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Usha Philipose

Title: Professor

Department: Physics

College: College of Science

Curriculum Vitae

Curriculum Vitae Link

Education

  • PhD, University of Toronto, 2006
    Major: Materials Science and Engineering
    Dissertation: Growth and Characterization of Semiconductor Nanowires
  • MPhil, University of Mumbai (earlier known as University of Bombay), 1992
    Major: Physics
  • MS, University of Mumbai (earlier known as University of Bombay), 1984
    Major: Physics

Current Scheduled Teaching

PHYS 4520.001Physics of Nano scale MaterialsSpring 2025
PHYS 6950.755Doctoral DissertationFall 2024
PHYS 2220.001Electricity and MagnetismFall 2024 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2024 Syllabus
PHYS 2220.202Electricity and MagnetismFall 2024 Syllabus
PHYS 2220.203Electricity and MagnetismFall 2024 Syllabus
PHYS 2220.204Electricity and MagnetismFall 2024 Syllabus
PHYS 6940.755Individual ResearchFall 2024

Previous Scheduled Teaching

PHYS 6950.764Doctoral DissertationSpring 2024
PHYS 6940.762Individual ResearchSpring 2024
PHYS 1710.001MechanicsSpring 2024 Syllabus SPOT
PHYS 1710.201MechanicsSpring 2024 Syllabus
PHYS 1710.202MechanicsSpring 2024 Syllabus
PHYS 1710.203MechanicsSpring 2024 Syllabus
PHYS 1710.204MechanicsSpring 2024 Syllabus
PHYS 1710.205MechanicsSpring 2024 Syllabus
PHYS 4955.750Senior Thesis CapstoneSpring 2024
PHYS 6950.755Doctoral DissertationFall 2023
PHYS 2220.001Electricity and MagnetismFall 2023 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2023 Syllabus SPOT
PHYS 2220.202Electricity and MagnetismFall 2023 Syllabus SPOT
PHYS 2220.203Electricity and MagnetismFall 2023 Syllabus SPOT
PHYS 2220.204Electricity and MagnetismFall 2023 Syllabus SPOT
PHYS 6940.755Individual ResearchFall 2023
PHYS 4950.751Senior ThesisFall 2023
PHYS 5910.755Special ProblemsFall 2023
PHYS 4900.750Special ProblemsSummer 5W1 2023
PHYS 6950.764Doctoral DissertationSpring 2023
PHYS 6940.762Individual ResearchSpring 2023
PHYS 4520.001Physics of Nano scale MaterialsSpring 2023 Syllabus SPOT
PHYS 4520.201Physics of Nano scale MaterialsSpring 2023 Syllabus
PHYS 5910.753Special ProblemsSpring 2023
PHYS 6950.755Doctoral DissertationFall 2022
PHYS 2220.001Electricity and MagnetismFall 2022 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2022 Syllabus
PHYS 2220.202Electricity and MagnetismFall 2022 Syllabus
PHYS 2220.203Electricity and MagnetismFall 2022 Syllabus
PHYS 2220.205Electricity and MagnetismFall 2022 Syllabus
PHYS 6940.755Individual ResearchFall 2022
PHYS 5910.755Special ProblemsFall 2022
PHYS 6940.755Individual ResearchSpring 2022
PHYS 1710.001MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.201MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.202MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.203MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.204MechanicsSpring 2022 Syllabus SPOT
PHYS 1710.205MechanicsSpring 2022 SPOT
PHYS 4955.751Senior Thesis CapstoneSpring 2022
PHYS 5910.755Special ProblemsSpring 2022
PHYS 5910.770Special ProblemsSpring 2022
PHYS 6950.755Doctoral DissertationFall 2021
PHYS 2220.001Electricity and MagnetismFall 2021 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2021 Syllabus
PHYS 2220.202Electricity and MagnetismFall 2021 Syllabus
PHYS 2220.203Electricity and MagnetismFall 2021 Syllabus
PHYS 2220.204Electricity and MagnetismFall 2021 Syllabus
PHYS 2220.205Electricity and MagnetismFall 2021 Syllabus
PHYS 6940.755Individual ResearchFall 2021
PHYS 4950.004Senior ThesisFall 2021
PHYS 5910.755Special ProblemsFall 2021
PHYS 4950.704Senior ThesisSummer 5W1 2021
PHYS 4955.704Senior Thesis CapstoneSummer 5W2 2021
PHYS 6950.755Doctoral DissertationSpring 2021
PHYS 6940.755Individual ResearchSpring 2021
PHYS 4520.001Physics of Nano scale MaterialsSpring 2021 Syllabus SPOT
PHYS 4520.201Physics of Nano scale MaterialsSpring 2021 Syllabus SPOT
PHYS 5910.755Special ProblemsSpring 2021
PHYS 6950.755Doctoral DissertationFall 2020
PHYS 2220.001Electricity and MagnetismFall 2020 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2020 Syllabus
PHYS 2220.202Electricity and MagnetismFall 2020 Syllabus
PHYS 2220.203Electricity and MagnetismFall 2020 Syllabus
PHYS 2220.204Electricity and MagnetismFall 2020 Syllabus
PHYS 2220.205Electricity and MagnetismFall 2020 Syllabus
PHYS 6940.755Individual ResearchFall 2020
PHYS 4950.004Senior ThesisFall 2020
