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“Education that will make a person have more compassion and humanity is the kind of education that the world needs”

- Nobel Laureates, Leymah Gbowee and Wole Soyinka -

Journal Publications

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* Corresponding Author

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29. Karmakar, S., Deepak, M. S., Nanda, O.P., Sett, A., Maity, P.C., Karmakar, G., Sha, R.,* Badhulika, S., & Bhattacharyya, T. K. (2024). 2D V2C MXene Based Flexible Gas Sensor for Highly Selective and Sensitive Toluene Detection at Room Temperature. ACS Applied Electronic Materials, DOI: https://doi.org/10.1021/acsaelm.4c00369IF:  4.7.  

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28. Karmakar, S., Sett, A., Maity, P.C., Karmakar, G., Sha, R.,* Bhattacharyya, T. K. & Lahiri, I. (2023). Room-temperature gas sensor based on 2D Ni-Co-Zn ternary oxide nanoflakes for selective and sensitive ammonia detection. Dalton Transactions, 52, 16500IF:  4.  

 

27. Karmakar, S., Sett, A., Maity, P.C., Sha, R.,* Bhattacharyya, T. K. & Lahiri, I. (2023). A highly selective room-temperature formaldehyde gas sensor based on vertically aligned 1D NiCo2O4 nanoneedles. Materials Letters, 350, 134927. IF:  3.  

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26. Sha, R.,* Vishnu, N., & Badhulika S. (2022). Single Step Synthesis of 2D Marcasite FeS2 Micro-Flowers based Electrochemical Sensor for Simultaneous Detection of Four DNA Bases. IEEE Transactions on Nanotechnology, 21, 374-379, IF:  2.4.  

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25. Rajaji, U., Govindasamy, M., Sha, R.,* Alshgari, R.A., Juang. R. S., & Liu, T. Y., (2022). Surface engineering of 3D spinel Zn3V2O8 wrapped on sulfur doped graphitic nitride composites: Investigation on the dual role of electrocatalyst for simultaneous detection of antibiotic drugs in biological fluids. Composites Part B: Engineering, 242, 110017, IF:  13.1.  

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24. Sha, R.,* Basak, A., Maity, P.C., & Badhulika S. (2022). ZnO nano-structured based devices for chemical and optical sensing applications. Sensors and Actuators Reports (Invited) , 4, 100098, IF:  5.9.  

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23. Sett, A., Rana, T., Rajaji, U., Sha, R.,* Liu, T. Y., & Bhattacharyya, T. K. (2022). Emergence of two-dimensional nanomaterials-based breath sensors for non-invasive detection of diseases. Sensors and Actuators A: Physical, 338, 113507. IF:  4.6.  

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22. Sha, R.,* Maity, P.C., Rajaji, U., Liu, T. Y., & Bhattacharyya, T. K. (2022). MoSe2 Nanostructures and Related Electrodes for Advanced Supercapacitor Developments. Journal of The Electrochemical Society, 169(1), 013503, IF:  3.9.  â€‹

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21. Sha, R., & Bhattacharyya, T. K. (2020). MoS2-based nanosensors in biomedical and environmental monitoring applications. Electrochimica Acta, 349, 136370, IF:  6.6.  

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20. Sha, R., Kadu, A., Matsumoto, K., Uno, S., & Badhulika S. (2020). Ultra-Low cost, smart sensor based on pyrite FeS2 on cellulose paper for the determination of vital plant hormone methyl jasmonate. IOP Engineering Research Express, 2(2),025020, IF: 1.7.  

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19. Sha, R., & Badhulika S. (2020). Recent advancements in fabrication of nanomaterial based biosensors for diagnosis of ovarian cancer: A comprehensive review. Microchimica Acta, 187(181), 1-15, IF: 5.7.  

