| # | List of Publication by Dr. Chirasree Roy Chaudhuri |
|---|---|
| 1 | Piyali Mukherjee, Sayanta Sen, Abhijit Das, Sharbadeb Kundu, Chirasree RoyChaudhuri, Graphene FET biochip on PCB reinforced by machine learning for ultrasensitive parallel detection of multiple antibiotics in water, 271, 117023, Biosensors and Bioelectronics, 2025 |
| 2 | P Mukherjee, A Chakraborty, D Prakashan, S Gandhi, C RoyChaudhuri, Conventional lateral flow immunoassay with integrated screen-printed electrodes for dielectrophoretic trapping of bacteria enabling sensitive, rapid detection at low concentrations, 215, 109609, Biochemical Engineering Journal, 2025 |
| 3 | Piyali Mukherjee, Shalini Dasgupta, Ananya Barui, Chirasree RoyChaudhuri, Wrinkled Graphene Field Effect Transistor in Heterodyne Mode for Ultrasensitive Detection of Exosomes toward Early Cancer Screening, 7, 2313-2326, ACS Applied Electronic Materials, 2025 |
| 4 | Piyali Mukherjee, Rohit Thakur, Sayanta Sen, Chirasree RoyChaudhuri, H.S.S. Ramakrishna Matte, Transcending pre-processing of physiological fluids and device-to-device variability in nanosheet networks for point of care (PoC) immunosensors, Applied Materials Today, 2025 |
| 5 | Tai Fei, Subhas Chandra Mukhopadhyay, João Paulo Javidi Da Costa, Chirasree RoyChaudhuri, Lan Lan, Nevine Demitri, Spatial environment perception and sensing in automated systems: A review, IEEE Sensors Journal, 2024 |
| 6 | P Mukherjee, S Kundu, R Ganguly, A Barui, C RoyChaudhuri, Deformed graphene FET biosensor on textured glass coupled with dielectrophoretic trapping for ultrasensitive detection of GFAP, 35, 295502, Nanotechnology, 2024 |
| 7 | P Mukherjee, S Sen, A Das, C RoyChaudhuri, Real Time Estimation of Corneal Damage Using IL-6 in Tears based on Flexi-Graphene FET Sensor Array, IEEE Sensors Letters, 2024 |
| 8 | Tai Fei, Subhas Mukhopadhyay, João Paulo Javidi Da Costa, Markus Gardill, Shengheng Liu, Chirasree Roychaudhuri, Lan Lan, Nevine Demitri, Guest Editorial Special Issue on Smartness and Robustness of Spatial Environment Perception in Automated Systems, 24, 21800-21800, IEEE Sensors Journal, 2024 |
| 9 | B Chakraborty, A Das, A Kumar, A Barui, M Kumar, C Roy Chaudhuri, Real time estimation of stem cell zeta potential and dimension during proliferation using MoS2 nanosheets field effect transistor, 380, 133351, Sensors and Actuators B: Chemical, 2023 |
| 10 | Koel Sinha, Ananya Chakraborty, Zishan Ahmed, Piyali Mukherjee, Priyanka Dutta, Chitrangada Das Mukhopadhyay, Chirasree RoyChaudhuri, Molecularly imprinted polymer interface on screen-printed ZnO nanorod field effect transistors for serotonin detection in clinical samples, 9, 5886-5899, ACS Biomaterials Science & Engineering, 2023 |
| 11 | P Mukherjee, P Dutta, K Sinha, S Sen, T Shirke, R Ganguly, A Barui, C RoyChaudhuri, A direct MIP-interfaced FET sensor for sensitive, selective, and real time biomolecule detection in unamplified samples: Toward POC bioelectronic transduction, 123, Applied Physics Letters, 2023 |
| 12 | Deepa Agashe, Sugandha Maheshwary, Jitendra Kumar Pattanaik, Jai Prakash, Pragya Bhatt, SS Arya, Sriparna Chatterjee, Pankaj Kumar, Paramdeep Singh, Nazia Abbas, Chandra Shekhar Sharma, Chirasree Roy Chaudhuri, Pooja Devi, Career challenges for young independent researchers in India, 122, 135, Curr Sci, 2022 |
| 13 | Bhaswati Chakraborty, Naresh Mandal, Naren Das, Nirmalya Samanta, Chirasree RoyChaudhuri, Competitive Impedance Spectroscopy in a Schottky-Contacted ZnO Nanorod Structure for Ultrasensitive and Specific Biosensing in a Physiological Analyte, 7, 1634-1647, ACS sensors, 2022 |
| 14 | Naren Das, Bhaswati Chakraborty, Chirasree RoyChaudhuri, A review on nanopores based protein sensing in complex analyte, 243, 123368, Talanta, 2022 |
| 15 | A Chakraborty, P Dutta, A Wakankar, C RoyChaudhuri, Recent field effect transistors and electrical impedance spectroscopy based biosensing strategies for cancer biomarker screening: A mini review, 12, 100253, Biosensors and Bioelectronics: X, 2022 |
| 16 | B Chakraborty, A Das, N Mandal, N Samanta, N Das, C Roy Chaudhuri, [HTML] from nature.com Label free, electric field mediated ultrasensitive electrochemical point-of-care device for CEA detection, 11, 2962, Scientific Reports, 2021 |