PHYS 5910.755Special ProblemsFall 2020
PHYS 5920.755Research Problems in Lieu of ThesisSummer 5W1 2020
PHYS 5930.002Research Problems in Lieu of ThesisSummer 5W2 2020
PHYS 6950.755Doctoral DissertationSpring 2020
PHYS 6940.755Individual ResearchSpring 2020
PHYS 1710.003MechanicsSpring 2020 Syllabus
PHYS 1710.211MechanicsSpring 2020 Syllabus
PHYS 1710.212MechanicsSpring 2020 Syllabus
PHYS 1710.213MechanicsSpring 2020 Syllabus
PHYS 4950.003Senior ThesisSpring 2020
PHYS 4955.012Senior Thesis CapstoneSpring 2020
PHYS 5910.755Special ProblemsSpring 2020
PHYS 6950.755Doctoral DissertationFall 2019
PHYS 6940.755Individual ResearchFall 2019
PHYS 4950.004Senior ThesisFall 2019
PHYS 4955.004Senior Thesis CapstoneFall 2019
PHYS 5910.755Special ProblemsFall 2019
PHYS 4950.702Senior ThesisSummer 10W 2019
PHYS 6910.755Special ProblemsSummer 5W1 2019
PHYS 6950.755Doctoral DissertationSpring 2019
PHYS 1710.001MechanicsSpring 2019 Syllabus SPOT
PHYS 1710.201MechanicsSpring 2019
PHYS 1710.202MechanicsSpring 2019
PHYS 1710.209MechanicsSpring 2019
PHYS 1710.210MechanicsSpring 2019
PHYS 1710.211MechanicsSpring 2019
PHYS 4520.001Physics of Nano scale MaterialsSpring 2019 Syllabus SPOT
PHYS 4520.201Physics of Nano scale MaterialsSpring 2019 SPOT
PHYS 4950.003Senior ThesisSpring 2019
PHYS 4955.012Senior Thesis CapstoneSpring 2019
PHYS 5910.755Special ProblemsSpring 2019
PHYS 6950.755Doctoral DissertationFall 2018
PHYS 2220.001Electricity and MagnetismFall 2018 Syllabus SPOT
PHYS 2220.002Electricity and MagnetismFall 2018 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2018
PHYS 2220.202Electricity and MagnetismFall 2018
PHYS 2220.203Electricity and MagnetismFall 2018
PHYS 2220.204Electricity and MagnetismFall 2018
PHYS 2220.205Electricity and MagnetismFall 2018
PHYS 2220.206Electricity and MagnetismFall 2018
PHYS 2220.207Electricity and MagnetismFall 2018
PHYS 2220.208Electricity and MagnetismFall 2018
PHYS 2220.209Electricity and MagnetismFall 2018
PHYS 2220.210Electricity and MagnetismFall 2018
PHYS 5910.755Special ProblemsFall 2018
PHYS 6950.755Doctoral DissertationSummer 5W2 2018
PHYS 5920.001Research Problems in Lieu of ThesisSummer 5W2 2018
PHYS 5930.002Research Problems in Lieu of ThesisSummer 5W2 2018
PHYS 6950.755Doctoral DissertationSpring 2018
PHYS 6940.755Individual ResearchSpring 2018
PHYS 1710.001MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.003MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.201MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.202MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.207MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.208MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.209MechanicsSpring 2018 Syllabus SPOT
PHYS 1710.210MechanicsSpring 2018 Syllabus SPOT
PHYS 4955.014Senior Thesis CapstoneSpring 2018
PHYS 5910.755Special ProblemsSpring 2018
PHYS 6950.755Doctoral DissertationFall 2017
PHYS 2220.001Electricity and MagnetismFall 2017 Syllabus SPOT
PHYS 2220.201Electricity and MagnetismFall 2017 Syllabus SPOT
PHYS 2220.202Electricity and MagnetismFall 2017 Syllabus SPOT
PHYS 2220.205Electricity and MagnetismFall 2017 Syllabus SPOT
PHYS 6940.755Individual ResearchFall 2017
PHYS 4950.004Senior ThesisFall 2017
PHYS 5900.755Special ProblemsFall 2017
PHYS 6950.755Doctoral DissertationSpring 2017
PHYS 6940.755Individual ResearchSpring 2017
PHYS 4520.002Physics of Nano scale MaterialsSpring 2017 Syllabus SPOT
PHYS 4520.201Physics of Nano scale MaterialsSpring 2017
PHYS 5910.755Special ProblemsSpring 2017
PHYS 6950.755Doctoral DissertationFall 2016
PHYS 2220.001Electricity and MagnetismFall 2016 Syllabus SPOT
PHYS 2220.204Electricity and MagnetismFall 2016
PHYS 2220.205Electricity and MagnetismFall 2016
PHYS 2220.206Electricity and MagnetismFall 2016
PHYS 6940.755Individual ResearchFall 2016
PHYS 5910.755Special ProblemsFall 2016
PHYS 6940.755Individual ResearchSummer 10W 2016
PHYS 6940.755Individual ResearchSpring 2016
PHYS 1710.002MechanicsSpring 2016 Syllabus SPOT
PHYS 1710.203MechanicsSpring 2016 SPOT
PHYS 1710.204MechanicsSpring 2016 SPOT
PHYS 1710.205MechanicsSpring 2016 SPOT
PHYS 4950.003Senior ThesisSpring 2016
PHYS 4955.012Senior Thesis CapstoneSpring 2016
PHYS 2220.001Electricity and MagnetismFall 2015 Syllabus SPOT
PHYS 2220.002Electricity and MagnetismFall 2015 Syllabus SPOT
PHYS 2220.003Electricity and MagnetismFall 2015 Syllabus SPOT
PHYS 2220.204Electricity and MagnetismFall 2015
