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Sundeep Mukherjee

Title: Professor

Department: Materials Science and Engineering

College: College of Engineering

Curriculum Vitae

Curriculum Vitae Link

Education

  • PhD, California Institute of Technology, 2005
    Major: Materials Science
  • MS, California Institute of Technology, 2003
    Major: Materials Science
  • BS, Indian Institute of Technology, 1998
    Major: Metallurgical and Materials Engineering

Current Scheduled Teaching

MTSE 5210.001Corrosion and Oxidation of MaterialsSpring 2025
MTSE 5210.601Corrosion and Oxidation of MaterialsSpring 2025
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2025
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2024
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2024
MTSE 6950.018Doctoral DissertationFall 2024
MTSE 6940.018Individual ResearchFall 2024
MTSE 6940.118Individual ResearchFall 2024
MTSE 4010.006Physical MetallurgyFall 2024 Syllabus
Texas Education Code 51.974 (HB 2504) requires each institution of higher education to make available to the public, a syllabus for undergraduate lecture courses offered for credit by the institution.

Previous Scheduled Teaching

MTSE 6940.018Individual ResearchSummer 10W 2024
MTSE 6950.018Doctoral DissertationSpring 2024
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2024 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2024 SPOT
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2023 Syllabus SPOT
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2023 Syllabus SPOT
MTSE 6950.018Doctoral DissertationFall 2023
MTSE 6940.018Individual ResearchFall 2023
MTSE 4010.006Physical MetallurgyFall 2023 Syllabus SPOT
MTSE 6950.027Doctoral DissertationSummer 10W 2023
MTSE 5210.001Corrosion and Oxidation of MaterialsSpring 2023 Syllabus SPOT
MTSE 5210.601Corrosion and Oxidation of MaterialsSpring 2023 Syllabus SPOT
MTSE 6950.018Doctoral DissertationSpring 2023
MTSE 6940.018Individual ResearchSpring 2023
MTSE 6940.118Individual ResearchSpring 2023
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2023 Syllabus SPOT
MTSE 6900.018Special ProblemsSpring 2023
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2022 Syllabus SPOT
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2022 Syllabus SPOT
MTSE 6950.018Doctoral DissertationFall 2022
MTSE 6940.018Individual ResearchFall 2022
MTSE 4010.006Physical MetallurgyFall 2022 Syllabus SPOT
MTSE 6940.018Individual ResearchSummer 10W 2022
MTSE 5820.001INTERNSHIP MAT SCISummer SUM 2022
MTSE 6950.018Doctoral DissertationSpring 2022
MTSE 6950.119Doctoral DissertationSpring 8W2 2022
MTSE 6940.018Individual ResearchSpring 2022
MTSE 6940.118Individual ResearchSpring 2022
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2022 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2022 SPOT
MTSE 6900.018Special ProblemsSpring 2022
MTSE 5800.033Special Studies in Materials ScienceSpring 2022
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2021 Syllabus SPOT
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2021 Syllabus SPOT
MTSE 6950.018Doctoral DissertationFall 2021
MTSE 6940.018Individual ResearchFall 2021
MTSE 6940.118Individual ResearchFall 2021
MTSE 4010.006Physical MetallurgyFall 2021 Syllabus SPOT
MTSE 6900.018Special ProblemsFall 2021
MTSE 5900.018Special Problems in Materials ResearchFall 2021
MTSE 6940.018Individual ResearchSummer 10W 2021
MTSE 6950.018Doctoral DissertationSpring 2021
MTSE 6940.018Individual ResearchSpring 2021
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2020 SPOT
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2020 SPOT
MTSE 6950.018Doctoral DissertationFall 2020
MTSE 6940.018Individual ResearchFall 2020
MTSE 6940.218Individual ResearchFall 2020
MTSE 6940.318Individual ResearchFall 8W2 2020
MTSE 6940.418Individual ResearchFall 8W2 2020
MTSE 4010.006Physical MetallurgyFall 2020 Syllabus SPOT
MTSE 5920.018Research Problems in Lieu of ThesisFall 2020
MTSE 5930.018Research Problems in Lieu of ThesisFall 2020
MTSE 6950.018Doctoral DissertationSpring 2020
MTSE 6940.018Individual ResearchSpring 2020
MTSE 6940.118Individual ResearchSpring 2020
MTSE 5950.018Master's ThesisSpring 2020
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2020
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2020
MTSE 6900.018Special ProblemsSpring 2020
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2019 SPOT
MTSE 5200.618Advanced Concepts of Metallurgical ScienceFall 2019 SPOT
MTSE 6950.018Doctoral DissertationFall 2019
MTSE 6940.018Individual ResearchFall 2019
MTSE 6940.118Individual ResearchFall 2019
MTSE 5950.018Master's ThesisFall 2019
MTSE 4010.006Physical MetallurgyFall 2019 Syllabus SPOT
MTSE 5920.018Research Problems in Lieu of ThesisFall 2019
MTSE 6900.018Special ProblemsFall 2019
MTSE 6910.018Special ProblemsFall 2019
MTSE 5900.018Special Problems in Materials ResearchFall 2019
MTSE 5210.021Corrosion and Oxidation of MaterialsSpring 2019 SPOT
MTSE 6950.018Doctoral DissertationSpring 2019
MTSE 6940.018Individual ResearchSpring 2019
MTSE 6940.118Individual ResearchSpring 2019
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2019 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2019 SPOT
MTSE 5920.018Research Problems in Lieu of ThesisSpring 2019
MTSE 5930.018Research Problems in Lieu of ThesisSpring 2019
MTSE 6910.018Special ProblemsSpring 2019
MTSE 5900.018Special Problems in Materials ResearchSpring 2019
MTSE 5800.018Special Studies in Materials ScienceSpring 2019
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2018 SPOT
MTSE 6950.018Doctoral DissertationFall 2018
MTSE 6940.018Individual ResearchFall 2018
MTSE 6940.118Individual ResearchFall 2018
MTSE 6940.218Individual ResearchFall 2018
MTSE 4010.006Physical MetallurgyFall 2018 Syllabus SPOT
MTSE 5920.018Research Problems in Lieu of ThesisFall 2018
MTSE 5930.018Research Problems in Lieu of ThesisFall 2018
MTSE 6900.018Special ProblemsFall 2018
MTSE 5900.018Special Problems in Materials ResearchFall 2018
MTSE 5200.001Advanced Concepts of Metallurgical ScienceSpring 2018 SPOT
MTSE 6940.018Individual ResearchSpring 2018
MTSE 6940.118Individual ResearchSpring 2018
MTSE 5950.018Master's ThesisSpring 2018
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2018 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2018 SPOT
MTSE 6910.018Special ProblemsSpring 2018
MTSE 6950.018Doctoral DissertationFall 2017
MTSE 6940.018Individual ResearchFall 2017
MTSE 6940.118Individual ResearchFall 2017
MTSE 4010.006Physical MetallurgyFall 2017 Syllabus SPOT
MTSE 6910.018Special ProblemsFall 2017
MTSE 4900.018Special Topics in Materials Science and EngineeringSummer 10W 2017
MTSE 6950.018Doctoral DissertationSpring 2017
MTSE 6940.018Individual ResearchSpring 2017
MTSE 6940.118Individual ResearchSpring 2017
MTSE 5950.018Master's ThesisSpring 2017
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2017 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2017 SPOT
MTSE 6910.018Special ProblemsSpring 2017
MTSE 5900.018Special Problems in Materials ResearchSpring 2017
MTSE 4900.018Special Topics in Materials Science and EngineeringSpring 2017
MTSE 6950.018Doctoral DissertationFall 2016
MTSE 6940.018Individual ResearchFall 2016
MTSE 6940.118Individual ResearchFall 2016
MTSE 5950.018Master's ThesisFall 2016
MTSE 4010.006Physical MetallurgyFall 2016 Syllabus SPOT
MTSE 5700.004Seminar in Materials Science and EngineeringFall 2016 SPOT
MTSE 6910.018Special ProblemsFall 2016
MTSE 6950.018Doctoral DissertationSummer 10W 2016
MTSE 6940.018Individual ResearchSummer 10W 2016
MTSE 6950.018Doctoral DissertationSpring 2016
MTSE 6940.018Individual ResearchSpring 2016
MTSE 6940.118Individual ResearchSpring 2016
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2016 SPOT
MTSE 5520.618Physical and Chemical Basis of Integrated Circuit FabricationSpring 2016 SPOT
MTSE 5700.009Seminar in Materials Science and EngineeringSpring 2016 SPOT
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2015 SPOT
MTSE 5200.601Advanced Concepts of Metallurgical ScienceFall 2015 SPOT
MTSE 6950.018Doctoral DissertationFall 2015
MTSE 6940.018Individual ResearchFall 2015
MTSE 6940.118Individual ResearchFall 2015
MTSE 5950.018Master's ThesisFall 2015
MTSE 6950.018Doctoral DissertationSpring 2015
MTSE 6940.018Individual ResearchSpring 2015
MTSE 5950.018Master's ThesisSpring 2015
MTSE 5520.018Physical and Chemical Basis of Integrated Circuit FabricationSpring 2015
MTSE 6900.018Special ProblemsSpring 2015
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2014
MTSE 6940.018Individual ResearchFall 2014
MTSE 5950.018Master's ThesisFall 2014
MTSE 6940.018Individual ResearchSpring 2014
MTSE 6940.118Individual ResearchSpring 2014
MTSE 5950.018Master's ThesisSpring 2014
MTSE 5920.018Research Problems in Lieu of ThesisSpring 2014
MTSE 5930.018Research Problems in Lieu of ThesisSpring 2014
MTSE 5800.018Special Studies in Materials ScienceSpring 2014
MTSE 5440.018Thermal AnalysisSpring 2014
MTSE 5200.018Advanced Concepts of Metallurgical ScienceFall 2013
MTSE 6940.018Individual ResearchFall 2013
MTSE 5950.018Master's ThesisFall 2013
MTSE 6940.018Individual ResearchSpring 2013
Texas Education Code 51.974 (HB 2504) requires each institution of higher education to make available to the public, a syllabus for undergraduate lecture courses offered for credit by the institution.

