2022 Повышение квалификации: Самарский университет, Навыки оказания первой помощи
2018 Повышение квалификации: Самарский университет, Методы и техники работы на спектрофотометре UV-2450 и ИК-Фурье спектрометре IRPrestige-21 фирмы "Shimadzu"
2022 Повышение квалификации: Самарский университет, Инклюзивное профессиональное образование
2024
1Galeeva E.V., Galeev R.R., Sharma P. etc. Development and validation of a portable gas chromatograph method for quantitative determination of oxygen and toxic gas impurities in medical oxygen using planar microchromatographic columns and detectors // Analytical Science and Technology 2024. — Vol. 37. Issue 5. № 5. — P. 261-270
3Rymzhina A.R., Andreev I.A., Temirbulatov A. etc. Study of Some TMCs Heterostructures Band Diagrams for Photonics Applications // 2024 10th International Conference on Information Technology and Nanotechnology, ITNT 2024. — 2024. —
2023
1Rymzhina A., Tripathi N., Sharma P. etc. Advanced fibers for photocatalysis application // Fiber Materials: Design, Fabrication and Applications 2023. — P. 219-257
2Kumar S., Meng G., Mishra P. etc. A systematic review on 2D MoS2 for nitrogen dioxide (NO2) sensing at room temperature // Materials Today Communications 2023. — Vol. 34.
3Gorshkova A., Gorshkov M., Tripathi N. etc. Enhancement in NO2 sensing properties of SWNTs: A detailed analysis on functionalization of SWNTs with Z-Gly-OH // Journal of Materials Science: Materials in Electronics 2023. — Vol. 34. Issue 2. № 2.
4Talib M., Tripathi N., Manzoor S. etc. TiS3 Nanoribbons: A Novel Material for Ultra-Sensitive Photodetection across Extreme Temperature Ranges // Sensors (Switzerland) 2023. — Vol. 23. Issue 10. № 10.
5Talib M., Manzoor S., Sharma P. etc. Development of high-performance broadband optical detector for cryogenic to elevated operating temperature // Materials Science in Semiconductor Processing 2023. — Vol. 158.
6Rymzhina A., Sharma P., Pavelyev V. etc. Recent trends in the fabrication of photodetectors: A detailed analysis on the photodetection properties of new 2D-TMCs // Materials Today Communications 2023. — Vol. 35.
2022
1Singh J., Sharma P., Tripathi N. etc. Synthesis of highly sensitive nanomaterial for ultra-fast photocatalytic activity: A detailed study on photocatalytic capabilities of rod-shaped TiS3 nanostructures // Catalysis Communications 2022. — Vol. 162.
2Platonov V., Sharma P., Ledyaev M. etc. Realization of Microfluidic Preconcentrator for N-Pentane Traces Impurities from the Gaseous Media // Materials 2022. — Vol. 15. Issue 22. № 22.
3Tripathi N., Sharma P., Pavelyev V. etc. A Detailed Study on Carbon Nanotubes: Properties, Synthesis, and Characterization // Chemically Modified Carbon Nanotubes for Commercial Applications 2022. — P. 3-49
4Pavelyev V., Tripathi N.Optical Characterization of Nanomaterials-II // Synthesis and Applications of Nanoparticles 2022. — P. 151-176
5Pavelyev V., Sharma P., Rymzhina A. etc. Advances in transition metal dichalcogenides-based flexible photodetectors // Journal of Materials Science: Materials in Electronics 2022. — Vol. 33. Issue 32. № 32. — P. 24397-24433
2021
1Talib M., Tripathi N., Sharma P. etc. Development of ultra-sensitive broadband photodetector: a detailed study on hidden photodetection-properties of TiS2 nanosheets // Journal of Materials Research and Technology 2021. — Vol. 14. — P. 1243-1254
2Tripathi N., Pavelyev V., Sharma P. etc. Review of titanium trisulfide (TiS3): A novel material for next generation electronic and optical devices // Materials Science in Semiconductor Processing 2021. — Vol. 127.
3S. , Tripathi N., Sharma P. etc. Development of transition metal dichalcogenides for modern photodetector devices // Proceedings of ITNT 2021 - 7th IEEE International Conference on Information Technology and Nanotechnology. — 2021. —
2020
1Sharma P., Pavelyev V., S. etc. Analysis on the synthesis of vertically aligned carbon nanotubes: growth mechanism and techniques // Journal of Materials Science: Materials in Electronics 2020. — Vol. 31. Issue 6. — P. 4399-4443
2S. , Pavelyev V., Mishra P. etc. A review on 2D transition metal di-chalcogenides and metal oxide nanostructures based NO2 gas sensors // Materials Science in Semiconductor Processing 2020. — Vol. 107.
3Pavelyev V.S., Tukmakov K.N., Agafonov A.N. etc. Technologies of microsystem technique and nanosensorics // IOP Conference Series: Materials Science and Engineering. — 2020. — Vol. 984. Issue 1.
