蜜希菈

蜜希菈

蜜希菈

職稱 : 助理教授

最高學歷 : 日本筑波大學材料科學與工程博士

辦公室電話 : 39202 (PG-IC303)

請益時間 : 星期三 13:00-15:00

E-mail : mishra_m@thu.edu.tw

重要經歷 >>>
博士後研究員 國立中央大學 (2017-2019)
博士後研究員 國立清華大學 (2013-2017)
助理研究員  日本National Institute for Materials Science (2010-2013)
計畫助理   印度Institute of Minerals and Materials Technology (2008-2010)
學前教師   印度Dayanand Anglo Vedic School (2007-2008)

專長領域 >>>
再生能源
綠色化學
材料科學與工程
物理學

期刊論文

排序 年度 名稱
1
2021
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.
2
2020
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.
3
2019
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.
4
2019
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.
5
2019
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.
6
2018
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.
7
2018
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.
8
2018
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.
9
2018
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.
10
2018
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.
11
2017
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.
12
2017
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).
13
2017
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.
14
2016
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.
15
2016
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.
16
2014
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.
17
2014
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.
18
2014
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.
19
2013
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.
20
2013
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.
21
2012
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.
22
2012
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.
23
2012
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.).
24
2010
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.

研討會論文

排序 年度 名稱
1
2020
M. Mishra, T. P. Perng, “Photocatalytic hydrogen generation efficiency of hydrogenation Ta3N5”, The 2020 International Conference on Green Electrochemical Technologies and the 2020 Annual Meeting of Electrochemical Society of Taiwan, 2020/11/26-28 - oral Presentation
2
2017
M. Mishra, V. Gurylev, and T. P. Perng, “Hydrogenated Ta3N5 for solar water splitting”, 7th World Hydrogenation Technology Convention 2017, Prague, Czech Republic, July 09-12, 2017.
3
2016
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.
4
2015
M. Mishra, C. C. Kei, W. P. Hsu, and T. P. Perng, “Tantalum oxide and (oxy-) nitride thin films fabricated on vertically aligned substrates by forced flow atomic layer deposition”, 15th international conference on atomic layer deposition (ALD 2015), Portland, Oregon, USA, June 28-July 01, 2015.
5
2012
M. Mishra, Y. Sakka, M. Estili, and C. Hu, “Facile exfoliation of 2D nanosheets from layered MAX phase carbide: Ti3SiC2”, Annual meeting of the Ceramic Society of Japan, Kyoto University, Kyoto, Japan, March 19-21, 2012.
6
2011
M. Mishra, Y. Sakka, C. Hu, T. S. Suzuki, T. Uchikoshi, and L. Besra, “Textured Ti3SiC2 by EPD in a strong magnetic field”, 4th International Conference on Electrophoretic Deposition: Fundamentals and Applications (EPD 2011), Puerto Vallarta, Mexico, October 02-07, 2011.
7
2011
M. Mishra, Y. Sakka, T. S. Suzuki, T. Uchikoshi, A. Szudarska, M. Szafran, and C. Hu, “Gelcasting of Ti3SiC2 in strong magnetic field using low-toxic water soluble monomer”, 24th Fall Meeting of the Ceramic Society of Japan, Hokkaido University, Sapporo, Japan, September 07-09, 2011.
8
2011
M. Mishra, Y. Sakka, T. Uchikoshi, T. S. Suzuki, and L. Besra, “Textured Ti3SiC2 by EPD in a strong Magnetic field”, Joint Conference of the Fifth International Conference on the Science and Technology for Advanced Ceramics (STAC-5) and The 2nd International Conference on Advanced Materials Development and Integration of Novel Structured Metallic and Inorganic Materials (AMDI), Yokohama, June 22-24, 2011.
9
2010
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.
10
2010
M.Mishra, “Development of large scale ordering by electrophoretic deposition”, Research Scholars’ Day, Institute of Minerals and Materials Technology, Bhubaneswar, India, January 2010.
11
2009
M. Mishra, “Preparation and haracterization of mesoporous titania monolith by gel casting route”, Materials Research Symposium, Indian Institute of Technology, Mumbai May 07-09, 2009.
12
2009
M. Mishra, “Effect of pH localization on electrophoretic deposition of polystyrene Latex” EPD 2009, Colloids and Materials Chemistry Department, Institute of Minerals and Materials technology, Bhubaneswar, March 24, 2009.

研究計畫

排序 年度 名稱
1
2021
Porous MAX phase carbides by energy saving microwave and nanocasting method. 通過節能微波或納米鑄造工藝對多孔過渡金屬碳化物(MAX phase)進行合成.

專利

排序 年度 名稱
1
2020
T. P. Perng, C. C. Kei, C. P. Lin, M. Mishra, S. H. Huang, K. I. Liu, Y. H. Yu, “Enclosed-channel reactor system with conduit plate”, US Patent No. US 2020/0270751 A1, 2020/08/27.
2
2020
T. P. Perng, C. C. Kei, C. P. Lin, M. Mishra, S. H. Huang, K. I. Liu, Y. H. Yu, “Enclosed-channel reactor system with conduit plate”, US Patent No. US 10,676,824 B2, 2020/06/09.
3
2019
彭宗平,柯志忠, 林建宝, 蜜希菈(M. Mishra), 黄圣鑫, 刘光益, 余友轩, “具导流板的封闭式流道反应槽系统发明 (Enclosed-channel reactor system with a channel plate)”, 中華人民共和國 (China) Patent No. ZL 2015 1 0957781. 8, 2019/09/27.
4
2017
Y. M. Chi, T. K. Chin, M. Mishra, and T. P. Perng, “Catalyst layer and manufacturing method thereof, membrane electrode assembly and manufacturing method thereof, and fuel cell using the same” US Patent No. US 9837669 B2, 2017/12/5.
5
2017
紀依旻、金子剛、蜜希菈 (M. Mishra)、彭宗平,觸媒層及其製造方法、膜電極組及其製造方法與燃料電池 (Catalyst layer and manufacturing method thereof, membrane electrode assembly and manufacturing method thereof, and fuel cell using the same)。中華民國 (Taiwan) Patent No. I592213, 2017/07/21.
6
2017
彭宗平、柯志忠、林建寶、M. Mishra、黃聖鑫、劉光益、余友軒,具導流板之封閉式流道反應槽系統 (Enclosed-channel reactor system with a channel plate)。中華民國 (Taiwan) Patent No. I571529, 2017/02/21.
7
2016
K. Sato, Y. Sakka, M. Mishra, H. Hiroto, and T. S. Suzuki, “Ti3SiC2 常圧焼結体及びその製造方法 (Pressureless sintering of Ti3SiC2)”, Patent No. 5999492, 2016/09/09.
8
2016
K. Sato, Y. Sakka, M. Mishra, H. Hiroto, E. Mehdi, and T. S. Suzuki,“大径Ti3SiC2 層状粒子を含む粉体径Ti3Si1-xC2 ナノシート及びそれらの製造方法 (Method for synthesis of Ti3Si1-xC2 nanosheets) ” , Patent No. 5988030, 2016/08/19.