Published Intellectual Contributions

    Book

  • Mukherjee, S. (2020). Complex Concentrated Alloys - Current Understanding and Future Opportunities.
  • Hasannaeimi, V., Sadeghilaridjani, M., Mukherjee, S. (2020). Electrochemical and Corrosion Behavior of Metallic Glasses.

    • Conference Proceeding

  • Kaluvan, S., Zhang, H., Mridha, S., Mukherjee, S. (2017). Measurement of mechanical properties of metallic glass at elevated temperature using sonic resonance method. Nondestructive Characterization and Monitoring of Advanced Materials, Aerospace, and Civil Infrastructure 2017. 10169 1016926.
  • Arora, H.S., Mukherjee, S. (2014). Wettability of Electrochemically Nano-textured Metallic Glasses. MRS Proceedings. 1649 mrsf13–1649.
  • Mukherjee, S., Carmo, M., Kumar, G., Taylor, A., Schroers, J. (2012). Metallic Glasses for Electro-Catalytic Applications. AIP Conference Proceedings.
  • Mukherjee, S., Carmo, M., Kumar, G., Taylor, A., Schroers, J. (2012). Metallic Glasses for Electro-Catalytic Applications. AIP Conference Proceedings.
  • Sekol, R.C., Kumar, G., Carmo, M., Mukherjee, S., Gittleson, F., Hardesty-Dycke, N., Schroers, J., Taylor, A.D. (2012). Novel Metallic Glass Micro Fuel Cell Architecture. Meeting Abstracts. (13) 1502–1502.
  • Sekol, R.C., Kumar, G., Carmo, M., Mukherjee, S., Gittleson, F., Hardesty-Dycke, N., Schroers, J., Taylor, Andr\'e D. (2012). Novel Metallic Glass Micro Fuel Cell Architecture. ECS Meeting Abstracts. (13) 1502.
  • Kim, C., Yan, H., Mukherjee, S., Luchette, P., Palffy-Muhoray, P. (2011). Formation of Liquid Crystal Elastomer Microparticles. APS March Meeting Abstracts. 1 1025.
  • Stefanescu, D.M., Catalina, A., Juretzko, F., Mukherjee, S., Sen, S., Dhindaw, B. (2001). Particle Engulfment and Pushing-Microgravity Experiments and Mathematical Modeling. Microgravity Research and Aplications in Physical Sciences and Biotechnology. 454 621.
  • Stefanescu, D.M., Catalina, A., Juretzko, F., Mukherjee, S., Sen, S., Dhindaw, B. (2001). Particle Engulfment and Pushing-Microgravity Experiments and Mathematical Modeling. Microgravity Research and Aplications in Physical Sciences and Biotechnology. 454 621.
  • S. Mukherjee and D. M. Stefanescu. (2000). Analysis of liquid convection effects on the pushing-engulfment transition.
  • D. M. Stefanescu, S. Mukherjee, F. Juretzko, A. V. Catalina, S. Sen, P. A. Curreri. (2000). Particle engulfment and pushing by solidifying interfaces.
  • D. M. Stefanescu, A. V. Catalina, F. Juretzko, S. Mukherjee, S. Sen, B. K. Dhindaw. (2000). Particle engulfment and pushing: Microgravity experiments and Mathematical Modeling.
  • D. M. Stefanescu, F. Juretzko, S. Mukherjee, A. V. Catalina, S. Sen, P. A. Curreri. (2000). The physics of particle pushing and engulfment: experimental and theoretical developments.
  • Stefanescu, D., Juretzko, F., Mukherjee, S., Catalina, A., Sen, S., Curreri, P. (2000). The physics of particle pushing and engulfment: Experimental and theoretical developments. AIP CONFERENCE PROCEEDINGS. (1) 505–510.
  • Stefanescu, D., Juretzko, F., Mukherjee, S., Catalina, A., Sen, S., Curreri, P. (2000). The physics of particle pushing and engulfment: Experimental and theoretical developments. AIP Conference Proceedings. 504 (1) 505--510.

