माधव प्रौद्योगिकी एवं विज्ञान संस्थान, ग्वालियर (म.प्र.), भारत

माधव प्रौद्योगिकी एवं विज्ञान संस्थान, ग्वालियर (म.प्र.), भारत
Madhav Institute of Technology & Science, Gwalior (M.P.), INDIA

Deemed University

(Declared under Distinct Category by Ministry of Education, Government of India)

NAAC ACCREDITED WITH A++ GRADE

माधव प्रौद्योगिकी एवं विज्ञान संस्थान, ग्वालियर (म.प्र.), भारत

Deemed to be University

(Declared under Distinct Category by Ministry of Education, Government of India)

NAAC ACCREDITED WITH A++ GRADE

Gola Ka Mandir, Gwalior (M.P.) - 474005, INDIA
Ph.: +91-751-2409300, E-mail: director@mitsgwalior.in, Website: www.mitsgwalior.in

Department of Applied Science

  2. Faculty Profiles
  3. Dr. Baljinder Kaur

Dr. Baljinder Kaur

Designation:  Assistant Professor 
Qualification: Post Doctoral Fellow
Area of Interest:  Plasmonic Sensor
Phone No: 8360592291
E-Mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Education and Qualification:

    Baljinder Kaur received her BSc. degree from K.M.V College, Jalandhar, India in 2008. She completed MSc. Degree from LPU University, Phagwara, India in 2010. She completed MPhil. Degree from LPU University, Phagwara, India in 2011. She received Ph.D. in Physics from National Institute of Technology Delhi in 2020 under the supervision of Dr. Anuj Kumar Sharma. She has completed  Post-Doctoral fellowship from  IIT Roorkee with Prof. B. K. Kaushik in ECE Dept.,. She has qualified GATE examination 2015. She received DST-SERB travel grant to present her research work in SPIE conference held at Prague, Czech Republic in 2019. She has also participated and presented her research work in many international and national conferences. She has published 19 research articles in national and international SCI journals and conferences. She has worked as an Assistant Professor in Lovely Professional University, from August 2011 to April 2012 and Chandigarh University, Mohali from July 2015 to December 2015. Her research interests include plasmonic sensors, optical device modeling, fiber optics, and 2D materials. 
  • Publications:
    1. Johari, A., Naithani, S., Kaur, B., Bhatnagar, A., & Kaushik, B. K. "Simulation of waveguide integrated Ge2Sb2Te5-based tunable photodetector." Optical Engineering 62.8 (2023): 087106-087106. (Impact Factor:1.352)
    2. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "Trends, challenges, and advances in optical sensing for detection of pathogenic bacteria (PathoBact)." Biosensors and Bioelectronics: X (2023): 100352. (Impact Factor:10.6)
    3. Tiwari, Y. S. Dwivedi, R. Singh, Baljinder Kaur, Y. K. Prajapati, R. Krishna, A. K. Sharma, “Exploring deep learning models aimed at favorable optimization and enhancement of fiber optic sensor’s performance”. IEEE Sensors Journal. vol. 23, no. 17, pp. 20330-20337,2023 (I.F = 4.325)
    4. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "Novel Wearable Optical Sensors for Vital Health Monitoring Systems—A Review." Biosensors2 (2023): 181. (Impact Factor:5.7)
    5. INVITED: Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "Advances in photonic crystal fiber: sensing and supercontinuum generation applications." Optical Fiber Technology 72 (2022): 102982. (Impact Factor:2.7)
    6. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "Recent advancements in optical biosensors for cancer detection." Biosensors and Bioelectronics 197 (2022): 113805. (Impact Factor:12.6)
    7. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "2D materials-based fiber optic SPR biosensor for cancer detection at 1550 nm." IEEE Sensors Journal 21.21 (2021): 23957-23964. (Impact Factor:4.325)
    8. Kumari, Anamika, et al. "Black Phosphorous-Based Highly Sensitive Surface Plasmonic Sensor for Detection of Formalin." IEEE Transactions on Plasma Science (2023). (Impact Factor:1.325)
    9. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "MXenes-based fiber-optic SPR sensor for colorectal cancer diagnosis." IEEE Sensors Journal 22.7 (2022): 6661-6668. (Impact Factor:4.325)
    10. Kaur, Baljinder, Santosh Kumar, and Brajesh Kumar Kaushik. "Antimonene, CNT and MoS 2 Based SPR-Fiber-Optic Probe for Tuberculosis Detection." IEEE Sensors Journal 22.15 (2022): 14903-14910. (Impact Factor:4.325)
    11. Baljinder Kaur, S Kumar, BK Kaushik, 2D Materials-Based Fiber Optic SPR Biosensor for Cancer Detection at 1550 nm, IEEE Sensors Journal (2021) 21, 23957-23964 (I.F = 4.325)
