Artilcle and Journals

Year 2025

• 23. Masih, A., Sadiq, M., Singh, A. K., & Thakur, O. P. (2025). Facile synthesis of magnetically retrievable Sr0. 5La0. 5Fe12O19/MXene composite for photocatalytic activity and energy storage applications. Surfaces and Interfaces, 106603. (Impact Factor: 5.7)
• 22. Raza, M. M. H., Khan, F., Aalam, S. M., Sadiq, M., & Ali, J. (2025). Synergistic enhancement of carbon nanotube field emission properties through copper nanoparticle flake decoration under argon and nitrogen gas plasma. Materials Science and Engineering: B, 320, 118434. (Impact Factor: 3.9)

Year 2024

• 21. Aalam, S. M., Sarvar, M., Sadiq, M., & Ali, J. (2024). A Highly Sensitive Surface-Modified Porous Carbon Nanotube-Based Sensor for Ammonia Gas Detection. ACS omega, 9(4), 4486-4496. (Impact Factor: 3.7)
• 20. Sadiq, M., Singh, A. K., & Thakur, O. P. (2024). Fabrication and electrochemical insights into advanced rGO-modified ternary Cu-doped NiFe2O4/TiO₂ electrodes for high performance supercapacitors. Ceramics International. (Impact Factor: 5.1)
• 19. Aalam, S. M., Sarvar, M., Sadiq, M., Bhat, M. N., Tomar, M., & Ali, J. (2024). Enhanced ammonia gas sensing properties in porous multiwalled carbon nanotubes decorated with metal nanoparticles: the impact of concentration of Mn. Advances in Natural Sciences: Nanoscience and Nanotechnology, 16(1), 015003. (Impact Factor: 1.7)
• 18. Vidhi, Mohd Sadiq, Anjani Kumar Singh, O. P. Thakur. (2024). Synthesis of rGO/TiO2 composite electrode material for enhanced electrochemical activity and its applications in supercapacitors. Ionic, 30, 5685–5697. (Impact Factor: 2.5)

Year 2023

• 17. The effects of Ar + N2 plasma power-based attachment of metal nanoparticles on the electron field emission properties of carbon nanotubes. Raza, M.M.H., Sadiq, M., Zulfequar, M., Husain, S. and Ali, J., (2023). Journal of Physics and Chemistry of Solids, vol. 178, pp.111309. (Impact Factor: 4.383)
• 16. Improved performance of biopolymer composite electrolyte based cellulose acetate/Zinc Oxide filler for supercapacitors. Sadiq, M., Khan, M. A., Raza, M. M. H., Zulfequar, M., & Ali, J. (2023). Energy & Environment, 0(0). (Impact Factor: 4.154)
• 15. Influence of the growth temperature on electron field-emission stability of the carbon nanotubes’ field emitters. Raza, M.M.H., Sadiq, M., Aalam, S.M., Sarvar, M., Zulfequar, M., Husain, S., & Ali, J., (2023). Journal of Materials Research, vol. 38(5), pp. 1435–1447. (Impact Factor: 2.909)
• 14. Influence of power-dependent Argon gas plasma treatment on the electron field emission properties of carbon nanotube field-emitters. Raza, M.M.H., Sadiq, M., Zulfequar, M., Husain, S., & Ali, J., (2023). Diamond and Related Materials, vol. 132, pp. 109627. (Impact Factor: 4.1)

Year 2022

• 13. Enhancement of Electrochemical Stability Window and Electrical Properties of CNT-Based PVA–PEG Polymer Blend Composites. Sadiq, M., Khan, M.A., Raza, M.M.H., Aalam, S.M., Zulfequar, M., & Ali, J., (2022). ACS Omega, vol. 7, pp. 40116-40131. (Impact Factor: 3.7)
• 12. Highly performance of the sodium‐ion conducting flexible polymer blend composite electrolytes for double‐layer capacitors (EDLCs) supercapacitor. Sadiq, M., Tanwar, S., Raza, M. M. H., Aalam, S. M., Sarvar, M., Zulfequar, M., Sharma, A.L., & Ali, J., (2022). Energy Storage, p.e345. (Impact Factor: 3.2)
• 11. Facile synthesis of highly flexible sodium ion conducting polyvinyl alcohol (PVA)-polyethylene glycol (PEG) blend incorporating reduced graphene-oxide (rGO) composites for electrochemical devices application. Sadiq, M., Raza, M. M. H., Zulfequar, M., & Ali, J., (2022). Journal of Polymer Research, vol. 29, 107 pp.1-23. (Impact Factor: 3.061)
• 10. Study the electron field emission properties of silver nanoparticles decorated carbon nanotubes based cold-cathode field emitters via post plasma treatment. Raza, M. M. H., Sadiq, M., Sarvar, M., Aalam, S. M., Zulfequar, M., Husain, S., & Ali, J., (2022). Journal of Materials Science: Materials in Electronics, vol. 33, pp. 7191-7211.(Impact Factor: 2.779)
• 9.Time-dependent resonating plasma treatment of carbon nanotubes for enhancing the electron field emission properties. Raza, M. M. H., Sadiq, M., Sarvar, M., Aalam, S. M., Zulfequar, M., Husain, S., & Ali, J., (2022). Journal of Materials Science: Materials in Electronics, vol. 33, pp. 1211-1227. (Impact Factor: 2.779)