    • Journal Article

  • Pole, M., Man, K., Mahajan, C., Jha, S., Yang, Y., Mukherjee, S. (2023). Biocompatible Co--P Metallic Glasses with Superior Degradation Tolerance in Physiological Environments. Other. American Chemical Society.
  • Patel, K., Mahajan, C., Muskeri, S., Mukherjee, S. (2023). Corrosion Behavior of Refractory High-Entropy Alloys in FLiNaK Molten Salts. Metals. 13 (3) 450. MDPI.
  • Mazumder, S., Palaniappan, S., Pantawane, M.V., Radhakrishnan, M., Patil, S.M., Dowden, S., Mahajan, C., Mukherjee, S., Dahotre, N.B. (2023). Electrochemical response of heterogeneous microstructure of laser directed energy deposited CoCrMo in physiological medium. Applied Physics A. 129 (5) 332. Springer Berlin Heidelberg Berlin/Heidelberg.
  • Liu, Y., Ren, J., Guan, S., Li, C., Zhang, Y., Muskeri, S., Liu, Z., Yu, D., Chen, Y., An, K., others. (2023). Microstructure and mechanical behavior of additively manufactured CoCrFeMnNi high-entropy alloys: Laser directed energy deposition versus powder bed fusion. Acta Materialia. 250 118884. Pergamon.
  • Nartu, Mohan Sai Kiran Kumar Yadav, Jha, S., Chesetti, A., Mukherjee, S., Van Rooyen, I., Banerjee, R. (2023). Microstructure and Temperature Dependent Indentation Response of Additively Manufactured Precipitation-Strengthened Al0. 3Ti0. 2Co0. 7CrFeNi1. 7 High Entropy Alloy. JOM. 75 (12) 5046--5054. Springer US New York.
  • Nartu, Mohan Sai Kiran Kumar Yadav, Jha, S., Chesetti, A., Mukherjee, S., Van Rooyen, I., Banerjee, R. (2023). Microstructure and Temperature Dependent Indentation Response of Additively Manufactured Precipitation-Strengthened Al0. 3Ti0. 2Co0. 7CrFeNi1. 7 High Entropy Alloy. JOM. 75 (12) 5046--5054. Springer US New York.
  • Mahajan, C., Hasannaeimi, V., Neuber, N., Wang, X., Busch, R., Gallino, I., Mukherjee, S. (2023). Model Metallic Glasses for Superior Electrocatalytic Performance in a Hydrogen Oxidation Reaction. Other. 15 (5) 6697--6707. American Chemical Society.
  • Patel, K., Hasannaeimi, V., Sadeghilaridjani, M., Muskeri, S., Mahajan, C., Mukherjee, S. (2023). Molten Salt Corrosion Behavior of Dual-Phase High Entropy Alloy for Concentrating Solar Power Systems. Entropy. 25 (2) 296. MDPI.
  • Jha, S., Sharma, A., Dasari, S., Muskeri, S., Banerjee, R., Mukherjee, S. (2023). Orientation dependent stress-induced martensitic and omega transformations in a refractory high entropy alloy. Materialia. 28 101741. Elsevier.
  • Jha, S., Sharma, A., Dasari, S., Muskeri, S., Banerjee, R., Mukherjee, S. (2023). Orientation dependent stress-induced martensitic and omega transformations in a refractory high entropy alloy. Materialia. 28 101741. Elsevier.
  • Jha, S., Mishra, R.S., Mukherjee, S. (2023). Phase-Specific Damage Tolerance of a Eutectic High Entropy Alloy. Entropy. 25 (12) 1604. MDPI.
  • Jha, S., Muskeri, S., Alla, S.S., Mukherjee, S. (2023). Structural and Stress State Dependence of Small-Scale Deformation in Bulk Metallic Glass. Journal of Alloys and Compounds. 170971. Elsevier.
  • Ceritbinmez, F., G\"unen, Ali, Akhtar, M.A., Patel, K., Mukherjee, S., Y\"unl\"u, Lokman, Kanca, Erdo\ugan. (2023). Surface integrity characteristics in wire-EDM of HfTaTiVZr refractory high entropy alloy. Other. 9 (4) 1683--1700. Taylor \& Francis.
  • Ceritbinmez, F., Kanca, Erdo\ugan, Y\"unl\"u, Lokman, Patel, K., Akhtar, M.A., Mukherjee, S., G\"unen, Ali. (2023). Wire electric discharge machining and its effect on the surface finish of HfNbTaTiZr refractory high-entropy alloy. Other. 125 (3-4) 1419--1427. Springer London London.
  • Muskeri, S., Jannotti, P.A., Schuster, B.E., Lloyd, J.T., Mukherjee, S. (2022). Ballistic impact response of complex concentrated alloys. International Journal of Impact Engineering. 161 104091. Pergamon.
  • Mahajan, C., Hasannaeimi, V., Pole, M., Kautz, E., Gwalani, B., Mukherjee, S. (2022). Corrosion mechanisms in model binary metallic glass coatings on mild steel and correlation with electron work function. Corrosion Science. 207 110578. Pergamon.
  • Yu, A., Pole, M., Atehortua, Julian D. Escobar, Bozhilov, K., Liu, J., Silverstein, J.A., Mukherjee, S., Mathaudhu, S., Devaraj, A., Gwalani, B. (2022). Decoupling of Strain and Temperature Effects on Microstructural Evolution during High Shear Strain Deformation. Materialia. 22
  • Neuber, N., Sadeghilaridjani, M., Ghodki, N., Gross, O., Adam, B., Ruschel, L., Frey, M., Muskeri, S., Blankenburg, M., Gallino, I., Busch, R., Mukherjee, S. (2022). Effect of composition and thermal history on deformation behavior and cluster connections in model bulk metallic glasses. Scientific Reports. 12 (1)
  • Ceritbinmez, F., Gunen, A., Akhtar, M.A., Patel, K., Mukherjee, S., Yunlu, L., Kancae, E. (2022). Surface integrity characteristics in wire-EDM of HfTaTiVZr refractory high entropy alloy. Other.
  • Ma, X., Olszta, M., Liu, J., Song, M., Pole, M., Pallaka, M.R., Silverstein, J., Escobar, J., Bhattacharjee, A.J., Mukherjee, S., Devaraj, A., Gwalani, B. (2022). Temperature-dependent formation of gradient structures with anomalous hardening in an Al-Si alloy. Other. 858
  • Ghodki, N., Sadeghilaridjani, M., Mukherjee, S. (2022). Time-dependent deformation mechanism of metallic glass in different structural states at different temperatures. Journal of Non-Crystalline Solids. 576 121221. North-Holland.
  • Ghodki, N., Sadeghilaridjani, M., Mukherjee, S. (2022). Time-dependent deformation mechanism of metallic glass in different structural states at different temperatures. Journal of Non-Crystalline Solids. 576
  • Gunen, A., Ceritbinmez, F., Patel, K., Akhtar, M.A., Mukherjee, S., Kanca, E., Karakas, M.S. (2022). WEDM machining of MoNbTaTiZr refractory high entropy alloy. Other. 38 547-559.
  • Ayyagari, A., Salloom, R., Arora, H.S., Mukherjee, S. (2021). Accelerated Corrosion of High Entropy Alloys under Tensile Stress. Other.
  • Sadeghilaridjani, M., Pole, M., Jha, S., Muskeri, S., Ghodki, N., Mukherjee, S. (2021). Deformation and tribological behavior of ductile refractory high-entropy alloys. Wear. 478 203916. Elsevier.
  • Pole, M., Sadeghilaridjani, M., Shittu, J., Mahajan, C., Ghodki, N., Mukherjee, S. (2021). Electrodeposited metallic glasses with superlative wear resistance. Materials Science and Engineering: A. 816 141315. Elsevier.
  • Muskeri, S., Gwalani, B., Jha, S., Yu, A., Jannotti, P.A., Haridas, R.S., Schuster, B.E., Lloyd, J.T., Mishra, R.S., Mukherjee, S. (2021). Excellent ballistic impact resistance of Al0. 3CoCrFeNi multi-principal element alloy with unique bimodal microstructure. Scientific Reports. 11 (1) 1--12. Nature Publishing Group.
  • Krishnan, S.K., Esparza, R., Uribe, D.B., Mukherjee, S., Pal, U. (2021). Facile Seed-Mediated Growth of Ultrathin AuCu Shells on Pd Nanocubes and Their Enhanced Nitrophenol Degradation Reactions. The Journal of Physical Chemistry C. American Chemical Society.
  • Patel, K., Sadeghilaridjani, M., Pole, M., Mukherjee, S. (2021). Hot corrosion behavior of refractory high entropy alloys in molten chloride salt for concentrating solar power systems. Solar Energy Materials and Solar Cells. 230 111222. North-Holland.
  • Sadeghilaridjani, M., Yang, Y.C., Hasannaeimi, V., Mahajan, C., Jha, S., Pole, M., Xia, Z., Mukherjee, S. (2021). Multiscale Manufacturing of Amorphous Alloys by a Facile Electrodeposition Approach and Their Property Dependence on the Local Atomic Order. Other. 13 (7) 9260--9271. American Chemical Society.
  • NartuM., Pole, M., Mantri, S.A., Haridas, R.S., Scharf, T.W., McWilliams, B., Cho, K., Mukherjee, S., Dahotre, N.B., Banerjee, R. (2021). Process Induced Multi-layered Titanium – Boron Carbide Composites via Additive Manufacturing. Other. 46 102156.
  • Nartu, M., Pole, M., Mantri, S., Haridas, R., Scharf, T., McWilliams, B., Cho, K., Mukherjee, S., Dahotre, N.B., Banerjee, R. (2021). Process induced multi-layered Titanium--Boron carbide composites via additive manufacturing. Other. 46 102156. Elsevier.
  • Nartu, M., Pole, M., Mantri, S., Haridas, R., Scharf, T., McWilliams, B., Cho, K., Mukherjee, S., Dahotre, N.B., Banerjee, R. (2021). Process induced multi-layered Titanium--Boron carbide composites via additive manufacturing. Other. 46 102156. Elsevier.
  • Pantawane, M.V., Yang, T., Jin, Y., Mazumder, S., Pole, M., Dasari, S., Krokhin, A., Neogi, A., Mukherjee, S., Banerjee, R., others. (2021). Thermomechanically influenced dynamic elastic constants of laser powder bed fusion additively manufactured Ti6Al4V. Materials Science and Engineering: A. 811 140990. Elsevier.
  • Pantawane, M.V., Yang, T., Jin, Y., Mazumder, S., Pole, M., Dasari, S., Krokhin, A., Neogi, A., Mukherjee, S., Banerjee, R., others. (2021). Thermomechanically influenced dynamic elastic constants of laser powder bed fusion additively manufactured Ti6Al4V. Materials Science and Engineering: A. 811 140990. Elsevier.
  • Shittu, J., Sadeghilaridjani, M., Pole, M., Muskeri, S., Ren, J., Liu, Y., Tahoun, I., Arora, H., Chen, W., Dahotre, N.B., others. (2021). Tribo-corrosion response of additively manufactured high-entropy alloy. Other. 5 (1) 1--8. Nature Publishing Group.