PHYS 2220.205Electricity and MagnetismFall 2015
PHYS 2220.206Electricity and MagnetismFall 2015
PHYS 6940.755Individual ResearchFall 2015
PHYS 5910.755Special ProblemsFall 2015
PHYS 5910.755Special ProblemsSummer 5W2 2015
PHYS 6940.755Individual ResearchSpring 2015
PHYS 1710.001MechanicsSpring 2015 Syllabus
PHYS 1710.201MechanicsSpring 2015
PHYS 1710.202MechanicsSpring 2015
PHYS 4955.012Senior Thesis CapstoneSpring 2015
PHYS 5910.755Special ProblemsSpring 2015
PHYS 4210.001Electricity and MagnetismFall 2014 Syllabus
PHYS 4210.201Electricity and MagnetismFall 2014
PHYS 4950.004Senior ThesisFall 2014
PHYS 4955.004Senior Thesis CapstoneFall 2014
PHYS 5910.755Special ProblemsFall 2014
PHYS 4955.002Senior Thesis CapstoneSummer 5W2 2014
PHYS 5910.755Special ProblemsSummer 10W 2014
PHYS 6950.755Doctoral DissertationSpring 2014
PHYS 1710.001MechanicsSpring 2014 Syllabus
PHYS 4950.003Senior ThesisSpring 2014
PHYS 5900.755Special ProblemsSpring 2014
PHYS 6950.755Doctoral DissertationFall 2013
PHYS 2220.001Electricity and MagnetismFall 2013 Syllabus
PHYS 2220.204Electricity and MagnetismFall 2013 Syllabus
PHYS 2220.205Electricity and MagnetismFall 2013 Syllabus
PHYS 2220.206Electricity and MagnetismFall 2013 Syllabus
EENG 5950.020Master's ThesisFall 2013
PHYS 4950.003Senior ThesisSummer 5W1 2013
PHYS 4955.001Senior Thesis CapstoneSummer 5W2 2013
PHYS 4910.755Special ProblemsSummer 5W2 2013
PHYS 6950.755Doctoral DissertationSpring 2013
EENG 5950.012Master's ThesisSpring 2013
PHYS 4520.001Physics of Nano scale MaterialsSpring 2013 Syllabus
PHYS 4520.201Physics of Nano scale MaterialsSpring 2013
PHYS 6950.755Doctoral DissertationFall 2012
PHYS 1710.002MechanicsFall 2012 Syllabus
PHYS 1710.211MechanicsFall 2012
PHYS 1710.212MechanicsFall 2012
PHYS 1710.213MechanicsFall 2012
PHYS 4950.004Senior ThesisFall 2012
PHYS 6950.755Doctoral DissertationSummer 10W 2012
PHYS 4950.777Senior ThesisSummer 10W 2012
PHYS 6950.755Doctoral DissertationSpring 2012
PHYS 4951.002Honors College Capstone ThesisSpring 2012
PHYS 1730.501Laboratory in MechanicsSpring 2012
PHYS 1710.001MechanicsSpring 2012 Syllabus
PHYS 1710.201MechanicsSpring 2012
PHYS 1710.202MechanicsSpring 2012
PHYS 1710.203MechanicsSpring 2012
PHYS 6950.755Doctoral DissertationFall 2011
PHYS 2220.001Electricity and MagnetismFall 2011 Syllabus
PHYS 2220.204Electricity and MagnetismFall 2011
PHYS 2220.205Electricity and MagnetismFall 2011
PHYS 2220.206Electricity and MagnetismFall 2011
PHYS 5950.700Master's ThesisFall 2011
PHYS 4950.004Senior ThesisFall 2011
PHYS 5900.755Special ProblemsFall 2011
PHYS 5910.755Special ProblemsFall 2011
PHYS 4950.001Senior ThesisSummer 5W2 2011
PHYS 4950.001Senior ThesisSummer 5W1 2011
PHYS 5900.755Special ProblemsSummer 5W2 2011
PHYS 5910.755Special ProblemsSummer 5W1 2011
PHYS 6940.755Individual ResearchSpring 2011
PHYS 5950.750Master's ThesisSpring 2011
PHYS 1710.001MechanicsSpring 2011 Syllabus
PHYS 1710.201MechanicsSpring 2011
PHYS 1710.202MechanicsSpring 2011
PHYS 1710.203MechanicsSpring 2011
PHYS 1710.204MechanicsSpring 2011
PHYS 4950.003Senior ThesisSpring 2011
PHYS 5910.755Special ProblemsSpring 2011
PHYS 4980.001Experimental CourseFall 2010 Syllabus
PHYS 4980.201Experimental CourseFall 2010
PHYS 5950.750Master's ThesisFall 2010
PHYS 5900.755Special ProblemsFall 2010
PHYS 5910.755Special ProblemsFall 2010
PHYS 5910.755Special ProblemsSummer 5W1 2010
PHYS 1710.001MechanicsSpring 2010
PHYS 1710.201MechanicsSpring 2010
PHYS 1710.202MechanicsSpring 2010
PHYS 1710.203MechanicsSpring 2010
PHYS 1710.204MechanicsSpring 2010
PHYS 4910.755Special ProblemsSpring 2010
PHYS 5910.767Special ProblemsSpring 2010
PHYS 1710.001MechanicsFall 2009
PHYS 1710.204MechanicsFall 2009
PHYS 1710.208MechanicsFall 2009
PHYS 1710.209MechanicsFall 2009
PHYS 1710.210MechanicsFall 2009
PHYS 5900.755Special ProblemsFall 2009
PHYS 5910.755Special ProblemsFall 2009
PHYS 1710.001MechanicsSummer 5W1 2009
PHYS 1710.201MechanicsSummer 5W1 2009
PHYS 5900.755Special ProblemsSummer 5W2 2009
PHYS 1710.001MechanicsSpring 2009
PHYS 1710.201MechanicsSpring 2009
PHYS 1710.202MechanicsSpring 2009
PHYS 1710.203MechanicsSpring 2009
PHYS 1710.204MechanicsSpring 2009
PHYS 4950.003Senior ThesisSpring 2009
PHYS 2220.001Electricity and MagnetismFall 2008
PHYS 2220.204Electricity and MagnetismFall 2008
PHYS 2220.205Electricity and MagnetismFall 2008
PHYS 2220.206Electricity and MagnetismFall 2008
PHYS 4950.005Senior ThesisFall 2008