Year 2021

• 8. Study the electron field emission properties of plasma-based reduction of graphene oxide (GO): An ex-situ plasma approach. Raza, M. M. H., Sadiq, M., Khan, S., Sarvar, M., Aalam, S. M., Zulfequar, M., Husain, S., & Ali, J., (2021). Carbon Trends, vol.5, pp. 100127. (Impact Factor: 3)
• 7. Studies on flexible and highly stretchable sodium ion conducting blend polymer electrolytes with enhanced structural, thermal, optical, and electrochemical properties. Sadiq, M., Raza, M. M. H., Chaurasia, S.K., Zulfequar, M., & Ali, J., (2021). Journal of Materials Science: Materials in Electronics, vol. 32, pp. 19390–19411. (Impact Factor: 2.779)
• 6. Sodium Ion-Conducting Polyvinylpyrrolidone (PVP)/Polyvinyl Alcohol (PVA) Blend Electrolyte Films. Sadiq, M., Raza, M. M. H., Murtaza, T., Zulfequar, M., & Ali, J. (2021). Journal of Electronic Materials, vol. 50(2), pp. 403-418. (Impact Factor: 2.047)
• 5. Investigations on Structural, Optical Properties, Electrical Properties and Electrochemical Stability Window of the Reduced Graphene Oxides Incorporated Blend Polymer Nanocomposite Films. Sadiq, M., Raza, M. M. H., Zulfequar, M., & Ali, J. (2021). Journal of Nanoscience and Nanotechnology, vol. 21(6), pp. 3203-3217.(Impact Factor: 1.354)

Year 2020

• 4. A single step in-situ process for improvement in electron emission properties of surface-modified carbon nanotubes (CNTs): Titanium dioxide nanoparticles attachment. Raza, M. M. H., Sadiq, M., Khan, S., Zulfequar, M., Husain, M., Husain, S., & Ali, J. (2020). Diamond and Related Materials, vol. 110, pp. 108139. (Impact Factor: 4.1)
• 3. Enhancement of Electron Emission Properties of Carbon Nanotubes by the Decoration with Low Work Function Metal Oxide Nanoparticles. Raza, M. M. H., Khan, S., Sadiq, M., Zulfequar, M., Husain, M., & Ali, J. (2020). Journal of Nanoscience and Nanotechnology, vol. 20(10), pp. 6463-6468. (Impact Factor: 1.354)

Year 2019

• 2. Arya, A., Sadiq, M., & Sharma, A. L. (2019). Structural, electrical and ion transport properties of free-standing blended solid polymeric thin films. Polymer Bulletin, 76(10), 5149-5172.

Year 2018

• 1. Arya, A., Sadiq, M., & Sharma, A. L. (2018). Effect of variation of different nanofillers on structural, electrical, dielectric, and transport properties of blend polymer nanocomposites. Ionics, 24, 2295-2319.

Book Chapters

Year 2024

3. NaCMC-Based Biopolymer Composite Electrolytes for Supercapacitor Applications. Kumar, M., Sharma, H., Nair, N., Verma, A., Kumar, J., Suleman, Sadiq, M., ... & Kumar, Y. (2024). In Advanced Functional Materials for Sustainable Environments (pp. 229-237). Cham: Springer Nature Switzerland.

2. Ammonia Gas Sensing Characteristics of MWCNT and Bi-MWCNT Operating at Room Temperature. Aalam, S. M., Sarvar, M., Sadiq, M., Alam, M. T., & Ali, J. (2024). In Advanced Functional Materials for Sustainable Environments (pp. 73-77). Cham: Springer Nature Switzerland. Page 6 of 7

1. Synthesis and Characterization of Cu-MOF (Copper-Metal Organic Framework) for Gas Sensor and Electron Emission Devices. Sarvar, M., Aalam, S. M., Sadiq, M., Khan, M. S., & Alia, J. (2024). In Advanced Functional Materials for Sustainable Environments (pp. 65-71). Cham: Springer Nature Switzerland.