  • Ji, X., Pole, M., Ho, T., Akhtar, M.A., Pantawane, M., Mukherjee, S., Dahotre, N.B. (2021). Tribology of rejuvenated CuZr-based amorphous alloys. Wear. 484 204018. Elsevier.
  • Yang, Y., Xia, Z., Mukherjee, S. (2021). Unraveling the Structural Statistics and Its Relationship with Mechanical Properties in Metallic Glasses. Nano Letters. 21 (21) 9108--9114. American Chemical Society.
  • Muskeri, S., Gwalani, B., Jha, S., Yu, A., Jannotti, P.A., Haridas, R.S., Schuster, B.E., Lloyd, J.T., Mishra, R.S., Mukherjee, S. (2021). Excellent ballistic impact resistance of Al0.3CoCrFeNi multi-principal element alloy with unique bimodal microstructure. Scientific Reports. 11 (1) https://api.elsevier.com/content/abstract/scopus_id/85119674894
  • Muskeri, S., Choudhuri, D., Jannotti, P.A., Schuster, B.E., Lloyd, J.T., Mishra, R.S., Mukherjee, S. (2020). Ballistic Impact Response of Al0. 1CoCrFeNi High-Entropy Alloy. Advanced Engineering Materials. 22 (6) 2000124.
  • Shittu, J., Sadeghilaridjani, M., Pole, M., Ayyagari, A., Mukherjee, S. (2020). Bio-electrochemical response to sense implant degradation. Other. e10088.
  • Shittu, J., Pole, M., Cockerill, I., Sadeghilaridjani, M., Reddy, L.V., Manivasagam, G., Singh, H., Grewal, H.S., Arora, H.S., Mukherjee, S. (2020). Biocompatible High Entropy Alloys with Excellent Degradation Resistance in a Simulated Physiological Environment. Other. 3 (12) 8890--8900. American Chemical Society.
  • Arora, H., Pradhan, S., Kumar, A., Perumal, G., Salloom, R., Mukherjee, S., Grewal, H. (2020). Cavitation erosion-corrosion resilient surfaces through reciprocating friction processing. Wear. 456 203385. Elsevier.
  • Hasannaeimi, V., Muskeri, S., Gwalani, B., Hofmann, D.C., Mukherjee, S. (2020). Deformation behavior of metallic glass composites and plasticity accommodation at microstructural length-scales. Other. 24 101237. Elsevier.
  • Gwalani, B., Wang, T., Jagetia, A., Gangireddy, S., Muskeri, S., Mukherjee, S., Lloyd, J.T., Banerjee, R., Mishra, R.S. (2020). Dynamic Shear Deformation of a Precipitation Hardened Al0. 7CoCrFeNi Eutectic High-Entropy Alloy Using Hat-Shaped Specimen Geometry. Other. 22 (4) 431. Multidisciplinary Digital Publishing Institute.
  • Perumal, G., Grewal, H.S., Pole, M., Reddy, L.V., Mukherjee, S., Singh, H., Manivasagam, G., Arora, H.S. (2020). Enhanced Biocorrosion Resistance and Cellular Response of a Dual-Phase High Entropy Alloy through Reduced Elemental Heterogeneity. Other. 3 (2) 1233--1244. American Chemical Society.
  • Pole, M., Sadeghilaridjani, M., Shittu, J., Ayyagari, A., Mukherjee, S. (2020). High temperature wear behavior of refractory high entropy alloys based on 4-5-6 elemental palette. Journal of Alloys and Compounds. 843 156004. Elsevier.
  • Sadeghilaridjani, M., Mukherjee, S. (2020). High-temperature nano-indentation creep behavior of multi-principal element alloys under static and dynamic loads. Other. 10 (2) 250. Multidisciplinary Digital Publishing Institute.
  • Hasannaeimi, V., Lin, C., Xia, Z., Mukherjee, S. (2020). Hydrogen oxidation reaction response of noble-metal based bulk metallic glasses. Electrochimica Acta. 353
  • Sadeghilaridjani, M., Ayyagari, A., Muskeri, S., Hasannaeimi, V., Salloom, R., Chen, W., Mukherjee, S. (2020). Ion irradiation response and mechanical behavior of reduced activity high entropy alloy. Journal of Nuclear Materials. 529 151955. North-Holland.
  • Haghshenas, M., Song, X., Hasannaeimi, V., Mukherjee, S., Gupta, M. (2020). Magnesium--samarium oxide nanocomposites: Room-temperature depth-sensing nanoindentation response. Other. 3 (3) 217--225. Elsevier.
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  • Mukherjee, S., Arora, H.S., Mridha, S. (2015). Surface Modification of Metallic Glass Composites Through Severe Plastic Deformation. Metallurgical and Materials Transactions A. 46 (3) 1030–1034. Springer US.
  • Mukherjee, S., Arora, H.S., Mridha, S. (2015). Surface Modification of Metallic Glass Composites Through Severe Plastic Deformation. Metallurgical and Materials Transactions A. 46 (3) 1030--1034. Springer US.
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  • Jaeger, D.L., Mridha, S., Choudhuri, D., Banerjee, R., others. (2014). Compositional Analysis of as-cast and Crystallized Pd 43 Cu 27 Ni 10 P 20 Bulk Metallic Glass. Microscopy and Microanalysis. 20 (S3) 814–815. Cambridge University Press.
  • Jaeger, D.L., Mridha, S., Choudhuri, D., Banerjee, R., others. (2014). Compositional Analysis of as-cast and Crystallized Pd 43 Cu 27 Ni 10 P 20 Bulk Metallic Glass. Microscopy and Microanalysis. 20 (S3) 814--815. Cambridge University Press.
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  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., Mukherjee, S. (2014). Enhancing the Mechanical Properties of AE 42 Magnesium Alloy through Friction Stir Processing. Advanced Engineering Materials. 16 (5) 571--580.
  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., Mukherjee, S. (2014). Enhancing the Mechanical Properties of AE42 Magnesium Alloy through Friction Stir Processing. Advanced Engineering Materials. 16 (5) 571–580. Wiley Online Library.
  • Grewal, H., Arora, H., Singh, H., Agrawal, A., Mukherjee, S. (2014). Improving Erosion Resistance of Hydroturbine Steel Using Friction Stir Processing. Journal of Tribology. 136 (4) 041102. American Society of Mechanical Engineers.
  • Grewal, H., Arora, H., Singh, H., Agrawal, A., Mukherjee, S. (2014). Improving erosion resistance of hydroturbine steel using friction stir processing. Journal of Tribology. 136 (4) American Society of Mechanical Engineers Digital Collection.
  • Katakam, S., Joshi, S.S., Mridha, S., Mukherjee, S., Dahotre, N.B. (2014). Laser assisted high entropy alloy coating on aluminum: Microstructural evolution. Journal of Applied Physics. 116 (10) 104906. AIP Publishing.
  • Katakam, S., Joshi, S.S., Mridha, S., Mukherjee, S., Dahotre, N.B. (2014). Laser assisted high entropy alloy coating on aluminum: microstructural evolution. Journal of Applied Physics. 116 (10) 104906. AIP Publishing LLC.
  • Dahotre, N.B., Mukherjee, S. (2014). Laser Assisted High Entropy Alloy: Coating on Aluminum: Microstructural Evaluation.
  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., McPhail, D., Shollock, B., Chater, R., Mukherjee, S. (2014). Microstructure-P roperty Relationship for Friction Stir Processed Magnesium Alloy. Advanced Engineering Materials. 16 (1) 94--102.
  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., McPhail, D., Shollock, B., Chater, R., Mukherjee, S. (2014). Microstructure-Property Relationship for Friction Stir Processed Magnesium Alloy. Advanced Engineering Materials. 16 (1) 94–102. Wiley Online Library.
  • Singh, H., Grewal, H., Chater, R., Arora, H., McPhail, D., Shollock, B., Dhindaw, B., Mukherjee, S. (2014). Microstructure-property relationship for friction stir processed magnesium alloy.
  • Arora, H., Grewal, H., Veligatla, M., Singh, H., Mukherjee, S. (2014). Microwave assisted in situ composite coating using metallic glass precursor. Surface Engineering. 30 (11) 779–783. Taylor & Francis.
  • Arora, H., Grewal, H., Veligatla, M., Singh, H., Mukherjee, S. (2014). Microwave assisted in situ composite coating using metallic glass precursor. Surface Engineering. 30 (11) 779--783. Taylor \& Francis.
  • Dhindaw, B.K., Arora, H., Eckert, J., Barekar, N., Mukherjee, S. (2014). Nano Science and Technology through Friction Stir Processing and Bulk Metallic Glass Routes Part II: Bulk Metallic Glass. Other. 28.
  • Arora, H.S., Grewal, H.S., Mridha, S., Singh, H., Mukherjee, S. (2014). Structural changes in amorphous metals from high-strain plastic deformation. Materials Science and Engineering: A. 617 175–178. Elsevier.
  • Arora, H.S., Grewal, H.S., Mridha, S., Singh, H., Mukherjee, S. (2014). Structural changes in amorphous metals from high-strain plastic deformation. Materials Science and Engineering: A. 617 175--178. Elsevier.
  • Ray-Mukherjee, J., Nimon, K., Mukherjee, S., Morris, D.W., Slotow, R., Hamer, M. (2014). Using commonality analysis in multiple regressions: a tool to decompose regression effects in the face of multicollinearity. Other. 5 (4) 320-328.
  • Arora, H.S., Mukherjee, S. (2014). Wettability of Electrochemically Nano-textured Metallic Glasses. Other. 1649 (1) 1--6. Springer International Publishing.
  • Sekol, R.C., Kumar, G., Carmo, M., Gittleson, F., Hardesty-Dyck, N., Mukherjee, S., Schroers, J., Taylor, A.D. (2013). Bulk metallic glass micro fuel cell. Small. 9 (12) 2081–2085. WILEY-VCH Verlag.
  • Sekol, R.C., Kumar, G., Carmo, M., Gittleson, F., Hardesty-Dyck, N., Mukherjee, S., Schroers, J., Taylor, Andr\'e D. (2013). Bulk metallic glass micro fuel cell. Small. 9 (12) 2081--2085. WILEY-VCH Verlag.
  • Gopinadhan, M., Shao, Z., Liu, Y., Mukherjee, S., Sekol, R.C., Kumar, G., Taylor, A.D., Schroers, J., Osuji, C.O. (2013). Finite size effects in the crystallization of a bulk metallic glass. Applied Physics Letters. 103 (11) 111912. AIP Publishing.