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18. Veeralingam, S., Khandelwal, S., Sha, R., & Badhulika S. (2020). Direct growth of FeS2 on paper: A flexible, multifunctional platform for ultra-low cost, low power memristor and wearable non-contact breath sensor for activity detection. Materials Science in Semiconductor Processing, 108, 104910, IF:  4.1

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17. Sha, R., Vishnu, N., & Badhulika S. (2019). FeS2 grown pencil graphite as an in-expensive and non-enzymatic sensor for sensitive detection of uric acid in non-invasive samples. Electroanalysis, 31, 2397 – 2403, IF: 3

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16. Deepika J.,* Sha, R.,* & Badhulika, S. (2019). A ruthenium (IV) disulfide based non-enzymatic sensor for selective and sensitive amperometric determination of dopamine. Microchimica Acta, 186(480), 1-10, (*Equal contribution), IF: 5.7.​​

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15. Sha, R., Gopalakrishnan, A., Sreenivasulu, K. V., Srikanth, V. V. & Badhulika, S. (2019). Template-cum-catalysis free synthesis of α-MnO2 nanorods-hierarchical MoS2 microspheres composite for ultra-sensitive and selective determination of nitrite. Journal of Alloys and Compounds. 794, 26-34, IF: 6.2.

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14. Sha, R., & Badhulika, S. (2019). Few layered MoS2 grown on pencil graphite: a unique single-step approach to fabricate economical, binder-free electrode for supercapacitor applications. IOP Nanotechnology. 30(3), 035402, IF: 3.5.

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13. Sha, R., Jones, S.S., & Badhulika S. (2019). Controlled synthesis of platinum nanoflowers supported on carbon quantum dots as a highly effective catalyst for methanol electro-oxidation. Surface and Coatings Technology. 360, 400-408, IF: 5.4.

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12. Sha, R., & Badhulika, S. (2018). Facile synthesis of three-dimensional platinum nanoflowers decorated reduced graphene oxide: an ultra-high performance electro-catalyst for direct methanol fuel cells. Materials Science and Engineering B. 231, 115-120, IF:  3.6.

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11. Sha, R., Vishnu, N. & Badhulika, S. (2019).  MoS2 based ultra-low-cost, flexible, non-enzymatic and non-invasive electrochemical sensor for highly selective detection of Uric acid in human urine samples. Sensors and Actuators B: Chemical. 279, 53–60, IF: 8.4.

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10. Sha, R., Vishnu, N. & Badhulika, S. (2018).  Bimetallic Pt-Pd nanostructures supported on MoS2 as an ultra-high performance electro-catalyst for methanol oxidation and non-enzymatic detection of hydrogen peroxide. Microchimica Acta. 185 (8), 399, IF: 5.7.

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9. Sha, R., Jones, S.S., Vishnu, N., Soundiraraju, B. & Badhulika S. (2018). A novel biomass derived carbon quantum dots for sensitive and selective detection of hydrazine. Electroanalysis. 30 (10), 2228-2232, IF: 3.

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8. Sha, R., & Badhulika, S. (2018). Facile synthesis of three-dimensional platinum nanoflowers on reduced graphene oxide–Tin oxide composite: An ultra-high performance catalyst for methanol electro-oxidation. Journal of Electroanalytical Chemistry. 820, 9-17, IF: 4.5.

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7. Gopalakrishnan, A., Sha, R., Vishnu, N., Kumar, R., & Badhulika, S. (2018). Disposable, efficient and highly selective electrochemical sensor based on Cadmium oxide nanoparticles decorated screen-printed carbon electrode for ascorbic acid determination in fruit juices. Nano-Structures & Nano-Objects. 16, 96-103, IF: Pending.

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6. Sha, R., & Badhulika, S. (2018). Facile green synthesis of reduced graphene oxide/tin oxide composite for highly selective and ultra-sensitive detection of ascorbic acid. Journal of Electroanalytical Chemistry. 816, 30-37, IF: 4.5.

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5. Sha, R., Puttapati, S. K., Srikanth, V. V., & Badhulika, S. (2017). Ultra-sensitive non-enzymatic ethanol sensor based on Reduced Graphene Oxide-Zinc Oxide composite modified electrode. IEEE Sensors Journal. 18(5), 1844 – 1848, IF: 4.3.

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4. Sha, R., & Badhulika, S. (2017). Binder free Platinum nanoparticles decorated Graphene-Polyaniline composite film for high performance supercapacitor application. Electrochimica Acta. 251, 505-512, IF:  6.6.

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3. Sha, R., Komori, K., & Badhulika, S. (2017). Amperometric pH sensor based on Graphene-Polyaniline composite. IEEE Sensors Journal. 17 (16), 5038 – 5043, IF: 4.3.