Published Intellectual Contributions

    Abstracts and Proceedings

  • Syllaios, A.J., Farmer, G., Naciri, A., Philipose, U., Littler, C.L. (2024). Analyzing thermal conductance measurements in microbolometers. SPIE: Infrared Sensors, Devices, and Applications. 1314503 SPIE.
  • Naciri, A., Farmer, G., Littler, C.L., Syllaios, A.J., Philipose, U. (2024). Effects of thermal annealing on vanadium oxide thin film properties. SPIE: Infrared Sensors, Devices, and Applications. SPIE Digital Library as part of the proceedings of the 13145 conference. 13145 SPIE.
  • Femi-Oyetoro, J., Yao, K., Jiang, Y., Hathaway, E., Ojo, I., Squires, B., Neogi, A., Cui, J., Philipose, U., Perez, J.M. (2021). Structural and Optical Stability of Bilayer and Few-Layer MoS2 in Ambient Air. 66 Virtual, 2021 Joint Spring Meeting of the Texas Sections of APS, AAPT and Zone 13 of the SPS.
  • Ojo, I., Yao, K., Banerjee, D., Femi-Oyetoro, J., Hathaway, E., Jiang, Y., Squires, B., Jones, D., Neogi, A., Cui, J., Philipose, U., Agarwal, A., Lu, E., Yao, S., Khare, M., Marshall, G., Perez, J.M. (2020). Growth of Monolayer MoS2 on Hydrophobic Substrates as a Method to Prevent Ambient Degradation.. Arlington, TX, Virtual Fall 2020 American Physical Society Texas Section Meeting.
  • Femi-Oyetoro, J., Yao, K., Hathaway, E., Jiang, Y., Ojo, I., Squires, B., Neogi, A., Cui, J., Philipose, U., Gadiyaram, N., Zhou, W., Perez, J.M. (2020). Multi-Layer Transition Metal Dichalcogenide Encapsulation of Reactive Van der Waals Materials for Stable Heterostructure Devices. Arlington, TX, Virtual Fall 2020 American Physical Society Texas Section Meeting.
  • U. Philipose, Harry E. Ruda, T.Xu, S. Yang and Ping Sun. (2006). Light emission from ZnSe nanowires.
  • Book Chapter

  • Singh, A., Philipose, U. Understanding the Mechanisms That Affect the Quality of Electrochemically Grown Semiconducting Nanowires. Semiconductors - Electrochemical Growth and Characterization. Chapter 2 InTechOpen Publications. https://www.intechopen.com/booksprocess/aboutthebook/chapter/119792/book/6083
  • Usha Philipose, Gopal Sapkota. (2012). Book: NANOWIRES - Recent Advances Chapter 3: "Ferromagnetic nanowires for spintronic applications"..
  • Author: Usha Philipose; Ed: Abbass Hashim. (2011). Book: NANOWIRES - Fundamental Research Chapter 13: Role of Intrinsic defects in nanowires.
  • Conference Proceeding

  • Harcrow, M.S., Littler, C., Philipose, U., Western, B., Lopes, V., Syllaios, A.J. (2022). Conductivity and low frequency noise in VOx thin films. SPIE: Infrared Sensors, Devices, and Applications. 12234 (1223405) 8.
  • Sood, A.K., Zeller, J.W., Philipose, U., Syllaios, A., Chaudhary, L.S., Efstathiadis, H. (2022). Design and development of innovative vanadium oxide, CNT, and graphene based high-performance microbolometer. SPIE: Infrared Sensors, Devices, and Applications. 12234 15.
  • George, D., Hassan, S., Adewole, M., Lowell, D., Li, L., Ding, J., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Holographic fabrication of hole arrays in AZO for study of surface plasmon resonances. Advanced Fabrication Technologies for Micro/Nano Optics and Photonics X. 10115 1011518.
  • George, D., Hassan, S., Adweole, M., Lowell, D., Li, L., Ding, J., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Holographic fabrication of hole arrays in AZO for study of surface plasmon resonances. 10115 ((2017)) Proceeding SPIE: Advanced Fabrication Technologies for Micro/Nano Optics and Photonics X.
  • Lowell, D., George, D., Lutkenhaus, J., Philipose, U., Zhang, H., Lin, Y. (2016). Holographic fabrication of 3D photonic crystal templates with 4, 5, and 6-fold rotational symmetry using a single beam and single exposure. 9759 SPIE Proceedings.
  • Mallampati, B., Nair, S., Ruda, H.E., Philipose, U. (2015). ZnO Nanowire Based Photoconductor with High Photoconductive Gain. 1805 (mrss15-2135932) MRS Proceedings.
  • Lutkenhaus, J., George, D., Arigong, B., Zhang, H., Philipose, U., Lin, Y. (2014). Holographic fabrication of photonic crystal templates using spatial-light-modulator-based phase mask method. 897419. Proc. SPIE 8974, Advanced Fabrication Technologies for Micro/Nano Optics and Photonics VII.
  • U.Philipose, Gopal Sapkota, Pradeep Gali and Prathyusha Nukala. (2011). A Study of Point Defects and Cause of Nonstoichiometry in InSb Nanowires.
  • Shah, R., Philipose, U., Perez, J., Talapatra, S. (2011). Electrochemical Double Layer Capacitors Using Few Layers of Graphene Grown on Nickel Foil.. APS Meeting Abstracts.
  • Harry E. Ruda, U. Philipose, et al. (2010). Optical Response of II-VI ZnSe Nanowires.
  • Harry E. Ruda, J. Salfi, U. Philipose et al.,. (2009). Transport and optical response of single nanowires.
  • Journal Article