  • Gopinadhan, M., Shao, Z., Liu, Y., Mukherjee, S., Sekol, R.C., Kumar, G., Taylor, Andr\'e D, Schroers, J., Osuji, C.O. (2013). Finite size effects in the crystallization of a bulk metallic glass. Applied Physics Letters. 103 (11) 111912. American Institute of Physics.
  • Sekol, R.C., Kumar, G., Carmo, M., Gittleson, F., Hardesty-Dyck, N., Mukherjee, S., Schroers, J., Taylor, A.D. (2013). Fuel Cells: Bulk Metallic Glass Micro Fuel Cell (Small 12/2013). Small. 9 (12) 2026–2026. Wiley Online Library.
  • Sekol, R.C., Kumar, G., Carmo, M., Gittleson, F., Hardesty-Dyck, N., Mukherjee, S., Schroers, J., Taylor, Andr\'e D. (2013). Fuel Cells: Bulk Metallic Glass Micro Fuel Cell (Small 12/2013). Small. 9 (12) 2026--2026. Wiley Online Library.
  • Mukherjee, S., Sekol, R.C., Carmo, M., Altman, E.I., Taylor, A.D., Schroers, J. (2013). Metallic-Glass Nanostructures: Tunable Hierarchical Metallic-Glass Nanostructures (Adv. Funct. Mater. 21/2013). Advanced Functional Materials. 23 (21) 2784–2784. Wiley Online Library.
  • H. S. Arora, H. S. Grewal, H. Singh, B. K. Dhindaw, D. S. McPhail, S. Barbara, R. Chater, and S. Mukherjee. (2013). Microstructure-Property Relationship for Friction Stir Processed Magnesium Alloy.
  • Shao, Z., Gopinadhan, M., Kumar, G., Mukherjee, S., Liu, Y., O’Hern, C.S., Schroers, J., Osuji, C.O. (2013). Size-dependent viscosity in the super-cooled liquid state of a bulk metallic glass. Applied Physics Letters. 102 (22) 221901. AIP Publishing.
  • Shao, Z., Gopinadhan, M., Kumar, G., Mukherjee, S., Liu, Y., O'Hern, C.S., Schroers, J., Osuji, C.O. (2013). Size-dependent viscosity in the super-cooled liquid state of a bulk metallic glass. Applied Physics Letters. 102 (22) 221901. American Institute of Physics.
  • Grewal, H., Arora, H., Agrawal, A., Singh, H., Mukherjee, S. (2013). Slurry erosion of thermal spray coatings: Effect of sand concentration. Other. 68 484–490. Elsevier.
  • Grewal, H., Arora, H., Agrawal, A., Singh, H., Mukherjee, S. (2013). Slurry erosion of thermal spray coatings: Effect of sand concentration. Other. 68 484--490. Elsevier.
  • Mukherjee, S., Sekol, R.C., Carmo, M., Altman, E.I., Taylor, A.D., Schroers, J. (2013). Tunable Hierarchical Metallic-Glass Nanostructures. Advanced Functional Materials. 23 (21) 2708–2713. Wiley Online Library.
  • Mukherjee, S., Sekol, R.C., Carmo, M., Altman, E.I., Taylor, Andr\'e D, Schroers, J. (2013). Tunable Hierarchical Metallic-Glass Nanostructures. Advanced Functional Materials. 23 (21) 2708--2713. Wiley Online Library.
  • Muthukumaran, S., Mukherjee, S. (2013). Two modes of metal flow phenomenon in friction stir welding process. Other. Maney Publishing.
  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., Mukherjee, S. (2013). Unusually high erosion resistance of zirconium-based bulk metallic glass. Journal of Materials Research. 28 (22) 3185. Cambridge University Press.
  • Arora, H.S., Grewal, H.S., Singh, H., Dhindaw, B.K., Mukherjee, S. (2013). Unusually high erosion resistance of zirconium-based bulk metallic glass. Journal of Materials Research. 28 (22) 3185--3189. Cambridge University Press.
  • H. S. Arora, Q. Xu, Z. Xia, Y. H. Ho, N. B. Dahotre, J. Schroers, S. Mukherjee. (2013). Wettability of Nano-textured Metallic Glass Surfaces.
  • Arora, H.S., Xu, Q., Xia, Z., Ho, Y., Dahotre, N.B., Schroers, J., Mukherjee, S. (2013). Wettability of nanotextured metallic glass surfaces. Scripta Materialia. 69 (10) 732–735. Elsevier.
  • Arora, H.S., Xu, Q., Xia, Z., Ho, Y., Dahotre, N.B., Schroers, J., Mukherjee, S. (2013). Wettability of nanotextured metallic glass surfaces. Scripta Materialia. 69 (10) 732--735. Pergamon.
  • Arora, H.S., Xu, Q., Xia, Z., Ho, Y., Dahotre, N.B., Schroers, J., Mukherjee, S. (2013). Wettability of nanotextured metallic glass surfaces. Scripta Materialia. 69 (10) 732-735.
  • H. S. Arora, H. S. Grewal, H. Singh and S. Mukherjee. (2013). Zirconium Based Bulk Metallic Glass - Better Resistance to Slurry Erosion Compared to Hydroturbine Steel.
  • Arora, H., Grewal, H., Singh, H., Mukherjee, S. (2013). Zirconium based bulk metallic glass—Better resistance to slurry erosion compared to hydroturbine steel. Wear. 307 (1) 28–34. Elsevier.
  • Arora, H., Grewal, H., Singh, H., Mukherjee, S. (2013). Zirconium based bulk metallic glass—Better resistance to slurry erosion compared to hydroturbine steel. Wear. 307 (1-2) 28--34. Elsevier.
  • R. C. Sekol, G. Kumar, M. Carmo, F. Gittleson, N. Hardesty-Dyck, S. Mukherjee, J. Schroers, A. D. Taylor. (2012). Bulk Metallic Glass Micro Fuel Cell.
  • S. Mukherjee, M. Carmo, G. Kumar, R. C. Sekol, A. D. Taylor, and J. Schroers. (2012). Palladium nanostructures from multi-component metallic glass.
  • Mukherjee, S., Carmo, M., Kumar, G., Sekol, R.C., Taylor, A.D., Schroers, J. (2012). Palladium nanostructures from multi-component metallic glass. Electrochimica Acta. 74 145–150. Elsevier.
  • Mukherjee, S., Carmo, M., Kumar, G., Sekol, R.C., Taylor, Andr\'e D, Schroers, J. (2012). Palladium nanostructures from multi-component metallic glass. Electrochimica Acta. 74 145--150. Pergamon.
  • S. Mukherjee, R. C. Sekol, M. Carmo, E. I. Altman, A. D. Taylor, and J. Schroers. (2012). Tunable Hierarchical Metallic-Glass Nanostructures.
  • Pal, S., Bandyopadhyay, A., Mukherjee, S., Samaddar, B., Pal, P. (2011). MgAl sub (2) O sub (4)- gamma-Al sub (2) O sub (3) solid solution interaction: mathematical framework and phase separation of alpha-Al sub (2) O sub (3) at high temperature. Bulletin of Materials Science. 34 (4) 859--864. Springer Science+ Business Media, Van Godewijckstraat 30 Dordrecht 3311 GX~….
  • Pal, S., Bandyopadhyay, A., Pal, P., Mukherjee, S., Samaddar, B. (2009). Sintering behaviour of spinel-alumina composites (vol 32, pg 169, 2009). Bulletin of Materials Science. 32 (4) 463--463. INDIAN ACAD SCIENCES CV RAMAN AVENUE, SADASHIVANAGAR, PB\# 8005, BANGALORE~….
  • Muthukumaran, S., Pallav, K., Pandey, V.K., Mukherjee, S. (2008). A study on electromagnetic property during friction stir weld failure. International Journal of Advanced Manufacturing Technology. 36 (3-4) 249–253. Springer.
  • Sinha, P., Muthukumaran, S., Mukherjee, S. (2008). Analysis of first mode of metal transfer in friction stir welded plates by image processing technique. Journal of Materials Processing Technology. 197 (1) 17–21. Elsevier.
  • Sinha, P., Muthukumaran, S., Sivakumar, R., Mukherjee, S. (2008). Condition monitoring of first mode of metal transfer in friction stir welding by image processing techniques. International Journal of Advanced Manufacturing Technology. 36 (5-6) 484–489. Springer.
  • Dobriyal, R., Dhindaw, B., Muthukumaran, S., Mukherjee, S. (2008). Microstructure and properties of friction stir butt-welded AE42 magnesium alloy. Materials Science and Engineering: A. 477 (1) 243–249. Elsevier.
  • Muthukumaran, S., Mukherjee, S. (2008). Multi-layered metal flow and formation of onion rings in friction stir welds. International Journal of Advanced Manufacturing Technology. 38 (1-2) 68–73. Springer.
  • Choudhury, S., de, D., Mukherjee, S., Neogi, A., Sinha, A., Pal, M., Biswas, S.K., Pahari, S., Bhattacharya, S., Ghatak, K.P. (2008). Einstein relation in carbon nanotubes and quantum wires of nonlinear optical, optoelectronic and related materials: Simplified theory, relative comparison and suggestion for an experimental determination. Journal of Computational and Theoretical Nanoscience. 5 (3) 375-400. https://api.elsevier.com/content/abstract/scopus_id/42649129005
  • Agarwal, R., Tiwari, M., Mukherjee, S. (2007). Artificial immune system based approach for solving resource constraint project scheduling problem. International Journal of Advanced Manufacturing Technology. 34 (5-6) 584–593. Springer-Verlag.
  • Mukherjee, S., Mitra, S.N., Bose, P.K., Ghatak, A.R., Neogi, A., Banerjee, J.P., Sinha, A., Pal, M., Bhattacharya, S., Ghatak, K.P. (2007). Einstein relation in quantum wells and nipi structures of nonlinear optical, optoelectronic and related materials: Simplified theory, relative comparison and suggestion for an experimental determination. Journal of Computational and Theoretical Nanoscience. 4 (3) 550-573. https://api.elsevier.com/content/abstract/scopus_id/34547216445
  • S. Mukherjee, J. Schroers, W. L. Johnson, and W. K. Rhim. (2005). Influence of kinetic and thermodynamic factors on the glass-forming ability of zirconium-based bulk amorphous alloys.
  • Mukherjee, S., Schroers, J., Johnson, W., Rhim, W. (2005). Influence of kinetic and thermodynamic factors on the glass-forming ability of zirconium-based bulk amorphous alloys. Physical Review Letters. 94 (24) 245501. APS.
  • Mukherjee, S., Schroers, J., Johnson, W., Rhim, W. (2005). Influence of kinetic and thermodynamic factors on the glass-forming ability of zirconium-based bulk amorphous alloys. Physical Review Letters. 94 (24) 245501. APS.
  • S. Mukherjee, W. L. Johnson, and W. K. Rhim. (2005). Non-contact measurement of high-temperature surface tension and viscosity of bulk metallic glass-forming alloys using the drop oscillation technique.
