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  1. Singh, S.P., Jashrapuria, K. (2025) Biofilm Inhibition by Laser‑Induced Graphene: Impact of Surface Texture on Rod‑Shaped E. coli and Coccus‑Shaped Staphylococcus. ACS Applied Materials & Interfaces.

  2. N. Dixit, A.M. Nair, S.P. Singh. (2025) Enhanced bacterial and virus disinfection with copper nanoparticle optimized LIG composite electrodes and filters. Journal of Environmental Sciences.

  3. A. Ahmad, P. Kumar, S.P. Singh. (2025) Recent advancements in heterogeneous cathode catalysts for in‑situ hydrogen peroxide synthesis

  4. U. Misra, N.H. Barbhuiya, N. Dixit, S.P. Singh. (2025) Photothermal and Joule Heating for Interfacial Evaporation… ACS Applied Engineering Materials.

  5. N. Dixit, A.M. Nair, A.N. Desai, V. Ramadesigan, S.P. Singh. (2025) Locally amplified electric field in laser‑induced graphene surfaces

  6. U. Misra, A. Kumar, S.P. Singh. & A. Kumar, U. Misra, S.P. Singh. (2025) Graphene Derivatives Synthesis & Arc‑Driven in Situ Fabrication of Titanium Suboxide Composite

  7. B. Kanwar, A. Shriwastav, S.P. Singh. (2025) Current status of hybrid membrane reactors and processes for wastewater treatment: a review.

  8. M. Koli, S.P. Singh. (2025) Fabrication of aluminum metal‑organic framework and poly‑ether sulfone composite ultrafiltration membrane Separation and Purification Technology.

  9. B. Kanwar, M. Koli, S.P. Singh. (2024) Antibiotic amoxicillin degradation by electrochemical oxidation process Environmental Science and Pollution Research.

  10. Dixit, N., Nair M. Akhila; Singh, S. P. (2024).Enhanced Enhanced Bacterial and Virus Disinfection with Copper Nanoparticle optimized LIG Composite Electrodes and Filters. Journal of Environmental Sciences 

  11. Kumar, P., Nawaz, T., & Singh, S. P (2024). Evaluation and optimization of electrocoagulation process parameters for the treatment of oil industry drill site wastewater Environmental Science and Pollution Research. 

  12. Barbhuiya, N. H.; Singh, S. P. Ex-situ and In-situ Organic Fouling Monitoring in Laser-induced Graphene-Based Electroconductive Membranes for Desalination and Wastewater Treatment. ACS App. Nano Mat. 2024. 

  13. Barbhuiya, N. H.; Nair, A. M.; Dixit, N.; Singh, S. P. Iron Nanoparticles Incorporated Laser-Induced Graphene Filters for Environmental Remediation via In-situ Electro-Fenton Process. ACS Omega 2024. 

  14. Barbhuiya, N. H.; Misra, U.; Kanwar, B.; Singh, S. P. Persulfate Enhanced Ciprofloxacin Removal from Water by Laser-Induced Graphene-Based Electroconductive Ultrafiltration Membrane. Environ. Sci.: Water Res. Technol. 2024, 10 (2), 442-456. 

  15. Misra, U.; Barbhuiya, N.H.; Rather Z.H.; Singh, S.P.# (2024) Solar interfacial evaporation devices for desalination and water treatment: Perspective and future, Advances in Colloid and Interface Science, 2024. (IF-15.5), #corresponding author

  16. Senthilkumar, K., Wanjari, V. P., Kanwar, B., Singh, S. P.# (2024) Laser-Induced Graphene as a Cathode Catalyst for Microbial Fuel Cell. ACS Applied Nano Materials 7 (3), 2639–2649. #corresponding author

  17. Misra, U., Jashrapuria, K.; Singh, S.P.# (2023) Fabrication of Polyether Sulfone-Laser Induced Graphene Composite Electroconductive Membrane and its Application in Biofouling Control and Chromium Removal. Journal of Membrane Science, 694, 122394 (IF-9.5) #corresponding author

  18. Bhattacharya M; Barbhuiya N.H; Singh S.P. Performance Evaluation of Sulfidated Nanoscale Iron for Hexavalent Chromium Removal from Groundwater in Sequential Batch Study. Environmental Science and Pollution Research. 2023, 30 (59),123055-123066. 

  19. Jashrapuria, K., & Singh, S. P. (2023). Zwitterionic polymer brush functionalized graphene oxide blended polyethersulfone membrane with enhanced performance and anti-biofouling properties. Journal of Membrane Science, 687, 122032.

  20. Koli, M. M., Ranjan R. and Singh S. P. (2023) Functionalized graphene-based Ultrafiltration and Thin-film composite Nanofiltration Membranes for Arsenic, Chromium, and Fluoride removal from Simulated Groundwater: Mechanism and effect of pH.  Process Safety and Environmental Protection. 179, 603-617 (IF: 7.8)

  21. Koli, M. M. and Singh, S. P. (2023) Surface-modified ultrafiltration and nanofiltration membranes for the selective removal of heavy metals and inorganic groundwater contaminants: a review. RSC Environmental Science: Water Research & Technology. 9, 2803-2829 (IF: 5)

  22. Nair, A.M., Kumar, A., Barbhuiya, N.H. and Singh, S.P. (2023) Electrochemical Inactivation of Enteric Viruses MS2, T4, and phi6 using Doped Laser-Induced Graphene Electrodes and Filters. Environ. Sci.: Nano. 10, 2077-2089. https://doi.org/10.1039/d3en00124e.