  • Sten, A., Roccapriore, K., Squires, B., Littler, C.L., Syllaios, A.J., Philipose, U. (2024). Influence of halogen precursors on the growth of InSb nanostructures. Semiconductor Science and Technology. 39 045013. IOP.
  • Roccapriore, K.M., Ziatdinov, M., Lupini, A.R., Singh, A.P., Philipose, U., Kalinin, S.V. (2024). Discovering Invariant Spatial Features in Electron Energy Loss Spectroscopy Images on the Mesoscopic and Atomic Levels. Journal of Applied Physics. 135 (11) 114303. AIP.
  • Philipose, U., Littler, C., Jiang, Y., AlNaciri, A., Harcrow, M., Syllaios, A.J. (2023). Analyzing the bolometric performance of vanadium oxide thin films modified by carbon nanotube dispersions. Materials. 16 (4) 1534. MDPI.
  • Farmer, G., Abraham, J., Littler, C.L., Syllaios, A.J., Philipose, U. (2022). Growth of Highly-Ordered Metal Nanoparticle Arrays in the Dimpled Pores of an Anodic Aluminum Oxide Template. Nanomaterials. 12 (22) 3929. MDPI.
  • Hurley, N., Kamau, S., Alnasser, K., Philipose, U., Cui, J., Lin, Y. (2022). Laser Diffraction Zones and Spots from Three-Dimensional Graded Photonic Super-Crystals and Moiré Photonic Crystals. Photonics. 9 (6) 395. MDPI.
  • Roccapriore, K.M., Ziatdinov, M., Lupini, A.R., Singh, A.P., Philipose, U., Kalinin, S.V. (2022). Discovering Invariant Spatial Features in Electron Energy Loss Spectroscopy Images on the Mesoscopic and Atomic Levels.
  • Femi-Oyetoro, J., Yao, K., Hathaway, E., Jiang, Y., Ojo, I., Squires, B., Neogi, A., Cui, J., Philipose, U., Gadiyaram, N., Zhou, W., Perez, J.M. (2021). Structural Stability of Bilayer MoS2 in Ambient Air. 8 2101188. Advanced Materials Interfaces.
  • Philipose, U., Jiang, Y., Western, B., Harcrow, M., Littler, C.L., Sood, A., Zeller, J.W., Lineberry, B., Syllaios, A. (2021). Impedance Analysis and Noise Measurements on Multi Walled Carbon Nanotube Network Materials.
  • Western, B.J., Harcrow, M.S., Philipose, U., Lopes, V., Syllaios, A.J., Littler, C.L., Andrews, S., Chang, T., Hong, J. (2021). Anomalous hopping in hydrogenated amorphous silicon doped with phosphine. Journal of Non-Crystalline Solids. no. 564 120845-120851. Elsevier. https://www.sciencedirect.com/journal/journal-of-non-crystalline-solids
  • Jiang, Y., Baben, M.t., Lin, Y., Littler, C.L., Syllaios, A., Neogi, A., Philipose, U. (2021). Analyzing growth kinematics and fractal dimensions of molybdenum disulfide films. Nanotechnology. 14 7509. Philadelphia, PA, IOP Publishing.
  • Hassan, S., Jiang, Y., AlNasser, K., Hurley, N., Zhang, H., Philipose, U., Lin, Y. (2020). Generation of over 1000 Diffraction Spots from 2D Graded Photonic Super-Crystals. 7 (2)
  • Yao, K., Bannerjee, D., Femi-Oyetoro, J., Hathaway, E., Jiang, Y., Squires, B., Jones, D., Neogi, A., Cui, J., Philipose, U., Aggarwal, A., Lu, E., Yao, S., Khare, M., A. Ojo, I., Marshall, G., Perez, J. (2020). Growth of Monolayer MoS2 on Hydrophobic Substrates as a Novel and Feasible Method to Prevent the Ambient Degradation of Monolayer MoS2. MRS Advances. 5 (52-53)
  • Sale, O., Hassan, S., Hurley, N., AlNasser, K., Philipose, U., Zhang, H., Lin, Y. (2020). Holographic fabrication of octagon graded photonic super-crystal and potential applications in topological photonics. 13 (1) 12 - 17.
  • Philipose, U., Jiang, Y., Farmer, G., Howard, C., Harcrow, M., Littler, C.L., Lopes, V., Syllaios, A.J., Sood, A., Zeller, J. (2020). Using a Novel Approach to Estimate Packing Density and Related Electrical Resistance in Multiwall Carbon Nanotube Networks. Nanomaterials.
  • El Bouanani, M., Perez, J., Philipose, U., Neogi, A., , Rout, B. (2020). Rapid ambient degradation of monolayer MoS2 after heating in air. 2D Materials.
  • Yao, K., Banerjee, D., Femi-Oyetoro, J.D., Hathaway, E., Jiang, Y., Squires, B., Jones, D.C., Neogi, A., Cui, J., Philipose, U., Agarwal, A., Lu, E., Yao, S., Khare, M., Ojo, I.A., Marshall, G., Perez, J. (2020). Growth of Monolayer MoS2on Hydrophobic Substrates as a Novel and Feasible Method to Prevent the Ambient Degradation of Monolayer MoS2. MRS Advances. https://api.elsevier.com/content/abstract/scopus_id/85092789278
  • Adewole, M., Cui, J., Lowell, D., Hassan, S., Jiang, Y., Singh, A., Ding, J., Zhang, H., Philipose, U., Lin, Y. (2019). Electrically tunable, sustainable, and erasable broadband light absorption in graphene sandwiched in Al 2 O 3 oxides. Optical Materials Express. 9 (3) 1095--1104. Optical Society of America.
  • Singh, A.P., Roccapriore, K., Algarni, Z., Salloom, R., Golden, T.D., Philipose, U. (2019). Structure and Electronic Properties of InSb Nanowires Grown in Flexible Polycarbonate Membranes. Journal of Nanomaterials.
  • Yao, K., Oyetoro, F., Yao, S., Jiang, Y., El Bouanani, L., Jones, D., Ecton, P., Philipose, U., El Bouanani, M., Rout, B., Neogi, A., Perez, J. (2019). Rapid ambient degradation of monolayer MoS2 after heating in air. 2D Materials. 7 (1) 015024.
  • Yao, K., Femi-Oyetoro, J.D., Yao, S., Jiang, Y., El Bouanani, L., Jones, D., Ecton, P., Philipose, U., El Bouanani, M., Rout, B., Neogi, A., Perez, J. (2019). Rapid ambient degradation of monolayer MoS2 after heating in air. 2D Materials. 7 015024. Denton, IOP. Department of Physics, 1155 Union Circle #311427
