[1] M. Mishra, “Large scale 2-d-ordered array of titania nanotubes/nanorods by electrophoretic deposition” International conference on nanoscience and technology in chemistry, health, environment and energy, Dayalbag Educational Institute, Agra, India, January 06-08, 2010

[2] M. Mishra, S. Bhattacharjee, L. Besra, H. S. Sharma, T. Uchikoshi, Y. Sakka, “Effect of pH localization on microstructure evolution of deposits during aqueous electrophoretic.

[3] M. Mishra, Y. Sakka, C. Hu, T. S. Suzuki, T. Uchikoshi, L. Besra, “Textured Ti3SiC2 by EPD in a strong magnetic field”, Key Eng. Mater., 507, 15-19 (2012) (I.F.).

[4] M. Mishra, Y. Sakka, C. Hu, T. S. Suzuki, T. Uchikoshi, L. Besra, “Electrophoretic deposition of Ti3SiC2 and texture development in a strong magnetic field”, J. Am. Ceram. Soc., 95 [9], 2857-2862 (2012) (I.F. 2.956) SCI, SCIE.

[5] M. Mishra, Y. Sakka, A. Szudarska, M. Szafran, T. S. Suzuki, T. Uchikoshi, “Textured Ti3SiC2 by gel casting in a strong magnetic field”, J. Ceram. Soc. Jpn., 120 (1407) 544-547 (2012) (I.F. 0.887) SCI, SCIE.

[6] Y. Mizuno, T. S. Suzuki, M. Mishra, and Y. Sakka, “Textured Ti3AlC2 ceramic synthesized by spark plasma sintering and their anisotropic mechanical properties”, J. Ceram. Soc. Jpn. 121 (4), 366-369 (2013) (I.F. 0.887) SCI, SCIE.

[7] M. Mishra, Y. Sakka, T. Uchikoshi, L. Besra, “pH Localization: A Case Study during electrophoretic deposition of ternary MAX Phase Carbide - Ti3SiC2”, J. Ceram. Soc. Jpn., 121 (1412) 348-354 (2013) (I.F. 0.887) SCI, SCIE.

[8] K. Sato, M. Mishra, H. Hirano, C. Hu, and Y. Sakka, “Pressureless sintering and reaction mechanisms of Ti3SiC2 ceramics”, J. am. Ceram. Soc., 97 (5), 1407- 1412 (2014) (I.F. 2.956) SCI, SCIE.

[9] K. Sato, M. Mishra, H. Hirano, T. S. Suzuki, and Y. Sakka, “Fabrication of textured Ti3SiC2 ceramic by slip casting in a strong magnetic field and pressureless sintering” J. Ceram. Soc. Jpn.122 (1429), 817-821 (2014) (I.F. 0.887) SCI, SCIE.

[10] H. Zhang, C. Hu, J. Lv, S. Grasso, M. Mishra, M Estili, Y Yamauchi, B. Kim, and Y. Sakka “Microstructure and adsorption property of nanocarbide-derived carbon (CDC) synthesized at ambient temperature”, Mater. Lett., 130, 188-191 (2014) (I.F. 2.687) SCI, SCIE.

[11] V. Gurylev, M. Mishra, C.Y. Su, and T. P. Perng “Enabling higher photoelectrochemical efficiency of TiO2 via controlled formation of a disordered shell: an alternative to the hydrogenation process”, Chem. Commun., 52, 7604-7607 (2016) (I.F. 6.290) SCI, SCIE.

[12] P. C. Rath, J. Patra, D. Saikia, M. Mishra, J. K. Chang, and H. M. Kao, “Highly enhanced electrochemical performance of ultrafine CuO nanoparticles confined in ordered mesoporous carbons as anode materials for sodium-ion batteries”, J. Mater. Chem. A, 4, 14222-14233 (2016) (I.F. 9.931) SCI, SCIE.

[13] M. Mishra, W. P. Hsu, and T. P. Perng, “Direct Z- scheme Ta3N5-WO2.72 heterojunction film for enhanced hydrogen generation”, Annual meeting of the Materials Research Society, Taiwan, Industrial Technology Research Institute of Taiwan, Hsinchu, Taiwan, November 19-20, 2016.

[14] W. P. Hsu, M. Mishra (equally contributing as first author), W. S. Liu, C. Y. Su, T. P. Perng, “Fabrication of direct Z-scheme Ta3N5-WO2.72 film heterojunction photocatalyst for enhanced hydrogen evolution”, Appl. Catal. B, 201, 511-517 (2017) (I.F. 11.698) SCI, SCIE.