  23. Wanjari, V. P., Duttagupta, S. P., & Singh, S. P. (2023). Dual Linear Range Laser-Induced Graphene-Based Sensor for 4-Nitrophenol Detection in Water. ACS Applied Nano Materials, 6. https://doi.org/10.1021/acsanm.3c01396

  24. Kothawale, S.S., Kumar, L. and Singh, S.P., (2023). Role of organisms and their enzymes in the biodegradation of microplastics and nanoplastics: A review. Environmental Research, p.116281.

  25. Misra, U., Dixit, N., and Singh, S.P., (2023) Effect of Laser Parameters on Laser-Induced Graphene Filter Fabrication and Its Performance for Desalination and Water Purification. ACS Applied Materials & Interfaces, 15, 7899-7910. (IF-9.5)

  26. Reddy, A. S., Wanjari, V. P., & Singh, S. P. (2023). Design, synthesis, and application of thermally responsive draw solutes for sustainable forward osmosis desalination: A review. https://doi.org/10.1016/j.chemosphere.2023.137790

  27. Misra, U. Dixit, N. and Singh, S.P., (2023) Effect of Laser Parameters on Laser-Induced Graphene Filter Fabrication and Its Performance for Desalination and Water Purification. ACS Applied Materials & Interfaces, 15, 7899-7910. (IF-9.5),

  28. Kumar, A.; Barbhuiya, N. H.; Nair, A. M.; Jashrapuria, K.; Dixit, N.; Singh, S. P. (2023) In-situ Fabrication of Titanium Suboxide-Laser Induced Graphene Composites: Removal of Organic Pollutants and MS2 Bacteriophage. Chemosphere, 138988. https://doi.org/10.1016/j.chemosphere.2023.138988.

  29. Wanjari, V.P., Reddy, A.S., Duttagupta, S.P. and Singh, S.P., (2023). Laser-induced graphene-based electrochemical biosensors for environmental applications: a perspective. Environmental Science and Pollution Research, 30(15), pp.42643-42657.

  30. Kumar, A.; Barbhuiya, N. H.; Jashrapuria, K.; Dixit, N.; Arnusch, C. J.; Singh, S. P. (2022) Magnéli-Phase Ti4O7-Doped Laser-Induced Graphene Surfaces and Filters for Pollutant Degradation and Microorganism Removal. ACS Appl. Mater. Interfaces. https://doi.org/10.1021/acsami.2c10348.

  31. Barbhuiya, N.H., Misra, U., and Singh, S.P., (2022) Stacked Laser-Induced Graphene Joule Heaters for Desalination and Water Recycling, ACS Applied Nano Materials, 5, 10991-11002. (IF-5.9),

  32. Kumar, A.; Barbhuiya, N. H.; Singh, S. P. (2022) Magnéli Phase Titanium Sub-Oxides Synthesis, Fabrication and Its Application for Environmental Remediation: Current Status and Prospect. Chemosphere, 307, 135878. https://doi.org/10.1016/j.chemosphere.2022.135878.

  33. Dixit, N., & Singh, S. P. (2022). Laser-Induced Graphene (LIG) as a Smart and Sustainable Material to Restrain Pandemics and Endemics: A Perspective. ACS omega, 7(6), 5112-5130.

  34. Barbhuiya, N. H., Misra, U., and Singh S.P., (2022) Biocatalytic membranes for combating the challenges of membrane fouling and micropollutants in water purification: A review, Chemosphere, 286, 131757. (IF-8.8)

  35. Agrawal S., Ranjan R., Lal B., Rahman A., Singh S. P., Selvaratnam T. and Nawaz T. (2021) Synthesis and Water Treatment Applications of Nanofibers by Electrospinning. Processes. 9(10), 1779 (IF:3.5)

  36. Barbhuiya, N. H.; Kumar, A.; Singh, A.; Chandel, M. K.; Arnusch, C. J.; Tour, J. M.; Singh, S. P. (2021) The Future of Flash Graphene for the Sustainable Management of Solid Waste. ACS Nano, 15 (10), 15461–15470. https://doi.org/10.1021/acsnano.1c07571.

  37. Barbhuiya, N. H., Misra, U., and Singh, S.P., (2021) Synthesis, fabrication, and mechanism of action of electrically conductive membranes: a review, Environmental Science: Water Research & Technology, 7, 671-705. (IF-5.0)

  38. Barbhuiya, N. H.; Singh, S. P. (2021); Makovitzki, A.; Narkhede, P.; Oren, Z.; Adar, Y.; Lupu, E.; Cherry, L.; Monash, A.; Arnusch, C. J. Virus Inactivation in Water Using Laser-Induced Graphene Filters. Materials, 14 (12), 3179. https://doi.org/10.3390/ma14123179.

