Research group


Ph.D. Supervision


    1. Ramchander Chepyala, "Surface engineering and flow characteristics in pressure driven silicon based microfluidic immunosensors", April 2014.

    2. Dharitri Rath, "Enhancement of capture efficiency in heterogeneous immunosensors", May 2016.

    3. Narendra Kumar, "Sensitivity enhancement aspects in field effect based chemical sensors and biosensors", Oct 2016.

    4. Mousumi Sinha, "Gas sensing studies of doped polyaniline based flexible gas sensors", May 2017.

    5. Abhi Mukherjee, "Role of Surface Modification and Surface Energy Components in Attachment of Sensing Molecules in Strip Based Sensors", June 2018.

    6. Kusumita Dutta, "Interference analysis in aqueous ion electrochemical sensor utilizing aspects of mass and charge transport", March 2019.

    7. Deepa Bhatt, "Performance Enhancement Aspects of Ion-Sensitive Field-Effect Transistors on Rigid and Flexible Substrates for Chemical and Bio-sensing", September 2020.

    8. Shipra Verma, "Evaluation of Capture Efficiency in Heterogeneous Flow Immunosensors Using Various Mixing Strategies", December 2020.

    9. Shivam Kumar Gautam, "Polyaniline based gas sensors: understanding of sensing mechanisms, and performance enhancement with nanocomposites and device structure", July 2022.

    10. Vidisha Singh Rathaur, "Understanding the evaporation dynamics of sessile droplets on surfaces with antibody-antigen binding", August 2022.


  • 7 students

Supervision of Master's thesis


    1. Ravi Chahar, "Textured Silica Surface by Particle Attachment for Enhanced Areal Density of Sensing Molecule", June 2008.

    2. Nitin Rathor, "Textured Silicon Surface Using Wet Chemical Etch for Enhanced Areal Density of Sensing Molecules", June 2008.

    3. Abhishek Agarwal, "Design and Fabrication of an Electrolyte-Insulator-Semiconductor (EIS) Sensor", May 2009.

    4. Priyanka Sachan, "Analysis of Substrate-Ink Interactions in Printable Electronics", July 2009.

    5. Hakeem Abrar Ahmad, "Temperature Sensitivity of Flexible Polyaniline Nano-films", Dec 2009.

    6. Prasenjit Ghosh, "Temperature and Humidity Sensing Applications of Nanostructured Polyaniline Films", May 2010.

    7.Subham Dastidar, "Nanotextured Dielectrics for Enhanced Sensitivities of Electrolyte-Insulator-Semiconductor Based Sensors", May 2010.

    8. Shwetabh Tripathi, "Piezoresistive Polymeric Pressure Sensors", May 2010.

    9. Sanat Chandra Maiti, "Electrochemical Synthesis and Characterization of Polyaniline and its Co-polymer for Sensing Applications", May 2011.

    10. Samuel Kassaye Degife, "Flexible Nano-films of Polyaniline for Gas Sensing Applications", May 2011.

    11. Vivekanand Bal, "Ta2O5 based Nanotextured Dielectrics for Enhanced Sensitivities of Electrolyte-Insulator-Semiconductor Based Sensors", July 2011.

    12. Samit Bera, "Study of AC and DC Conductivities of Polyaniline Nanofilms", July 2011.

    13. Raka Mukherjee, "Electrochemical synthesis, characterization, and functionalization of the co-polymer of aniline and N-phenylglycine for heavy metal detection", May 2012.

    14. Debabrata Nayak, "Temperature dependent DC and AC Conductivity Studies in nanoscale and nanostructured Conducting Polymer Films ",May 2012.

    15. Yash Kushwaha, "Measurement of charge carrier density and mobility in polyaniline nanoscale thin films", July 2013.

    16. Siddharth Sikka, "Printing of doped polyaniline on flexible substrates", July 2013.

    17. Amit Tewari, "Study of thermoelectric properties of conducting polymer nanoscale films", July 2013.

    18. Harsh Vardhan, "Formation of vertically aligned nanorods of ZnO on Si/SiO2 substrate for sensing membrane in electrolyte-insulator-semiconductor sensors", June 2014.

    19. Pranay Mehta, "Effect of various reaction conditions on aminisilane thin films formed on silanol terminated silicon surface", July 2014.