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2. Sha, R., Komori, K., & Badhulika, S. (2017). Graphene–Polyaniline composite based ultra-sensitive electrochemical sensor for non-enzymatic detection of urea. Electrochimica Acta. 233, 44-51, IF:  6.6.

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1. Sha, R., Puttapati, S. K., Srikanth, V. V., & Badhulika, S. (2016). Ultra-sensitive phenol sensor based on overcoming surface fouling of reduced graphene oxide-zinc oxide composite electrode. Journal of Electroanalytical Chemistry. 785, 26-32, IF: 4.5.

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Book Chapters

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3. Sha, R.* Graphene-Based Electrochemical Sensors for Environmental Monitoring Applications. Encyclopedia of Materials: Electronics. 2023. Elsevier, Chapter # 00130 (Invited from Prof. Ravinder Dahiya, University of Glasgow). Volume 3, 199-211, DOI: 10.1016/B978-0-12-819728-8.00130-3.

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2. Sahatiya, P., Sha, R., & Badhulika, S. Flexible 2D electronics in sensors and bioanalytical applications. Handbook of Flexible and Stretchable Electronics. 2019. CRC press, ISBN: 9781138081581 - CAT# K34492. DOI: 10.1201/b22262.

 

1. Sha, R., Badhulika S., Mulchandani A. Graphene-Based Biosensors and Their Applications in Biomedical and Environmental Monitoring. In:  Springer Series on Chemical Sensors and Biosensors (Methods and Applications). 2017. Springer, Berlin, Heidelberg. DOI: 10.1007/5346_2017_9.

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Conference Proceedings / Talks

8. Karmakar, S., Sett, A., Sha, R.,* Bhattacharyya, T.K. Graphitic carbon nitride nanosheets wrapped with zinc oxide nanorods for Toluene Sensing. 33rd AGM of MRSI and the 4th Indian Materials Conclave, IIT Jodhpur, India, December 19-23, 2022, selected under the theme of ‘Materials and Devices for Sensors and Transducers’, Poster presentation.

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7. Karmakar, S., Halder, S., Maity, P.C., Mondal, M., Sha, R.,* Lahiri, I., Bhattacharyya, T.K. Zinc Incorporated 2D Nickel Cobalt Oxide Nano-Petals Based Electrode Material for High-Performance Supercapacitors. 6th IEEE-International Conference on Emerging Electronics (ICEE), Bangalore, India, December 11-14, 2022, selected under the theme of ‘Energy storage and batteries’, Poster presentation.

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6. Sha, R., Durai, L. & Badhulika, S. Facile in-situ preparation of few-layered reduced graphene oxide – niobium pentoxide composite for non-enzymatic glucose monitoring. 4th IEEE-International Conference on Emerging Electronics (ICEE), Bangalore, India, December 16-19, 2018, selected under the theme of ‘2D material’, Oral presentation.

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5. Sha, R., Badhulika, S. Green synthesis of reduced graphene oxide – tin oxide composite for non-enzymatic detection of phenol. 17th International Conference on Electroanalysis (ESEAC 2018), Rodos, Greece, June 3-7, 2018, Poster presentation.

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4. Sha, R., Badhulika, S. Binder free platinum nanoparticles decorated graphene-polyaniline composite for high performance supercapacitor application. 68th Annual meeting of International Society of Electrochemistry, Providence, Rhode Island, USA, August 27 -September 1, 2017, Oral presentation.

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3. Sha, R., Badhulika, S.  Non-enzymatic detection of urea using Graphene-Polyaniline composite, International conference of Young Researchers on Advanced Materials (IUMRS-ICYRAM), IISc, Bangalore, India, Dec 11-15, 2016, selected under the theme of ‘Biosensors’, Oral presentation.

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2. Sha, R., Mahapatra, R., & Ghatak, R. Study of microwave behaviors of cantilever RF MEMS switch. International Conference on Control, Instrumentation, Energy and Communication (CIEC), IEEE, Kolkata, India, January 31- February 02, 2014, Oral presentation.

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1. Sha, R., Ghatak, R. & Mahapatra, R. Study of Cantilever MEMS Switch using Different Beam Materials. International Conference on Emerging Technologies – Micro to Nano 2013, BITS Pilani Goa campus, India, February 23-24, 2013, pp. 189-190, Poster presentation.

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