  39. Barbhuiya, N. H.; Kumar, A.; Singh, S. P. (2021) A Journey of Laser-Induced Graphene in Water Treatment. Trans. Indian Natl. Acad. Eng., 1–13. https://doi.org/10.1007/s41403-021-00205-2.

  40. Luong D.X., Yang, K., Yoon, J., Singh, S.P., Wang, T., Arnusch, C.J., and Tour, J. M. (2019) Laser-induced Graphene Composite Multifunctional Surface for Energy and Environmental application. ACS Nano. 13 (2), pp 2579-2586. (IF-13.71)

  41. Thakur, A.K.#, Singh, S.P.#,  Kleinberg, M.N., Gupta, A., and Arnusch, C.J. (2019) Laser-Induced Graphene–PVA Composites as Robust Electrically Conductive Water Treatment Membranes. ACS Applied Materials & Interfaces, 10.1021/acsami.9b00510. (IF-8.10) #Authors with equal contribution.

  42. Singh, S.P., Ramanani, S., Kaufman, Y. and Arnusch, C.J. (2018) Laser-Induced Graphene Biofilm Inhibition: Texture Does Matter. ACS Applied Nano Materials. 1 (4), 713–1720.

  43. Chyan, Y., Ye, R., Li, Y., Singh, S.P., J., Arnusch, C.J., and Tour, J. M. (2018) Laser-Induced Graphene by Multiple Lasing: Towards Electronics on Cloth, Paper and Food. ACS Nano. 12 (3), 2176–2183. (IF-13.71)

  44. Karthik, R., Singh, S.P., Kasher, R. and Arnusch, C.J. (2018) An environmentally-friendly chitosan-lysozyme bio-composite for the removal of dyes and heavy metals from aqueous solutions. Carbohydrate Polymer. 199, 506-515  (IF-5.16)

  45. Singh, S.P., Li, Y., Zhang, J., Tour, J. M., and Arnusch, C.J. (2018) Sulfur-doped Laser Induced Porous Graphene Derived Form Polysulfone-class Polymers and Membranes. ACS Nano. 12(1), 289-297. (IF-13.71)

  46. Bernstein, R., Singer, C. E., Singh, S. P., Canwei, M., and Arnusch, C.J. (2018) UV Initiated Surface Grafting on Polyethersulfone Ultrafiltration Membranes via Ink-jet Printing Assisted Modification. Journal of Membrane Science. 548, 73-80 (IF-6.66)

  47. Singh, S.P.#, Karthik, R.#, Kasher, R. and Arnusch, C.J. (2018) Hexavalent chromium ion and methyl orange dye uptake via a silk protein sericin-chitosan conjugate. RSC Advances. 8(48), 27027-27036. (IF-2.94). #Authors with equal contribution

  48. Karthik, R.#, Singh, S.P.#, Li, Y., Tour, J.M., Kasher, R. and Arnusch, C.J. (2017) Polyimide Derived Laser-induced Graphene as Adsorbent for Cationic and Anionic Dyes. Carbon. 124,513-522. (IF-7.08). #Authors with equal contribution

  49. Singh, S.P., Li, Y., Be’er, A., Oren, Y., Tour, J.M. and Arnusch, C.J. (2017) Laser-Induced Graphene Layers and Electrodes Prevents Microbial Fouling and Exerts Antimicrobial Action. ACS Applied Materials & Interfaces, 9(21), 18238-18247. (IF-8.10)

  50. Singh, S.P., Guha, S., Bose, P. and Kunnikuruvan, S. (2017) Mechanism of the Hydrolysis of Endosulfan Isomers. The Journal of Physical Chemistry A (ACS), 121(27), 5156-5163. (IF-2.84)

  51. Singh, S.P., and Bose, P. (2017) Reductive Dechlorination of Endosulfan Isomers and its Metabolites by Zero-valent Metals: Reaction Mechanism and Degradation Products. RSC Advances, 7(44), 27668-27677. (IF-2.94)

  52. Singh, S.P., Bose, P. and Guha, S. (2017) Impact of the Composition of the Bacterial Population and Additional Carbon Source on Pathway and Kinetics of Degradation of Endosulfan Isomers. Environmental Science: Processes & Impacts (RSC), 19, 964-974. (IF-2.50)

  53. Singh, S.P., and Bose, P. (2016) Degradation Kinetics of Endosulfan Isomers by Micron- and Nano-sizedZero Valent Iron Particles (MZVI and NZVI). Journal of Chemical Technology & Biotechnology (Wiley), 91(8), 2313-2321. (IF-2.59)

  54. Singh, S.P., and Bose, P. (2015) Degradation of Soil-adsorbed DDT and its Residues by NZVI Addition. RSC Advances, 5(114), 94418-94425. (IF-2.94)

  55. Singh, S. P., Bose, P., Guha, S., Gurjar, S., Bhalekar, S., (2013) Impact of Addition of Amendments on the Degradation of DDT and its Residues Partitioned on Soil. Chemosphere, 92(7), 811-820. (IF-4.42)

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