankar; Rajaboina, Rakesh Kumar; Kodali, Prakash; Divi, Haranath |
| 2022-08 | Plant-based triboelectric nanogenerator for biomechanical energy harvesting | Babu, Anjaly; Rakesh, D.; Supraja, P.; Mishra, Siju; Uday Kumar, K.; Rajaboina, Rakesh Kumar; Haranath, D.; Mamidala, Estari; Nagapuri, Raju |
| 2021 | A simple and low-cost approach for the synthesis and fabrication of ZnO nanosheet-based nanogenerator for energy harvesting and sensing | Supraja, P; Rajaboina, Rakesh Kumar; Mishra, Siju; Haranath, D; Ravi Sankar, P; Prakash, K |
| 2022-03 | A simple and low-cost triboelectric nanogenerator based on two dimensional ZnO nanosheets and its application in portable electronics | Supraja, P.; Rajaboina, Rakesh Kumar; Mishra, Siju; Haranath, D.; Ravi Sankar, P.; Prakash, K.; Jayarambabu, N.; Venkatappa Rao, T.; Uday Kumar, K. |
| 2023-02 | Study of ZnO nanosheets growth parameters effect on the performance of the triboelectric nanogenerator | P. Supraja, P.; Navaneeth, M.; Mishra, Siju; Haranath, D.; Uday Kumar, K.; Rajaboina, Rakesh Kumar |
| 2024-12 | Sustainable energy harvesting from medical waste: Utilizing discarded ointment tubes in triboelectric nanogenerators | Lakshmi Suneetha, V.; Supraja, P.; Uday Kumar, K.; Rajaboina, Rakesh Kumar |
| 2021 | A triboelectric nanogenerator based on food packaging Aluminium foil and Parafilm for self-powered electronics | Ravi Sankar, P; Prakash, K; Supraja, P; Rajaboina, Rakesh Kumar; Mishra, Siju; Haranath, D |
| 2025 | Upcycling Medical Tablet Blister Waste into High-Performance Triboelectric Nanogenerators for Sustainable Energy Harvesting | Suneetha, Vikram Lakshmi; Mahesh, Velpula; Uday Kumar, Khanapuram; Rajaboina, Rakesh Kumar |
| 2023-11 | Wood plastic composites (WPC) waste based triboelectric nanogenerator for mechanical energy harvesting and self-powered applications | Lakshmi Sunitha, V.; Supraja, P.; Durga Prasad, K.A.K.; Navaneeth, M.; Babu, Anjaly; Mahesh, V.; Uday Kumar, K.; Haranath, D.; Rajaboina, Rakesh Kumar |
