B.Tech: – Electronics and Communication Engineering ,Jawaharlal Nehru Technological University, Anantapur, India
M.Tech: – Computers & Communications
Jawaharlal Nehru Technological University, Kakinada, India
Ph.D: – Electrical and Electronics Engineering Birla Institute of Technology & Sciences (BITS) – Pilani Hyderabad Campus, India.
Teaching Experience – 6 Years
JNTU Registration No –
Ratification Status –
- 0D & 2D nanomaterials Synthesis (Hydrothermal, Solvothermal, Sonication, CVD)
- Fabrication of Transient flexible sensors and devices.
- Machine learning & Deep learning
- Machine learning & Deep learning.
- Image processing
- Bokka, N., Selamneni, V., & Sahatiya, P. (2020). A water destructible SnS2 QD/PVA film based transient multifunctional sensor and machine learning assisted stimulus identification for non-invasive personal care diagnostics. Materials Advances, 1(8), 2818-2830. [DOI:
10.1039/D0MA00573H] - Adepu, V., Bokka, N., Mattela, V., & Sahatiya, P. (2021). A highly electropositive ReS2 based ultra-sensitive flexible humidity sensor for multifunctional applications. New Journal of Chemistry, 45(13), 5855-5862.[DOI: https://doi.org/10.1039/D1NJ00064K]
- Bokka, N., Adepu, V., Selamneni, V., & Sahatiya, P. (2021). Non-contact, controlled and moisture triggered black phosphorus quantum dots/PVA film for transient electronics applications. Materials Letters, 290, 129477.
[https://doi.org/10.1016/j.matlet.2021.129477] - Selamneni, V., Gohel, K., Bokka, N., Sharma, S., & Sahatiya, P. (2020). MoS2-Based Multifunctional Sensor for Both Chemical and Physical Stimuli and Their Classification Using
Machine Learning Algorithms. IEEE Sensors Journal, 21(3), 3694-3701.
[10.1109/JSEN.2020.3023309] - Bokka, N., Karhade, J., & Sahatiya, P. (2021). Deep learning enabled classification of realtime respiration signals acquired by MoSSe quantum dot-based flexible sensors. Journal of Materials Chemistry B, 9(34), 6870-6880. [https://doi.org/10.1039/D1TB01237A]
- Bokka, N., Adepu, V., Tiwari, A., Kanungo, S., & Sahatiya, P. (2022). A detailed comparative performance analysis of the Transition Metal Di-chalcogenides (TMDs) based strain sensors through experimental realisations and first principle calculations. FlatChem, 32, 100344.
[https://doi.org/10.1016/j.flatc.2022.100344] - Bokka, N., Selamneni, V., Adepu, V., Jajjara, S., & Sahatiya, P. (2021). Water Soluble Flexible and Wearable Electronic Devices: A Review. Flexible and Printed Electronics.
[10.1088/2058-8585/ac3c35] - Bokka, N., Ganeshan, S. K., & Sahatiya, P. (2021). Large area deposition of Janus MoS2x Se2 (x− 1) on paper as a multifunctional electromechanical sensor for versatile physiological signal
monitoring. Flexible and Printed Electronics, 6(1), 015011. [10.1088/2058-8585/abe916] - Bokka, N., Khush Mahendrakumar, G., & Sahatiya, P. (2022). A water‐soluble micropatterned MoS2 quantum dots/polyvinyl alcohol film as a transient contact (pressure) and non‐contact (humidity) as touch and proximity sensor. Journal of Applied Polymer Science, 139(9), 51711. [https://doi.org/10.1002/app.51711]
- Bokka, N., Adepu, V., & Sahatiya, P. (2022). Sublimation of MXene/camphor device: a study on self–destructive dry transiency. Materials Advances. [10.1039/D1MA00873K]
- Amogh, B. S., Selamneni, V., Bokka, N., & Sahatiya, P. (2021). Remarkably Stable Black Phosphorus Quantum Dots-Polyvinyl Alcohol Film as a Water Soluble Breath Sensor. IEEE Transactions on Electron Devices, 68(10), 5167-5172. [10.1109/TED.2021.3105572]
- Bokka, N., Som, D., Kanungo, S., & Sahatiya, P. (2021). Investigation of the Transduction Mechanism of Few Layer SnS₂ for Pressure and Strain Sensing: Experimental Correlation With First Principles Study. IEEE Sensors Journal, 21(15), 17254-17261.
[10.1109/JSEN.2021.3082429] - Bokka, N., & Sahatiya, P. (2022). Heat and light triggered mechanical destruction of 2D materials based electronic devices fabricated on wax substrate. FlatChem, 35, 100423.
[https://doi.org/10.1016/j.flatc.2022.100423] - Sindhu, B., Bokka, N., Bahadursha, N., Kanungo, S., Sahatiya, P., & Nandi, S. (2023). Heat triggered Wax/NiSe2 based transient microstrip antenna for pressure sensing applications. Materials Science in Semiconductor Processing, 166, 107730.
- Adepu, V., Bokka, N., Selamneni, V., Paramasivan, T. G., & Sahatiya, P. (2023). Flexible and Wearable Strain/Pressure Sensors.
- Naveen Bokka, Debapriya Som, Sayan Kanungo, Parikshit Sahatya, “Fabrication of Few Layer SnS2 Based Flexible Pressure and Strain Sensor and Understanding the Transduction through First
Principles Calculations”, IEEE-ICEE 2020, 5th International Conference on Emerging Electronics,Indian Institute of Technology Delhi, India. (Presented) - Naveen Bokka, Gohel Khush Mahendrakumar, and Parikshit Sahatiya, “A Water Soluble Micro patterned MoS2 QDs/PVA film as a Transient Pressure Sensor”, IEEE Nano 2021, The 21st IEEE International Conference on Nanotechnology, Canada. (Presented)
Page 4 of 4 Naveen Bokka: Curriculum Vitae - Naveen Bokka, Parikshit Sahatya “Heat and Light triggered Mechanical Destruction of Electronics”, IWPSD 2021, Indian Institute of Technology Delhi, India. (Presented)
- Selamneni, V., Bokka, N., Adepu, V., & Sahatiya, P. (2021). Carbon Nanomaterials for Emerging Electronic Devices and Sensors. In Carbon Nanomaterial Electronics: Devices and Applications (pp. 215-258). Springer, Singapore.
- Title: Thermally triggered Transient field effect transistor with wax dielectric (Inventors: Naveen
Bokka, Dr. Parikshit Sahatiya), Indian patent filed, Application No: 202111046524.
