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Picture of Saumya Joshi

Saumya Joshi, M.Sc.

Technical University of Munich

Place of employment

Assistant Professorship of Simulation of Nanosystems for Energy Conversion (Prof. Gagliardi)

Work:
Theresienstr. 90(0108)/I
80333 München

google scholar profile

google scholar

ORCID ID

Supervising & Tutoring

Supervising and Tutoring

Teaching

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Info:

MA: Master Thesis, BA: Bachelor Thesis, DA: Diploma Thesis,
FP: Forschungspraxis, IP: Ingenieurpraxis


Dissertation by Saumya Joshi

    Publications

    2018

    • Joshi, S.; Bhatt, V.D.; Jaworska, E.; Becherer, M.; Maksymiuk, K.; Michalska, A.; Lugli, P.: Using Lipophilic Membrane for Enhanced-Performance Aqueous Gated Carbon Nanotube Field Effect Transistors. Phys. Status Solidi A PSS 2018, 1700993 2017-03, 2018, 1-7 mehr… BibTeX Volltext ( DOI )
    • Joshi, S.; Bhatt, V.D.; Jaworska, E.; Michalska, A.; Maksymiuk, K.; Becherer, M.; Gagliardi, A.; Lugli, P.: Ambient Processed, Water-Stable, Aqueous-Gated sub 1 V n-type Carbon Nanotube Field Effect Transistor. Scientific Reportsvolume 8, Article number: 11386 (2018) 2018-07, 2018, 11386 mehr… BibTeX Volltext ( DOI )
    • Joshi, S.; Bhatt, V.D.; Märtl, A.; Becherer, M.; Lugli, P.: Regenerative, Highly-Sensitive, Non-Enzymatic Dopamine Sensor and Impact of Different Buffer Systems in Dopamine Sensing. Biosensors 2018, 8(1), 9 2018-01, 2018, 1-10 mehr… BibTeX Volltext ( DOI )
    • Joshi, S.; Bhatt, V.D.; Rani, H.; Becherer, M.; Lugli, P.: Understanding the influence of in-plane gate electrode design on electrolyte gated transistor. Microelectronic Engineering Volume 199, 5 November 2018, Pages 87-91 2018-08, 2018, 87-91 mehr… BibTeX Volltext ( DOI )

    2017

    • Bhatt, V.D.; Joshi, S.; Becherer, M.; Lugli, P.: Flexible, Low-Cost Sensor Based on Electrolyte Gated Carbon Nanotube Field Effect Transistor for Organo-Phosphate Detection. Sensors 2017, 17(5), 1147 2017-05, 2017 mehr… BibTeX Volltext ( DOI )
    • Bhatt, V.D.; Joshi, S.; Lugli, P.: Metal-Free Fully Solution-Processable Flexible Electrolyte-Gated Carbon Nanotube Field Effect Transistor. IEEE Transactions on Electron Devices ( Volume: 64, Issue: 3, March 2017 ) 2017-03, 2017, 1375 - 1379 mehr… BibTeX Volltext ( DOI )
    • Joshi, S.; Bhatt, V.D.; Wu, H.; Becherer, M.; Lugli, P.: Flexible Lactate and Glucose Sensors using Electrolyte-Gated Carbon Nanotube Field Effect Transistor for Non-invasive Real-time Monitoring. IEEE Sensors Journal ( Volume: PP, Issue: 99 ) 2017-05, 2017, 1-1 mehr… BibTeX Volltext ( DOI )

    2016

    • Bhatt, V.D.; Joshi, S.; Melzer, K.; Lugli, P.: Flexible dopamine sensor based on electrolyte gated carbon nanotube field effect transistor. 2016 IEEE Biomedical Circuits and Systems Conference (BioCAS) , IEEE Xplore Digital Library, 2016Shanghai, P.R. China, 17-19 Oct 2016, 2016-10 mehr… BibTeX Volltext ( DOI )

    2014

    • Kaczer, B.; Larcher, L.; Vandelli, L.; Reisinger, H.; Popovici, M.; Clima, S.; Ji , Z.; Joshi, S.; Swerts, J.; Redolfi, A.; Afanas’ev, V.V.; Jurczak, M.: SrTiO 3 for sub-20 nm DRAM technology nodes—characterization and modeling. SISC 2014 45 th IEEE Semiconductor Interface Specialists Conference, Session 12 - Memory Session Chair: M. Passlack 12.3 , IEEE Xplore Digital Library, 2014San Diego CA USA, 10-13 Dec 2014 2014-12 mehr… BibTeX