  • Hassan, S., Sale, O., AlNasser, K., Hurley, N., Zhang, H., Philipose, U., Lin, Y. (2019). Broadband light-matter interaction due to resonance cavities in graded photonic super-crystals. 12 (11) 3272.
  • Sale, O., Hassan, S., Hurley, N., AlNasser, K., Philipose, U., Zhang, H., Lin, Y. (2019). Holographic fabrication of octagon graded photonic supercrystal and potential applications in topological photonics. 1-6. Higher Education Press.
  • Singh, A., Roccapriore, K., Algarni, Z., Salloom, R., Golden, T., Philipose, U. (2019). Structure and electronic properties of InSb nanowires grown in flexible polycarbonate membranes. 9 (9) 1260. Basel, MDPI.
  • Sale, O., Hassan, S., Hurley, N., Khadijah, A., Philipose, U., Zhang, H., Lin, Y. Holographic fabrication of octagon graded photonic supercrystal and potential applications in topological photonics. 13 12-17.
  • Lowell, D., Hassan, S., Sale, O., Adweole, M., Hurley, N., Philipose, U., Chen, B., Lin, Y. (2018). Holographic fabrication of graded photonic super-quasi-crystals with multiple-level gradients. Applied Optics. 57 (22) 6598. OSA Publishers.
  • Jiang, Y., Lin, Y., Cui, J., Philipose, U. (2018). Effects of Strategically Placed Water Droplets on Monolayer Growth of Molybdenum Disulfide. Journal of Nanomaterials. 2018 8 pages. Hindawi.
  • AlGarni, Z., Singh, A., Philipose, U. (2018). Synthesis of Amorphous InSb Nanowires and a Study of the Effects of Laser Radiation and Thermal Annealing on Nanowire Crystallinity. 8 607.
  • AlGarni, Z., Singh, A., Philipose, U. (2018). Role of chemical potential and limitations of growth kinematics on stoichiometry of indium antimonide nanowires. Journal of Materials Chemistry and Physics. 219 196. Elsevier.
  • George, D., Adewole, M., Hassan, S., Lowell, D., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Coupling of Surface Plasmon Polariton in Al-Doped ZnO with Fabry-P\'erot Resonance for Total Light Absorption. IEEE Photonics Technology Letters. 4 (2) 35.
  • George, D., Adweole, M., Hassan, S., Lowell, D., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Coupling of Surface Plasmon Polariton in Al-doped ZnO with Fabry–Pérot Resonance for Total Light Absorption. 4 (2) 35.
  • George, D., Li, L., Lowell, D., Ding, J., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Electrically tunable diffraction efficiency from gratings in Al doped ZnO. Applied Physics Letters. 110 071110. AIP Publishing.
  • George, D., Li, L., Lowell, D., Ding, J., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2017). Electrically tunable diffraction efficiency from gratings in Al-doped ZnO. Applied Physics Letters. 110 (7) 071110. AIP Publishing.
  • Singh, A., Algarni, Z., Philipose, U. (2017). Template-assisted electrochemical synthesis of p-type InSb nanowires. 6[5] N39.
  • George, D., Li, L., Jiang, Y., Lowell, D., Mao, M., Hassan, S., Ding, J., Cui, J., Zhang, H., Philipose, U., others. (2016). Localized surface plasmon polariton resonance in holographically structured Al-doped ZnO. Journal of Applied Physics. 120 (4) 043109. AIP Publishing.
  • Algarni, Z., George, D., Singh, A., Lin, Y., Philipose, U. (2016). Hole dominated transport in InSb nanowires grown on high quality InSb films. Journal of Nanoparticle Research. 18 361. Springer.
  • George, D., Li, L., Yan, J., Lowell, D., Mao, M., Hassan, S., Ding, J., Cui, J., Zhang, H., Philipose, U., Lin, Y. (2016). Localized Surface Plasmon Polariton Resonance in Holographically Structured Al-doped ZnO. Journal of Applied Physics. 120 043109. AIP Publishing.
  • Lowell, D., George, D., Lutkenhaus, j., Tian, C., Adewole, M., Philipose, U., Zhang, H., Lin, Y. (2016). Flexible Holographic Fabrication of 3D Photonic Crystal Templates with Polarization Control through a 3D Printed Reflective Optical Element. 7 128.
  • Bhargav, M., Singh, A., Shik, A., Ruda, H.E., Philipose, U. (2015). Electro-physical characteristics of individual and arrays of ZnO nanowires. Journal of Applied Physics. 118 034302.
  • George, D., Lutkenhaus, J., Ding, J., Zhang, H., Cui, J., Philipose, U., Lin, Y. (2015). Holographic fabrication of nanoantenna templates through a single reflective optical element. Applied Optics. 54 2720.
  • George, D., Lutkenhaus, J., Ding, J., Zhang, H., Cui, J., Philipose, U., Lin, Y. (2015). Holographic fabrication of nanoantenna templates through a single reflective optical element. Applied Optics. 54 (10) 2720--2724. Optical Society of America.
  • M. Bhargav, S.V. Nair, H.E. Ruda, U. Philipose. (2015). Role of surface in high photoconductive gain measured in ZnO nanowire based photodetector. Journal of Nanoparticle Research. 17 176.
  • Jeff Lutkenhaus, David George, Bayaner Arigong, Hualiang Zhang, U. Philipose, and Y. Lin. (2014). Holographic fabrication of functionally graded photonic lattices through spatially specified phase patterns. Applied Optics. 53 2548.
  • Neogi, A., Karna, S., Shah, R., Philipose, U., Perez, J., Shimada, R., Wang, Z.M. (2014). Surface plasmon enhancement of broadband photoluminescence emission from graphene oxide. Nanoscale. 6 11310.