  • Mukherjee, S., Johnson, W., Rhim, W. (2005). Noncontact measurement of high-temperature surface tension and viscosity of bulk metallic glass-forming alloys using the drop oscillation technique. Applied Physics Letters. 86 (1) 014104. AIP Publishing.
  • Mukherjee, S., Johnson, W., Rhim, W. (2005). Noncontact measurement of high-temperature surface tension and viscosity of bulk metallic glass-forming alloys using the drop oscillation technique. Applied Physics Letters. 86 (1) 014104. American Institute of Physics.
  • Mukherjee, S., Kang, H., Johnson, W., Rhim, W. (2004). Inhomogeneous, disordered, and partially ordered systems-Noncontact measurement of crystallization behavior, specific volume, and viscosity of bulk glass-forming Zr-Al-Co-(Cu) alloys. Physical Review B. 70 (17) 174205–174300. Woodbury, NY: published by the American Physical Society through the American Institute of Physics, c1998-.
  • Mukherjee, S., Kang, H., Johnson, W., Rhim, W. (2004). Inhomogeneous, disordered, and partially ordered systems-Noncontact measurement of crystallization behavior, specific volume, and viscosity of bulk glass-forming Zr-Al-Co-(Cu) alloys. Other. 70 (17) 174205--174300. Woodbury, NY: published by the American Physical Society through the~….
  • Mukherjee, S., STEFANESCU, D.M. (2004). Liquid Convection Effects on the Pushing-Engulfment Transition of Insoluble Particles by a Solidifying Interface. Metallurgical and Materials Transactions A.
  • S. Mukherjee and D. M. Stefanescu. (2004). Liquid convection effects on the pushing-engulfment transition of insoluble particles by a solidifying interface: Part I. Analytical calculation of the lift forces.
  • Mukherjee, S., Stefanescu, D.M. (2004). Liquid convection effects on the pushing-engulfment transition of insoluble particles by a solidifying interface: Part I. Analytical calculation of the lift forces. Metallurgical and Materials Transactions A. 35 (2) 613–621. Springer.
  • Mukherjee, S., Stefanescu, D.M. (2004). Liquid convection effects on the pushing-engulfment transition of insoluble particles by a solidifying interface: Part I. Analytical calculation of the lift forces. Metallurgical and Materials Transactions A. 35 (2) 613. Springer-Verlag.
  • S. Mukherjee, M. A. R. Sharif, and D. M. Stefanescu. (2004). Liquid convection effects on the pushing-engulfment transition of insoluble particles by a solidifying interface: Part II. Numerical calculation of drag and lift forces on a particle in parabolic shear flow.
  • S. Mukherjee, H. G. Kang, W. L. Johnson, and W. K. Rhim. (2004). Non-contact measurement of crystallization behavior, specific volume and viscosity of bulk glass-forming Zr-Al-Co-(Cu) alloys.
  • Mukherjee, S., Kang, H., Johnson, W., Rhim, W. (2004). Noncontact measurement of crystallization behavior, specific volume, and viscosity of bulk glass-forming Zr-Al-Co-(Cu) alloys. Physical Review B. 70 (17) 174205. APS.
  • Mukherjee, S., Kang, H., Johnson, W., Rhim, W. (2004). Noncontact measurement of crystallization behavior, specific volume, and viscosity of bulk glass-forming Zr-Al-Co-(Cu) alloys. Physical Review B. 70 (17) 174205. APS.
  • Mukherjee, S., Zhou, Z., Schroers, J., Johnson, W., Rhim, W. (2004). Overheating threshold and its effect on time--temperature-transformation diagrams of zirconium based bulk metallic glasses. Applied Physics Letters. 84 (24) 5010--5012. American Institute of Physics.
  • S. Mukherjee, Z. Zhou, J. Schroers, W. L. Johnson, and W. K. Rhim. (2004). Overheating threshold and its effect on time-temperature-transformation diagrams of zirconium based bulk metallic glasses.
  • Mukherjee, S., Zhou, Z., Schroers, J., Johnson, W., Rhim, W. (2004). Overheating threshold and its effect on time–temperature-transformation diagrams of zirconium based bulk metallic glasses. Applied Physics Letters. 84 (24) 5010–5012.
  • S. Mukherjee, Z. Zhou, W. L. Johnson, and W. K. Rhim. (2004). Thermo-physical properties of Ni-Nb and Ni-Nb-Sn bulk metallic glass forming melts by containerless electrostatic levitation.
  • Mukherjee, S., Zhou, Z., Johnson, W.L., Rhim, W. (2004). Thermophysical properties of Ni--Nb and Ni--Nb--Sn bulk metallic glass-forming melts by containerless electrostatic levitation processing. Journal of Non-Crystalline Solids. 337 (1) 21--28. Elsevier.
  • Mukherjee, S., Zhou, Z., Johnson, W.L., Rhim, W. (2004). Thermophysical properties of Ni–Nb and Ni–Nb–Sn bulk metallic glass-forming melts by containerless electrostatic levitation processing. Journal of Non-Crystalline Solids. 337 (1) 21–28. Elsevier.
  • S. Mukherjee, J. Schroers, Z. Zhou, W. L. Johnson, and W. K. Rhim. (2004). Viscosity and specific volume of bulk metallic glass-forming alloys and their correlation with glass forming ability.
  • Mukherjee, S., Schroers, J., Zhou, Z., Johnson, W., Rhim, W. (2004). Viscosity and specific volume of bulk metallic glass-forming alloys and their correlation with glass forming ability. Acta Materialia. 52 (12) 3689–3695. Elsevier.
  • Mukherjee, S., Schroers, J., Zhou, Z., Johnson, W., Rhim, W. (2004). Viscosity and specific volume of bulk metallic glass-forming alloys and their correlation with glass forming ability. Acta Materialia. 52 (12) 3689--3695. Elsevier.
  • Z. Zhou, S. Mukherjee, and W. K. Rhim. (2003). Measurement of thermophysical properties of molten silicon using an upgraded electrostatic levitator.
  • Zhou, Z., Mukherjee, S., Rhim, W. (2003). Measurement of thermophysical properties of molten silicon using an upgraded electrostatic levitator. Journal of Crystal Growth. 257 (3) 350–358. North-Holland.
  • Zhou, Z., Mukherjee, S., Rhim, W. (2003). Measurement of thermophysical properties of molten silicon using an upgraded electrostatic levitator. Journal of Crystal Growth. 257 (3-4) 350--358. North-Holland.
  • Catalina, A.V., Mukherjee, S., Stefanescu, D. (2000). A dynamic model for the interaction between a solid particle and an advancing solid/liquid interface. Metallurgical and Materials Transactions A. 31 (10) 2559–2568. Springer.
  • Catalina, A.V., Mukherjee, S., Stefanescu, D. (2000). A dynamic model for the interaction between a solid particle and an advancing solid/liquid interface. Metallurgical and Materials Transactions A. 31 (10) 2559--2568. Springer-Verlag.
  • Mukherjee, S., Stefanescu, D. (2000). Analysis of liquid convection effects on the pushing-engulfment transition. Other. 89–100.
  • Mukherjee, S., Stefanescu, D. (2000). Analysis of liquid convection effects on the pushing-engulfment transition. Other.
  • A. V. Catalina, S. Mukherjee, and D. M. Stefanescu. (2000). Dynamic model for the interaction between an insoluble particle and an advancing solid liquid interface.
  • A. V. Bune, S. Sen, S. Mukherjee, A. V. Catalina and D. M. Stefanescu. (2000). Effect of melt convection at various gravity levels and orientations on the forces acting on a large spherical particle in the vicinity of a solidification interface.
  • Bune, A.V., Sen, S., Mukherjee, S., Catalina, A., Stefanescu, D.M. (2000). Effect of melt convection at various gravity levels and orientations on the forces acting on a large spherical particle in the vicinity of a solidification interface. Journal of Crystal Growth. 211 (1) 446–451. Elsevier.
  • Bune, A.V., Sen, S., Mukherjee, S., Catalina, A., Stefanescu, D.M. (2000). Effect of melt convection at various gravity levels and orientations on the forces acting on a large spherical particle in the vicinity of a solidification interface. Journal of Crystal Growth. 211 (1-4) 446--451. North-Holland.
  • Sukhija, R., Dhindaw, B.K., Mukherjee, S. (1999). Effect of heat treatment parameters on hardness variation of ADI studied by factorially designing the experiments. International Journal of Cast Metals Research. 11 (6) 557–560. Taylor & Francis.
  • Sukhija, R., Dhindaw, B.K., Mukherjee, S. (1999). Effect of heat treatment parameters on hardness variation of ADI studied by factorially designing the experiments. International Journal of Cast Metals Research. 11 (6) 557--560. Taylor \& Francis.
  • R. Sukhija, B. K. Dhindaw and S. Mukherjee. (1999). Effect of heat treatment parameters on the hardness variation of ADI studied by factorial designing the experiments.
  • Bune, A.V., Sen, S., Mukherjee, S., Catalina, A., Stefanescu, D.M. (1999). Numerical Analysis of Temperature Gradients and Interface Shape During Directional Solidification of Al and Al-Cu Alloy Under Microgravity Conditions.
  • Bune, A.V., Sen, S., Mukherjee, S., Catalina, A., Stefanescu, D.M. (1999). Numerical Analysis of Temperature Gradients and Interface Shape During Directional Solidification of Al and Al-Cu Alloy Under Microgravity Conditions.
  • Dhindaw, B., Sukhija, R., Mukherjee, S. (1998). Effect of heat treatment parameters on hardness variation of ADI studied by factorially designing the experiments. International Journal of Cast Metals Research. 11 (6) 557–560.
  • Mukherjee, S., Mishra, R., Kumar, M. (1997). Generalised Software for Transducer Linearization. Other. 24--30. INSTITUTE OF ENGINEERS INDIA.
  • KK, D.G., others. (1946). The characteristics of magnesium trisilicate.. Other. 19 14--21.