    20. Sujata Senapati, "Vanadium Pentoxide Nanostructures: Growth Kinetics, Synthesis and Characterization", May 2015.

    21. Md. Ibrahim Faruqi, "Optimization of parameters for sensing glucose in sandwich immunosensors using screen printed electrodes", May 2015.

    22. Abhay Prakash Tiwari, "Simulation Dual Gate Ion Sensitive Field Effect Transistor", May 2015.

    23. Hima Suram, "Effect of encapsulations on the steady and transient response of thermal sensing nanoscale PANI-CSA films", July 2015.

    24. Arpita Saha, "Fabrication of temperature sensor using conducting polypyrrole film deposited on flexible substrate", July 2015.

    25. Aniruddh Bendapudi, "Study of inertial lift forces acting on particles flowing through different polar fluids in different surface functionalized channels", July 2015.

    26. Shivang Sharma, "Electrostatic modeling of solid-liquid interfaces in biosensors", May 2016.

    27. Amandeep Gupta, "Computational parametric analysis of a displacement immunosensor", June 2016

    28. Moitri Sutradhar, "Modelling of Ion Sensitive Field Effect Transistor (ISFET) in TCAD", July 2016

    29. Shashank Yadav, "Effect of electric double layer on inertial forces", Sept 2016

    30. Avinash, " Effect of pulsatile flow on parameters in microfluidic immunosensors", July 2017

    31. Saurav Yadav, "Computational Parametric Analysis of Gas Preconcentrator", May 2017

    32. Nisha Sharda, "Effects of electrode modification on signal to noise ratio of electrochemical systems", July 2017.

    33. Prakash Tiwari, "Parametric study of a pre-concentrator for multi component gases", July 2018.

    34. Hemant Kumar Saini, "Electromigration effects on immunosensor surfaces", Aug 2018.

    35. Dewansh Rastogi, "Parameter Estimation of an Inverse Heat Conduction Problem Using Bayesian Inference and Simulations", May 2019.

    36. Amit Anand, "Analysis of signal to noise ratio in nanomaterial modified electrochemical sensors", June 2019.

    37. Harish Goswami, "Experimental studies on the effect of geometry on Indium Tin Oxide interdigitated array microelectrodes (dual mode)", June 2019.

    38. Puneet Koli, "Parameter Estimation for 2D and 3D Inverse Heat Transfer Problems using Bayesian Inference Technique", July 2020.

    39. Vishwaraj Srivastava, "Designing Wearable Assistive Technologies for the Visually Impaired", July 2020.

    40. Shubhanshu Malpani, "Development of smart flexible dressing for uric acid biosensing", August 2020.

    41. Shahruk Khan, "Applications of Bayesian Approach for Parameter Estimation in Inverse Heat Conduction Problems - Effect of Different Geometries and Materials", July 2021.

    42. Shivam Nauriyal, "TCAD modelling of vertical channel thin film transistor (VCTFT) and its implementation as a pH sensor", August 2021.

    43. Vishal Das, "Soft polymer based dielectrics for improved capacitive pressure sensign applications", October 2021.

    44. Rahul Sethi, "Engineering flexible electrodes for wound dressing: uric acid biosensing", October 2021.

    45. Kanishka, "Development of Au-Cu Based Smart and Omniphobic Non-enzymatic Electrochemical Sensor for Uric Acid Monitoring in Wound Fluid", May 2022.

    46. Aman Gupta, "Application of Bayesian Inference Technique for Parameter Estimation in 2D and 3D Inverse Heat Conduction Problems", May 2022

    47. Deepesh Kumar Gupta, "Parameter Estimation for Inverse Heat Conduction Problems Using Bayesian Inference Approach and Simulations", May 2022.

    48. Shivam Kumar Singh, "Design and Analysis of Thermal Sensor Insulation to Reduce Response Times in Heated Systems", June 2022.

    49. Samanvita Janga, "Study on Electrical Characteristics of a-IGZO Vertical Channel Thin Film Transistors Using TCAD Simulations", June 2022

    50. Chandan Pandit, "Electrochemical detection of cortisol in sweat with a molecularly imprinted polymer on screen printed silver electrode", May 2023.

    51. Pradeep K. Chaudhury, "Development of non-enzymatic electrochemical sensor based on molecularly imprinted screen-printed silver for lactate detection in sweat", May 2023.

    52. Jayant Naga, "Fabrication and characterization of organic thin film transistors on flexible substrates", July 2023.


  • 5 students