  • Gopal Sapkota and U. Philipose. (2014). Synthesis of metallic, semiconducting, and semimetallic nanowires through control of InSb growth parameters. 29 035001. IOP Science.
  • U. Philipose and Gopal Sapkota. (2013). Defect formation in InSb nanowires and its effect on stoichiometry and carrier transport. 15 (12) Springer.
  • J. Lutkenhaus, D. George, M. Moazzezi, U. Philipose, and Y. Lin. (2013). Digitally tunable holographic lithography using a spatial light modulator as a programmable phase mask. Optics Express. 21 (22) 26227.
  • 10. S. Dhayal, G. Sapkota, U. Philipose and Y. Rostovtsev. (2013). Photovoltaics based on nanotubes filled with nano-particles: Generalized Mie theory approach. Journal of Modern Optics. 60 (1) 73. Taylor and Francis.
  • Pradeep Gali, Gopal Sapkota, A.J. Syllaois, Chris Littler and U. Philipose. (2013). Stoichiomerty dependent electron transport and gas sensing properties of indium oxide nanowires. Nanotechnology. 24 225704. IOP Science,
  • Gopal Sapkota, Karol Gryczynski, Arup Neogi, and U. Philipose. (2012). Low temperature synthesis of Fe doped ZnO nanotubes. 41 (8) 2155. Springer.
  • Gali, P., Kuo, F., Shepherd, N.D., Philipose, U. (2012). Role of oxygen vacancies in visible emission and transport properties of indium oxide nanowires. Semiconductor Science and Technology. 27 (1) 015015. IOP Publishing.
  • Prathyusha Nukala, Gopal Sapkota, Pradeep Gali and U. Philipose. (2012). Transport properties of Sb doped Si nanowires. 353 (1) 140. Elsevier.
  • Sapkota, G., Gryczynski, K., McDougald, R., Neogi, A., Philipose, U. (2012). Low-temperature synthesis of Fe-Doped ZnO nanotubes. Journal of Electronic Materials. 41 (8) 2155-2161. https://api.elsevier.com/content/abstract/scopus_id/84885592643
  • B. Li, U. Philipose, C. de Souza, and Harry E. Ruda. (2011). Role of Electro-Deposition Parameters on Preparing Tailored Dimension Vertically-Aligned ZnO Nanowires.
  • U.Philipose, Gopal Sapkota, J. Salfi, Harry E. Ruda. (2010). Influence of growth temperature on the stoichiometry of InSb nanowires grown by vapor phase transport.
  • B. Liu, F. Yan, U. Philipose, N. P. Kherani, W. Shmayda, Harry E. Ruda, and K. P. Chen. (2010). Tritium beta-luminescence in ZnO nanowires.
  • B. Liu, F. Yan, U. Philipose, N. P. Kherani, W. Shmayda, Harry E. Ruda, and K. P. Chen. (2010). Tritium beta-luminescence in ZnO nanowires.
  • T. L. Spencer, R. Cisek, V. Barzda, U. Philipose, Harry E.Ruda and A. Shik. (2009). Orientation dependent nonlinear optical effects in ZnSe nanowires.
  • A. Othonosa,E. Lioudakisa, D. Tsokkoua, U. Philipose, Harry E. Ruda. (2009). Ultrafast time-resolved spectroscopy of ZnSe nanowires: Carrier dynamics of defect-related states.
  • U. Philipose, A. Saxena, Harry E.Ruda and Peter Simpson. (2008). Defect studies in ZnSe nanowires. Nanotechnology. 19 215715.
  • A. Saxena, S. Yang, U. Philipose and Harry E.Ruda. (2008). Excitonic and pair-related photoluminescence in ZnSe nanowires. 103 053109.
  • V. Barzda, R. Cisek, T. L. Spencer, U. Philipose, Harry E.Ruda and A. Shik. (2008). Giant anisotropy of second harmonic generation for a single ZnSe nanowire. 92 113111.
  • Joseph Salfi, U. Philipose, S. Aouba, Selvakumar Nair and Harry E. Ruda. (2007). Electron transport in degenerate Mn-doped ZnO nanowires. 90 032104.
  • U. Philipose, S. Yang, T. Xu and Harry E. Ruda. (2007). Origin of red luminescence band in photoluminescence spectra of ZnSe nanowires. Applied Physics Letters. 90 063103.
  • U. Philipose, Ping. Sun, L. Yang, T. Xu, K. L. Kavanagh and Harry E. Ruda. (2007). Structure and photoluminescence of ZnSe nanostructures fabricated by vapor phase growth. Journal of Applied Physics. 101 014326.
  • Y. Wang, U. Philipose, T. Xu, Harry E. Ruda and K. L. Kavanagh. (2007). Twinning modulation in ZnSe nanowires. Semiconductor Science and Technology. 22 175.
  • A. Othonos, E. Lioudakis, U. Philipose and Harry E. Ruda. (2007). Ultrafast carrier dynamics in band edge and broad deep defect emission ZnSe nanowires. Applied Physics Letters. 91 241113.
  • U. Philipose, Harry E. Ruda, A. Shik, C. F. de Souza and Ping Sun. (2006). Conductivity and photoconductivity in undoped ZnSe nanowire array.
  • Harry E. Ruda, John. Polanyi, S. Y. Yang, Z. Wu, U. Philipose et al.,. (2006). Developing 1D nanostructure arrays for future nanophotonics.
  • Joseph Salfi, U. Philipose, C. F. de Souza, S. Aouba and Harry E. Ruda. (2006). Electrical properties of ohmic contacts to ZnSe nanowires and their application to nanowire-based photodetection.
  • U. Philipose, T.Xu, S. Yang, Ping Sun, Harry E. Ruda, Y.Q.Wang and K. L. Kavanagh. (2006). Enhancement of band edge luminescence in ZnSe nanowires.
  • U. Philipose, Selvakumar V. Nair, Simon Trudel, C. F. de Souza, S. Aouba, Ross H. Hill and Harry E. Ruda. (2006). High temperature ferromagnetism in Mn doped ZnO nanowires.
  • Y. Wang, U. Philipose, K. L. Kavanagh and Harry E. Ruda. (2006). Planar defects and phase transformation in ZnSe nanosaws.