[15] K. I. Liu, C. C. Kei, M. Mishra, P. H. Chen, W. S. Liu, and T. P. Perng “Uniform coating of TiO2 on high aspect ratio substrates with complex morphology by vertical forced-flow atomic layer deposition”, RSC Adv., 7 (55), 34730-34735 (2017) (I.F. 2.936).

[16] M. Mishra, C. C. Kei, Y. H. Yu, W. S. Liu, T. P. Perng, “Uniform coating of Ta2O5 on vertically aligned substrate: a prelude to forced flow atomic layer deposition” Rev. Sci. Instrum. 88, 065103 (2017) (I.F. 1.428) SCI, SCIE.

[17] P. C. Rath, D. Saikia, M. Mishra, and H. M. Kao, “Exceptional catalytic performance of ultrafine Cu2O nanoparticles confined in cubic mesoporous carbon for 4-nitrophenol reduction”, Appl. Surf. Sci., 427 (A), 1217-1226 (2018) (I.F. 4.439) SCI, SCIE.

[18] P. C. Rath, J. Patra, D. Saikia, M. Mishra, C. M. Tseng, J. K. Chang, H. M. Kao, “A Comparative study on the morphology dependent performance of various CuO nanostructures as anode materials for sodium-ion batteries” ACS Sustainable Chem. Eng., 6, 10876- 10885 (2018) (I.F. 6.140) SCIE.

[19] P. C. Rath, M. Mishra (equally contributing as first author), D. Saikia, J. K. Chang, T. P. Perng, H. M. Kao, “Facile fabrication of titania-ordered cubic mesoporous carbon composite: effect of Ni doping on photocatalytic hydrogen generation”, Int. J. Hydrogen Energy, In Press (I.F. 4.229) SCI, SCIE.

[20] M. Mishra, C. Y. Chan, C. C. Kei, Y. C Yen, M. W. Liao, T. P. Perng, “Forced flow atomic layer deposition of TiO2 on vertically aligned Si wafer and polysufone fiber: design and efficacy of conduit plates and soak function”, Rev. Sci. Instrum., 89, 105108 (2018) (I.F. 1.428) SCI, SCIE.

[21] Y. Liu, M. Mishra, T. P. Perng, “On the processes of photo-induced hydrogen generation from methanol solution by Ta3N5 and WO3 ”, Int. J. Hydrogen Energy, 43 (52), 23255-23261 (2018) (I.F. 4.229) SCI, SCIE.

[22] Y. M. Chi, M. Mishra, T. K. Chin, T. P. Perng, “Fabrication of macro/mesoporous titanium nitride structure and its application as catalyst support for proton exchange membrane fuel cell”, ACS Appl. Energy Mater., 2, 398-405 (2019) (I.F. 4.473) SCIE.

[23] P. C. Rath, M. Mishra (equally contributing as first author), D. Saikia, J. K. Chang, T. P. Perng, H. M. Kao, “Facile fabrication of titania-ordered cubic mesoporous carbon composite: effect of Ni doping on photocatalytic hydrogen generation”, Int. J. Hydrogen Energy, 44 (35), 19255-19266 (2019) (I.F. 4.939) SCI, SCIE

[24] Y. H. Liang, M. W. Liao, M. Mishra, T. P. Perng, “Fabrication of Ta3N5-ZnO direct Z-scheme photocatalyst for hydrogen generation”, Int. J. Hydrogen. Energy, 44 (35), 19162-19167 (2019) (I.F. 4.939) SCI, SCIE.

[25] M. Mishra, C. W. Hsu, P. C. Rath, J. Patra, H. Z. Lai, T. L. Chang, C. Y. Wang, T. Y. Wu, T. C. Lee, J. K. Chang, “Ga-doped lithium lanthanum zirconium oxide electrolyte for solid-state Li batteries”, Electrochim. Acta, 353, 136536 (2020) (I.F. 6.216) SCIE.

[26] M. Mishra, Y. C. Huang, P. H. Wang, S. P. Liu, T. R. Lee, T. C. Lee, “Tuning the Crystallinity and Coverage of SiO2-ZnIn2S4 Core–Shell Nanoparticles for Efficient Hydrogen Generation”, ACS Appl. Mater. Interfaces 13, 3, 4043-4050 (2021) (I.F. 8.758) SCIE.