4Tripathi N., Pavelyev V., Mezhenin A. V. etc. Graphene-based Infrared Radiation Sensor for Household Electronic Applications // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
5Tripathi N., Pavelyev V.S., Mezhenin A.V. etc. Development of infrared radiation sensor for household electronic applications // VI Международная конференция и молодёжная школа «Информационные технологии и нанотехнологии» (ИТНТ-2020). — 2020. — Vol. 1. — P. 853-856
6S. , Pavelyev V., Mishra P. etc. Thin film chemiresistive gas sensor on single-walled carbon nanotubes-functionalized with polyethylenimine (PEI) for NO 2 gas sensing // Bulletin of Materials Science 2020. — Vol. 43. Issue 1.
7S. , Pavelyev V., Tripathi N. etc. Review-recent advances in the development of carbon nanotubes based flexible sensors // JOURNAL OF THE ELECTROCHEMICAL SOCIETY 2020. — Vol. 167. Issue 4.
2019
1Singh J., Tripathi N., Mohapatra S. Synthesis of Ag–TiO 2 hybrid nanoparticles with enhanced photocatalytic activity by a facile wet chemical method // Nano-Structures and Nano-Objects 2019. — Vol. 18.
2Tripathi N., Pavelyev V.S., Mezhenin A. V. etc. A complex study of the structure "carbon nanotubes-silicon substrate" photoconductivity mechanism // Journal of Physics: Conference Series. — 2019. — Vol. 1368. Issue 2.
3Tripathi N., Pavelyev V.S., But V. S. etc. Analysis and optimization of photonics devices manufacturing technologies based on Carbon Nanotubes // Journal of Physics: Conference Series. — 2019. — Vol. 1368. Issue 2.
2018
1Tripathi, N, Pavelyev, V, Islam, S. S. Tunable growth of single-wall CNTs by monitoring temperature increasing rate // International Nano Letters 2018. — Vol. 8. Issue 2. — P. 101-109
2Pavelyev V.S., Tripathi N., Mishra P. etc. CNT-based IR-sensor // Journal of Physics: Conference Series. — 2018. — Vol. 1096. Issue 1.
3S. , Pavelyev V., Mishra P. etc. A review on сhemiresistive gas sensors based on carbon nanotubes: Device and technology transformation // Sensors and Actuators, A: Physical 2018. — Vol. 283. — P. 174-186
2017
1Tripathi N., Islam S.S. A new approach for orientation-controlled growth of CNTs: an in-depth analysis on the role of oxygen plasma treatment to catalyst // Applied Nanoscience (Switzerland) 2017. — Vol. 7. Issue 3-4. — P. 125-129
2Tripathi N., Pavelyev V., Islam S.S. Synthesis of carbon nanotubes using green plant extract as catalyst: Unconventional concept and its realization // Applied Nanoscience (Switzerland) 2017. — Vol. 7. Issue 8. — P. 557-566
3S. , Pavelyev V., Mishra P. etc. Sensitive detection of nitrogen dioxide using gold nanoparticles decorated single walled carbon nanotubes // CEUR Workshop Proceedings. — 2017. — Vol. 1900. — P. 74-77
4Sharma P., Tripathi N., Gupta N. Nanocrystalline silicon thin film prepared by e-beam evaporation for display application // Journal of Materials Science: Materials in Electronics 2017. — Vol. 28. Issue 4. — P. 3891-3896
2016
1Tripathi N., Moinuddin M.G., Islam S.S. Growth of SWNTs using Cu(NO3)2 and CuO a systematic study on role of oxygen in growth of CNTs // 12th IEEE International Conference Electronics, Energy, Environment, Communication, Computer, Control: (E3-C3), INDICON 2015. — 2016. —
2015
1Tripathi N., Mishra P., Harsh H. etc. Fine-tuning control on CNT diameter distribution, length and density using thermal CVD growth at atmospheric pressure: an in-depth analysis on the role of flow rate and flow duration of acetylene (C2H2) gas // Applied Nanoscience (Switzerland) 2015. — Vol. 5. Issue 1. — P. 19-28
2Tripathi N., Mishra P., Joshi B. etc. Precise control over physical characteristics of carbon nanotubes by differential variation of Argon flow rate during chemical vapor deposition processing: A systematic study on growth kinetics // Materials Science in Semiconductor Processing 2015. — Vol. 35. — P. 207-215
2014
1Tripathi N., Mishra P., Joshi B. etc. Catalyst free, excellent quality and narrow diameter of CNT growth on Al2O3 by a thermal CVD technique // Physica E: Low-Dimensional Systems and Nanostructures 2014. — Vol. 62. — P. 43-47
2Tripathi N., Mishra P., Joshi B. etc. A systematic study on growth of CNTs with liquid chemical salts as catalysts: A fine control on orientation of CNTs // Advanced Science Letters 2014. — Vol. 20. Issue 7-9. — P. 1612-1615
3Mishra P., Sehrawat P., Tripathi N. etc. Purification and dispersion of chemically functionalized SWNTs by using dimethylformamide solution // Advanced Science Letters 2014. — Vol. 20. Issue 7-9. — P. 1545-1547