    12. Baljinder Kaur, S Kumar, BK Kaushik, "MXenes-Based Fiber-Optic SPR Sensor for Colorectal Cancer Diagnosis." IEEE Sensors Journal22, no. 7 (2022): 6661-6668. (I.F = 4.325)
    13. Baljinder Kaur, S. Kumar, and B. K. Kaushik, “Recent advancements in optical biosensors for cancer detection,” Bioelectron., vol. 197, p. 113805, 2022. (I.F = 12.54)
    14. Baljinder Kaur, S. Kumar, and B. Kumar, “Optical Fiber Technology ( INVITED ) Advances in photonic crystal fiber : sensing and supercontinuum generation applications,” Fiber Technol., vol. 72, p. 102982, 2022. (I.F = 2.53)
    15. Baljinder Kaur, Kumar, and B. K. Kaushik, “Antimonene, CNT and MoS2 based SPR-Fiber-Optic Probe for Tuberculosis Detection,” IEEE Sensors Journal, vol. 22, no. 15, pp. 14903–14910, 2022. (I.F = 4.325)
    16. Sharma and Baljinder Kaur, “Simulation and analysis of 2D material (MoS2/MoSe2) based plasmonic sensor for measurement of organic compounds in infrared,” Optik ,157 (2018) 161-169. (I.F = 2.443)
    17. K. Sharma and Baljinder Kaur, “Analyzing the Effect of Graphene’s Chemical Potential on the Performance of a Plasmonic Biosensor in Infrared,” Solid state communications, 275 (2018) 58-62. (I.F = 1.804)
    18. K. Sharma and Baljinder Kaur, “Chalcogenide fiber-optic SPR chemical sensor with MoS2 monolayer, polymer clad, and polythiophene layer in NIR using selective ray launching,” Optical Fiber Technology43 (2018) 163-168. (I.F = 2.53)
    19. K. Sharma., A. K. Pandey, and Baljinder Kaur, "A Review of advancements (2007–2017) in plasmonic-based optical fiber sensors," Optical Fiber Technology,43 (2018) 20-34. (I.F = 2.53)
    20. K. Sharma and Baljinder Kaur, "Fiber optic SPR sensing enhancement in NIR via optimum radiation damping catalyzed by 2D materials, " IEEE Photonics Technology Letters30(23) (2018), 2021-2024. (I.F =2.486)
    21. Kaur and A. K. Sharma, "Plasmonic Biosensor in NIR with Chalcogenide Glass Material: On the Role of Probe Geometry, Wavelength, and 2D Material," Sensing and Imaging19 (1) (2018) 2-9. (I.F = 1.158)
    22. K. Sharma and Baljinder Kaur, “Simulation of multilayered heterojunction-based chalcogenide fiber SPR sensor with ultrahigh figure of merit in near infrared,” IEEE Sensors Journal 19 (11), 4074-4078, 2019. (I.F = 4.325)
    23. K. Sharma, A. Dominic, Baljinder Kaur and V. Popescu, “Fiber optic SPR sensor with huge performance enhancement via Optimum radiative damping at Ag-Al2O3-graphene heterojunction on Silicon,” Journal of Light wave Technology, 2019. (I.F = 4.439)
    24. K. Sharma., A. K. Pandey, and Baljinder Kaur, “Fluoride Fiber-Based Plasmonic Biosensor with Two-Dimensional Material Heterostructures: Enhancement of Overall Figure-of-Merit via Optimization of Radiation Damping in Near Infrared Region,” Materials 12 (9), 1542, 2019. (I.F = 3.623)
    25. K. Sharma., A. K. Pandey, and Baljinder Kaur, “Simulation study on comprehensive sensing enhancement of BlueP/MoS₂ and BlueP/WS₂ based fluoride fiber SPR sensors: Analysis founded on damping, field, and optical power, “Applied Optics 58 (16), 4518-4525, 2019. (I.F = 1.905)
    26. K. Sharma, Baljinder Kaur and V. Popescu, “On the role of different 2D materials/heterostructures in Fiber-optic SPR humidity sensor in visible spectral region,” Optical materials, 102, 109824, 2020. (I.F = 3.08)
    27. K. Sharma, Baljinder Kaur, and Carlos Marques. "Simulation and analysis of 2D material/metal carbide based fiber optic SPR probe for ultrasensitive cortisol detection." Optik(2020): 164891. (I.F = 2.443)
    28. Baljinder Kaur K. Sharma, and Y. K. Prajapati. "Plasmonic sensor for magnetic field detection with chalcogenide glass and ferrofluid materials under thermal variation in near infrared." Optical Materials117 (2021): 111175. (I.F = 3.08)
    29. Baljinder Kaur and K. C. Juglan, “Acoustic parameter investigation of polyvinyl acetate with acetic acid using ultrasonic technique,” Polym. Eng., vol. 33, no. 9, pp. 851–856, 2013. (I.F = 1.367)

     

    Conference Publications

    • K. Sharma, Baljinder Kaur, C. Marques, “Simulation study on fluoride fiber SPR sensor with multilayer arrangements of graphene under thermal variation of radiation damping in NIR”, Optical Sensing and Detection 6 (11354), (2020): 113542F.
    • Baljinder Kaur, A.K. Sharma, “SPR-based fiber optic sensor in NIR region,” Optical Sensors 11028, (2019):110282H.

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