    • Other

  • Das, S., Mukherjee, S. (2023). Binary Ag—Cu amorphous thin-films for electronic applications.
  • Mukherjee, S. (2014). Bulk Metallic Glasses: December 1-6, 2013, Boston, Massachusetts, USA. Cambridge University Press.

    • Ph.D. Thesis

  • Mukherjee, S. (2005). Study of crystallization behavior, kinetics and thermodynamics of bulk metallic glasses using noncontact electrostatic levitation technique. California Institute of Technology.
  • Mukherjee, S. (2005). Study of crystallization behavior, kinetics and thermodynamics of bulk metallic glasses using noncontact electrostatic levitation technique. California Institute of Technology.
  • Mukherjee, S. (2001). An Experimental and Theoretical Study of Liquid Convection Effects on Particle Engulfment and Pushing. University of Alabama.
  • Mukherjee, S. (2001). An Experimental and Theoretical Study of Liquid Convection Effects on Particle Engulfment and Pushing. University of Alabama.

Contracts, Grants and Sponsored Research

    Contract

  • Shepherd, N.D. (Co-Principal), Mishra, R.S. (Principal), Baskes, M.I. (Co-Principal), Reidy, R.F. (Co-Principal), Scharf, T.W. (Co-Principal), Young, M.L. (Co-Principal), Banerjee, R. (Co-Principal), Srivilliputhur, S.G. (Co-Principal), Mukherjee, S. (Co-Principal), Agrawal, P. (Co-Principal), "Hierarchically Structured Materials Systems for Enhanced Dynamic Performance," sponsored by ARL, Federal, $5250000 Funded. (2023 - 2024).
  • Mishra, R.S. (Principal), Scharf, T.W. (Co-Principal), Srivilliputhur, S.G. (Co-Principal), Jiang, Y. (Co-Principal), Mukherjee, S. (Co-Principal), Young, M.L. (Co-Principal), Banerjee, R. (Co-Principal), Reidy, R.F. (Co-Principal), Shepherd (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by US Army Research Laboratory - ARL, Federal, $5500000 Funded. (2021 - 2022).
  • Mishra, R.S., Scharf, T.W., Srivilliputhur, S.G., Jiang, Y., Mukherjee, S., Young, M.L., Shepherd, N., Reidy, R.F., "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by US Army Research Laboratory - ARL, Federal, $3250000 Funded. (2020 - 2021).
  • Dahotre, N. (Co-Principal), Mishra, R.S. (Principal), Reidy, R.F. (Co-Principal), Young, M.L. (Co-Principal), Banerjee, R. (Co-Principal), Scharf, T.W. (Co-Principal), Srivilliputhur, S.G. (Co-Principal), Du, J. (Co-Principal), Xia, Z. (Co-Principal), Mukherjee, S. (Co-Principal), Voevodin, A.A. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by US Army Research Laboratory, Federal, $2000000 Funded. (2018 - 2020).
  • Mishra, R.S. (Principal), Banerjee, R. (Co-Principal), Dahotre, N.B. (Co-Principal), Du, J. (Co-Principal), Mukherjee, S. (Co-Principal), Reidy, R.F. (Co-Principal), Scharf, T.W. (Co-Principal), Srivilliputhur, S.G. (Co-Principal), Verbeck, G.F. (Co-Principal), Voevodin, A.A. (Co-Principal), Xia, Z. (Co-Principal), Young, M.L. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by US Army Research Laboratory - ARL, Federal, $1000000 Funded. (2018 - 2020).
  • Dahotre, N., Mukherjee, S., "Engineered Materials and Materials Design of Engineered Materials (EMMDEM); Tactical Shelters," sponsored by Army Research Office, Federal, $171166 Funded. (2017 - 2019).
  • Mishra, R.S. (Principal), Banerjee, R. (Co-Principal), Mukherjee, S. (Co-Principal), Reidy, R.F. (Co-Principal), Scharf, T.W. (Co-Principal), Xia, Z. (Co-Principal), Young, M.L. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology Materials Development, Characterization and Computational Modeling Activities; You do not have access to modify this field.Technical Proposal for Advanced Ballistics Technology Materials Development, Characterization and Computational Modeling Activities," sponsored by ARL subcontract through Temple University - Of The Commonwealth System of Higher Education; You do not have access to modify this field.ARL subcontract through Temple University - Of The Commonwealth System of Higher Education, Federal, $2197537 Funded. (2017 - 2018).
  • Mishra, R.S. (Principal), Banerjee, R. (Co-Principal), Mukherjee, S. (Co-Principal), Reidy, R.F. (Co-Principal), Scharf, T.W. (Co-Principal), Xia, Z. (Co-Principal), Young, M.L. (Co-Principal), "Technical Proposal for Advanced Ballistics Technology Materials Development, Characterization and Computational Modeling Activities," sponsored by ARL subcontract through Temple University - Of The Commonwealth System of Higher Education, Federal, $3754970 Funded. (2016 - 2017).
  • Mishra, R.S., Scharf, T.W., Srivilliputhur, S.G., Jiang, Y., Mukherjee, S., Young, M.L., Shepherd, N., Reidy, R.F., "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by US Army Research Laboratory - ARL, Federal, Funded. (2020 - 2021).