Contracts, Grants and Sponsored Research

    Contract

  • Syllaios, A.J. (Principal), Philipose, U. (Co-Principal), "U6800WLVP Solder Seal Research," sponsored by DRS Network & Imaging Systems, LLC, Local, $65402 Funded. (2022 - 2023).
  • Littler, C.L. (Co-Principal), Syllaios, A. (Principal), Philipose, U. (Co-Principal), "VO switch program," sponsored by DRS Infrared Technologies, Private, $76000 Funded. (2018 - 2018).
  • Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), Syllaios, A. (Principal), "DRS project; Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, Private, Funded. (2019 - 2020).
  • Littler, C.L. (Co-Principal), Syllaios, A. (Principal), Philipose, U. (Co-Principal), "VO switch program," sponsored by DRS Infrared Technologies, Private, Funded. (2018 - 2018).
  • Grant - Research

  • Neu, J., Zhang, Z., Kelber, J.A., Choi, T., Philipose, U., Purvis, R.M., Lin, Y., Xiao, Y., Cui, J., "Conductive-Probe-AFM combined with Terahertz Scattering Near- Field Microscope (c-AFM+THz-SNOM)," sponsored by DOD, Federal, $764981 Funded. (2024 - 2025).
  • Philipose, U. (Principal), Littler, C.L. (Co-Principal), Syllaios, A.J. (Co-Principal), "MANTECH UL1280 PATH FINDER LOTS VOX CHARACTERIZATION FOR UNT," sponsored by DRS Network & Imaging Systems, LLC, National, $199186 Funded. (2023 - 2024).
  • Philipose, U. (Principal), "COS 2023 Equipment Grant Program," sponsored by University of North Texas, University of North Texas, $54875.45 Funded. (2023 - 2023).
  • Philipose, U. (Principal), Athanasios, S. (Co-Principal), Littler, C. (Co-Principal), "Export Controlled/Classified – Title Removed," sponsored by Direct Sponsor: DRS Network & Imaging Systems, LLC, Federal, $61441 Funded. (2022 - 2023).
  • Philipose, U. (Principal), Littler, C. (Co-Principal), Syllaios, A. (Co-Principal), "Design and Development of High Performance Microbolometer Using VOx, CNT and Graphene for LWIR Applications," sponsored by Magnolia Optical Technologies, Inc, National, $182407 Funded. (2019 - 2022).
  • Philipose, U. (Co-Principal), Littler, C. (Co-Principal), Syllaios, A. (Principal), "Measurement of Material Properties of Vanadium Oxide (VOx) Development, Research, and Engineering of Advance MicrobolometersMicrobolometers and ROICs (DREAMR)," sponsored by DRS Network & Imaging Systems, LLC, National, $376448 Funded. (2019 - 2021).
  • Philipose, U. (Co-Principal), Littler, C. (Co-Principal), Syllaios, A. (Principal), "Characterization of test structures built using Vanadium di-oxide (VO2) for Falcon program," sponsored by DRS Network & Imaging Systems, LLC, National, $90026 Funded. (2020 - 2021).
  • Philipose, U. (Principal), Lin, Y. (Co-Principal), "Electrically tunable optical phenomena in atomic layers of MoS2 coupled with a photonic crystal," sponsored by University of North Texas, University of North Texas, $5000 Funded. (2018 - 2019).
  • Philipose, U., "Quantifying defects in vertically aligned nanowires and studying their effect on thermoelectric and magnetoresistive properties," sponsored by Physics: Seed Grant, University of North Texas, $5000 Funded. (2017 - 2018).
  • Philipose, U. (Principal), "Electron and Phonon Transport in Nanowires with Engineered Surfaces and Controlled Defects - Approaches to Enhance Thermoelectric Performance," sponsored by AMMPI - UNT, University of North Texas, $15000 Funded. (2016 - 2017).
  • Philipose, U. (Principal), "Efficient nanowire based gas sensor," sponsored by National science Foundation: I-Corps, Federal, $50000 Funded. (2016 - 2017).
  • Syllaios, A. (Principal), Littler, C. (Co-Principal), Philipose, U. (Co-Principal), "Analysis of electrical transport mechanisms in amorphous silicon relevant to uncooled microbolometer technology," sponsored by Army Research office, Federal, $396500 Funded. (2010 - 2015).
  • Syllaios, A.J. (Co-Principal), Littler, C.L. (Co-Principal), Philipose, U. (Principal), "Design and Development of High Performance Microbolometer Using VOx, CNT and Graphene for LWIR Applications," sponsored by Magnolia Optical Technologies, Inc., IND, Funded. (2019 - 2022).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Measurement of Material Properties of Vanadium Oxide (VOx) Development, Research, and Engineering of Advance MicrobolometersMicrobolometers and ROICs (DREAMR)," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2019 - 2021).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Characterization of test structures built using Vanadium di-oxide (VO2) for Falcon program," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2020 - 2021).
  • Syllaios, A.J. (Principal), Littler, C.L. (Co-Principal), Philipose, U. (Co-Principal), "Export Controlled at Award - Title removed," sponsored by DRS Network & Imaging Systems, LLC, IND, Funded. (2018 - 2018).
  • Philipose, U. (Principal), "I-Corps: Efficient Nanowire Based Gas Sensor," sponsored by National Science Foundation, FED, Funded. (2016 - 2017).
  • Syllaios, A. (Principal), Littler, C. (Co-Principal), Philipose, U. (Co-Principal), "Analysis of electrical transport mechanisms in amorphous silicon relevant to uncooled microbolometer technology," sponsored by Army Research office, Federal, Funded. (2010 - 2015).
  • Grant - Service

  • Hunt von Herbing, I. (Co-Principal), Padilla , P. (Principal), Golden, T.D. (Co-Principal), Lund, A.K. (Co-Principal), Philipose, U. (Co-Principal), Wang, X., "Women in Science Mentoring Group: Team Mentoring Grant (renewed for a second year - $5000 per year)," sponsored by University of North Texas, University of North Texas, $10000 Funded. (2018 - 2020).
  • Grant - Teaching

  • Lee, H. (Principal), Philipose, U. (Co-Principal), Gao, S. (Co-Principal), Wilson, A. (Co-Principal), Padilla, P. (Co-Principal), "Fostering Outstanding Cohorts in Undergraduate Science II," sponsored by National Science Foundation – Division of Undergraduate Education, Federal, $625235 Funded. (2013 - 2018).
  • Sponsored Research

  • Philipose, U. (Principal), Syllaios, A. (Co-Principal), Littler, C.L. (Co-Principal), "Spatial mapping of one-dimensional nanostructures at the atomic level," sponsored by Oak Ridge National Laboratory, Federal, $20000 Funded. (2021 - 2023).
  • Philipose, U. (Principal), Mathew, X., "UNT-UNAM Collaborative Research in charcaterizing nanocomposite materials through trap level profiling for applications in photovoltaic and thermoelectric devices," sponsored by University of North Texas, University of North Texas, $2500 Funded. (2020 - 2020).
  • Philipose, U. (Principal), Lin, Y. (Co-Principal), "Fast Bolometers Based on Nanowires Patterned over a Graded Photonic Super-Crystal,," sponsored by University of North Texas, University of North Texas, $9000 Funded. (2019 - 2019).
,
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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