    • Grant - Research

  • Mukherjee, S. (Principal), "NSF-PFI Supplemental: Next Generation Fuel Cell Catalysts for Efficient Energy Conversion," sponsored by National Science Foundation, Federal, $110000 Funded. (2020 - 2025).
  • Mukherjee, S. (Principal), "Next Generation Fuel Cell Catalysts for Efficient Energy Conversion (NSF award# 1919220)," sponsored by National Science Foundation, Federal, $250000 Funded. (2019 - 2025).
  • Mukherjee, S. (Principal), "NSF-CMMI Supplemental: Data Science Activities for the Civil, Mechanical and Manufacturing," sponsored by National Science Foundation, Federal, $70000 Funded. (2020 - 2024).
  • Mukherjee, S. (Principal), Xia, Z. (Co-Principal), "GOALI: Friction Joining of Bulk Metallic Glasses and Their Composites (NSF award# 1762545)," sponsored by National Science Foundation, Federal, $469296 Funded. (2018 - 2024).
  • Mukherjee, S. (Principal), Andreussi, O. (Co-Principal), "Integrated Experimental and Computational Approach for Design and Synthesis of High- Performance Metallic Glass Electrocatalysts for Energy Conversion and Storage Technologies," sponsored by UNT COS/CENG, University of North Texas, $10000 Funded. (2021 - 2022).
  • Mukherjee, S. (Principal), "Advanced Manufacturing of Hierarchical Metallic Glasses (NSF award# 1561886)," sponsored by National Science Foundation, Federal, $220000 Funded. (2019 - 2021).
  • Mukherjee, S. (Principal), "US-India Partnership for Manufacturing of Advanced Metallic Bio-implants," sponsored by Department of State, Federal, $100000 Funded. (2019 - 2020).
  • Dahotre, N.B. (Principal), Mukherjee, S. (Co-Principal), Nasrazadani, S. (Co-Principal), Yu, C. (Co-Principal), Zhang, H. (Co-Principal), "Title Removed - Export Controlled," sponsored by KRI at Northeastern, Federal, $110867 Funded. (2019 - 2020).
  • Mukherjee, S. (Co-Principal), Dahotre, N.B. (Principal), Voevodin, A.A. (Co-Principal), Nasrazadani, S. (Co-Principal), Yu, C. (Co-Principal), Zhang, H. (Co-Principal), "Engineered Materials and Materials Design of Engineered Materials," sponsored by Northeastern University (Army Natick Subcontract), Federal, $1000000 Funded. (2018 - 2019).
  • Mukherjee, S. (Principal), "Wear and friction behavior of automotive coatings," sponsored by Toyota, Private, $25000 Funded. (2018 - 2019).
  • Mukherjee, S. (Principal), "Nano-mechanical characterization of high strength metallic alloys," sponsored by Hysitron Incorporated, Private, $40000 Funded. (2017 - 2019).
  • Mukherjee, S. (Principal), Xia, Z. (Co-Principal), "Nanomanufacturing Of Metallic Glasses," sponsored by National Science Foundation, Federal, $216000 Funded. (2016 - 2019).
  • Mukherjee, S. (Principal), "Metallic glass catalysts for energy conversion and storage (NSF-ICorps)," sponsored by National Science Foundation, Federal, $50000 Funded. (2017 - 2018).
  • Mukherjee, S. (Principal), Mishra, R.S. (Co-Principal), "Reduced Activity Complex Concentrated Alloys for Generation IV Reactor Systems," sponsored by DOE STTR (ATS-MER Sub-contract), Federal, $90000 Funded. (2017 - 2018).
  • Mukherjee, S. (Principal), Mishra, R.S. (Co-Principal), Voevodin, A.A. (Co-Principal), Schultz, D.R. (Principal), Nasrazadani, S. (Co-Principal), Yu, C. (Co-Principal), Zhang, H. (Co-Principal), "Light Weight Composite Structures for Advanced Tactical Shelters," sponsored by Northeastern University (Army Natick Subcontract), Federal, $873283 Funded. (2016 - 2018).
  • Scharf, T.W., Mishra, R.S., Banerjee, R., Mukherjee, S., Reidy, R.F., Xia, Z., Young, M.L., "Technical Proposal for Advanced Ballistics Technology Materials Development, Characterization and Computational Modeling Activitie," sponsored by Temple University, University of North Texas, $3754970.00 Funded. (2016 - 2017).
  • Mukherjee, S. (Co-Principal), Mishra, R.S. (Principal), "Friction Stir Additive Manufacturing of Titanium Alloys for High Performance Military Applications," sponsored by DOD STTR (ATS-MER Sub-contract), Federal, $90000 Funded. (2016 - 2017).
  • Mukherjee, S. (Co-Principal), Mishra, R.S. (Principal), "Friction Stir Additive Manufacturing for Gradient Structures for Small Modular Reactors," sponsored by DOE STTR (ATS-MER Sub-contract), Federal, $83000 Funded. (2015 - 2016).
  • Mukherjee, S. (Co-Principal), Mishra, R.S. (Principal), "Friction Stir Additive Manufacturing for Ultrasupercritical Power Plant Systems," sponsored by DOE STTR (ATS-MER Sub-contract), Federal, $83000 Funded. (2015 - 2016).
  • Mukherjee, S. (Principal), "PFI-TT: Next Generation Fuel Cell Catalysts for Efficient Energy Conversion," sponsored by National Science Foundation, FED, Funded. (2019 - 2023).
  • Mukherjee, S. (Principal), "NSF-CMMI Supplemental: Data Science Activities for the Civil, Mechanical and Manufacturing," sponsored by National Science Foundation, Federal, Funded. (2020 - 2022).
  • Mukherjee, S. (Principal), "NSF-PFI Supplemental: Next Generation Fuel Cell Catalysts for Efficient Energy Conversion," sponsored by National Science Foundation, Federal, Funded. (2020 - 2022).
  • Mukherjee, S. (Principal), "Next Generation Fuel Cell Catalysts for Efficient Energy Conversion (NSF award# 1919220)," sponsored by National Science Foundation, Federal, Funded. (2019 - 2022).
  • Mukherjee, S. (Principal), Xia, Z. (Co-Principal), "GOALI: Friction Joining of Bulk Metallic Glasses and Their Composites (NSF award# 1762545)," sponsored by National Science Foundation, Federal, Funded. (2018 - 2022).
  • Du, J. (Co-Principal), Young, M.L. (Principal), Dahotre, N.B. (Co-Principal), Shepherd, N.D. (Principal), Banerjee, R. (Principal), Mishra, R.S. (Principal), Reidy, R.F. (Principal), Srivilliputhur, S.G. (Principal), Mukherjee, S. (Principal), Scharf, T.W. (Principal), Jiang, Y. (Principal), Xia, Z. (Principal), "Technical Proposal for Advanced Ballistics Technology: A Mechanisms-based Approach to Designing Materials Systems for Enhanced Dynamic Performance," sponsored by U.S. Army Research Laboratory, FED, Funded. (2018 - 2022).
  • Xia, Z. (Principal), Mukherjee, S. (Principal), "GOALI: Friction Stir Joining of Bulk Metallic Glasses and Their Composites," sponsored by National Science Foundation, FED, Funded. (2018 - 2022).
  • Xia, Z. (Principal), Mukherjee, S. (Principal), "Nanomanufacturing Of Hierarchical Metallic Glasses As High-Performance Electrocatalysts," sponsored by National Science Foundation, FED, Funded. (2016 - 2022).
  • Mukherjee, S. (Principal), "Advanced Manufacturing of Hierarchical Metallic Glasses (NSF award# 1561886)," sponsored by National Science Foundation, Federal, Funded. (2019 - 2021).
  • Yu, C. (Co-Principal), Zhang, H. (Co-Principal), Dahotre, N.B. (Principal), Nasrazadani, S. (Co-Principal), Mukherjee, S. (Co-Principal), "Advanced Materials, Devices, and Structures for the Expeditionary Maneuver and Support (EMS) of Tactical shelters," sponsored by George J. Kostas Research Institute, IND, Funded. (2019 - 2020).
  • Mukherjee, S. (Principal), "US-India Partnership for Manufacturing of Advanced Metallic Bio-implants," sponsored by Department of State, Federal, Funded. (2019 - 2020).
  • Mukherjee, S. (Principal), "US-India Partnership for Manufacturing of Advanced Metallic Bio-implants and Local Economic Development," sponsored by University of Nebraska at Omaha, NFP, Funded. (2018 - 2020).
  • Dahotre, N. (Principal), Mukherjee, S. (Co-Principal), Nasrazadani, S. (Co-Principal), Yu, C. (Co-Principal), Zhang, H. (Co-Principal), "Title Removed - Export Controlled," sponsored by KRI at Northeastern, Federal, Funded. (2019 - 2020).
  • Mukherjee, S. (Principal), "Wear and friction behavior of automotive coatings," sponsored by Toyota, Private, Funded. (2018 - 2019).
  • Mukherjee, S. (Principal), Xia, Z. (Co-Principal), "Nanomanufacturing Of Metallic Glasses," sponsored by National Science Foundation, Federal, Funded. (2016 - 2019).
  • Mukherjee, S. (Principal), "Nano-Mechanical Characterization of High Strength Metallic Alloys," sponsored by Hysitron Incorporated, IND, Funded. (2017 - 2019).
  • Voevodin, A.A. (Principal), Yu, C. (Principal), Zhang, H. (Principal), Dahotre, N.B. (Principal), Nasrazadani, S. (Principal), Mukherjee, S. (Principal), "Engineered Materials and Materials Design of Engineered Materials (EMMDEM); Tactical Shelters; NU Year 2," sponsored by Northeastern University, NFP, Funded. (2017 - 2019).
  • Mukherjee, S. (Principal), "Metallic glass catalysts for energy conversion and storage (NSF-ICorps)," sponsored by National Science Foundation, Federal, Funded. (2017 - 2018).
  • Mukherjee, S. (Principal), Mishra, R.S. (Co-Principal), Voevodin, A. (Co-Principal), Schultz, D.R. (Principal), Nasrazadani, S. (Co-Principal), Yu, C. (Co-Principal), Zhang, H. (Co-Principal), "Light Weight Composite Structures for Advanced Tactical Shelters," sponsored by Northeastern University (Army Natick Subcontract), Federal, Funded. (2016 - 2018).
  • Mukherjee, S. (Principal), "I-Corps: Metallic glass catalysts for energy conversion and storage," sponsored by National Science Foundation, FED, Funded. (2017 - 2018).
  • Young, M.L. (Co-Principal), Banerjee, R. (Co-Principal), Mishra, R.S. (Principal), Reidy, R.F. (Co-Principal), Mukherjee, S. (Co-Principal), Scharf, T.W. (Co-Principal), Xia, Z. (Principal), "Technical Proposal for Advanced Ballistics Technology Materials Development, Characterization and Computational Modeling Activities," sponsored by Temple University - Of The Commonwealth, NFP, Funded. (2016 - 2018).
  • Voevodin, A.A. (Principal), Yu, C. (Principal), Zhang, H. (Principal), Mishra, R.S. (Principal), Nasrazadani, S. (Principal), Mukherjee, S. (Principal), "Engineered Materials and Materials Design of Engineered Materials (EMMDEM): Tactical Shelters," sponsored by Northeastern University, NFP, Funded. (2016 - 2018).
  • Mukherjee, S. (Principal), "Reduced Activity Complex Concentrated Alloys for Generation IV Reactor Systems," sponsored by ATS-MER, LLC, IND, Funded. (2017 - 2018).
  • Mishra, R.S. (Principal), Mukherjee, S. (Co-Principal), "Friction Stir Additive Manufacturing of Titanium Alloys for High Performance Military Applications," sponsored by ATS-MER, LLC, IND, Funded. (2016 - 2017).
  • Mishra, R.S. (Principal), Mukherjee, S. (Co-Principal), "Friction Stir Additive Manufacturing For Gradient Structures For Small Modular Reactors," sponsored by ATS-MER, LLC, IND, Funded. (2015 - 2016).
  • Mishra, R.S. (Principal), Mukherjee, S. (Co-Principal), "Friction Stir Additive Manufacturing for Ultrasupercritical Power Plant Systems," sponsored by ATS-MER, LLC, IND, Funded. (2015 - 2016).
  • Mukherjee, S. (Principal), "Heat Treatment of APS Aluminum Alloys," sponsored by Advanced Powder Solutions, Inc., IND, Funded. (2015 - 2015).
,
Overall
Summative Rating		 Challenge and
Engagement Index		 Response Rate

out of 5
out of 7		 %
of
students responded
  • Overall Summative Rating (median):
    This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
    • The course as a whole was
    • The course content was
    • The instructor’s contribution to the course was
    • The instructor’s effectiveness in teaching the subject matter was
  • Challenge and Engagement Index:
    This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
    • Do you expect your grade in this course to be
    • The intellectual challenge presented was
    • The amount of effort you put into this course was
    • The amount of effort to succeed in this course was
    • Your involvement in course (doing assignments, attending classes, etc.) was
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