| 17 | Abhranila Das, Surajit Bose, Naresh Mandal, Bidhan Pramanick, Chirasree RoyChaudhuri, HOME-Stat: a handheld potentiostat with open-access mobile-interface and extended measurement ranges, 87, 84-93, Proceedings of the Indian National Science Academy, 2021 |
| 18 | N Das, V Damodaran, B Chakraborty, C Roychaudhuri, Experiment and fem analysis of silica nanoparticle-based impedance immunosensor for sensitivity enhancement, 20, 247-255, IEEE Transactions on NanoBioscience, 2021 |
| 19 | Bhaswati Chakraborty, Chirasree Roychaudhuri, Metal/metal oxide modified graphene nanostructures for electrical biosensing applications: A review, 21, 17629-17642, IEEE Sensors Journal, 2021 |
| 20 | K Sinha, B Chakraborty, S Som Chaudhury, C Roy Chaudhuri, SK Chattopadhyay, C Das Mukhopadhyay, Selective, ultra-sensitive, and rapid detection of serotonin by optimized ZnO nanorod FET biosensor, 21, 65-74, IEEE transactions on nanobioscience, 2021 |
| 21 | Chirasree Roychaudhuri, Naresh Mandal, Screen printed electrochemical and impedance biosensors, 9-1-9-47, Printed and Flexible Sensor Technology: Fabrication and applications, 2021 |
| 22 | P.Pramanik, S.Das, A.Adhikary, C.RoyChaudhuri, A.Bhatatacharyya,, Design and Implementation of Water purification System based on deep ultravaiolet light emitting diodes and a multipass geometry reactor, 18 (3), 306–313., Journal of Water and Health, 2020 |
| 23 | B. Chakraborty, D. Mondal and C. RoyChaudhuri, ZnO Nanorod FET Biosensors with Enhanced Sensing Performance: Design Issues for Rational Geometry Selection, 20(22), 13451 - 13460, IEEE Sensors Journal, 2020 |
| 24 | B. Pramanick, N. Mandal, D. Mondal, C. RoyChaudhuri and S. Chakraborty, C-MEMS Derived Glassy Carbon Electrodes Based Sensitive Electrochemical Biosensors, 20(21), 12472 - 12478, IEEE Sensors Journal, 2020 |
| 25 | C. RoyChaudhuri, B. Chakraborty, Development of low noise FET biosensor using graphene and ZnO nanostructures on cost effective substrates for biomolecule detection with enhanced performance, 8(2), 129-136, CSI Transactions on ICT, 2020 |
| 26 | N. Das, G. D. Ropmay, A. M. Joseph and C. RoyChaudhuri, Modelling the Effective Conductance Drop due to a Particle in a Solid State Nanopore Towards Optimized Design, 19 (4), 598-608, IEEE Transactions on NanoBioscience, 2020 |
| 27 | N. Mandal, V. Pakira, N. Samanta, N. Das, S. Chakraborty, B. Pramanick, C. RoyChaudhuri, PSA Detection using Label Free Graphene FET with Coplanar Electrodes Based Microfluidic Point of Care Diagnostic Device, 222, 121581, Talanta, 2020 |
| 28 | B. Chakraborty, R. Saha, S. Chattopadhyay, D. De, R. Das, M. Mukhopadhyay, M. Palit, and C. Roychaudhuri, Impact of surface defects in electron beam evaporated ZnO thin films on FET biosensing characteristics towards reliable PSA detection, 537, 147895, Applied Surface Science, 2020 |
| 29 | N. Das, N. Mandal, P. Sekhar, C. RoyChaudhuri, Signal Processing for Single Biomolecule Identification using Nanopores: A Review, IEEE Sensors Journal, 2020 |
| 30 | B.Chakraborty and C.RoyChaudhuri, Performance Enhancement of Biomolecule Detection in ZnO Thin Film Transistor by Noise Spectroscopy Measurements, 19, 10977 - 10984, IEEE Sensors Journal, 2019 |
| 31 | D.Mondal, M. Suresh, Chandra S. Sharma, A.Singha, C.RoyChaudhuri, Optimization of carbon electrodes for electrochemical biosensors: influence of thickness on redox output, Materials Today: Proceedings, 2019 |
| 32 | R. Sarkar, S. Kishida, M. Kishida, N. Nakamura, T. Kibe, D. Karmakar, C. R. Chaudhuri, and A. Barui, Effect of cigarette smoke extract on mitochondrial heme-metabolism: An in vitro model of oral cancer progression, 60, 336–346, Toxicology in Vitro, 2019 |
| 33 | B. Chakraborty, S. Ghosh, N. Das, and C. Roychaudhuri, Liquid gated ZnO nanorod FET sensor for ultrasensitive detection of Hepatitis B surface antigen with vertical electrode configuration, 122, 58–67, Biosensors and Bioelectronic, 2018 |
| 34 | J. Basu, N. Samanta, S. Jana, and C. Roychaudhuri, Towards reliability enhancement of graphene FET biosensor in complex analyte: Artificial neural network approach, 91, 154–159, Microelectronics Reliability, 2018 |
| 35 | N. Das, R. Ray, S. Ray, and C. Roychaudhuri, Intelligent Quantification of Picomolar Protein Concentration in Serum by Functionalized Nanopores,, 18, 10183–10191, IEEE Sensors Journal, 2018 |
| 36 | • D. Mondal and C. Roychaudhuri, Real time in vitro monitoring and impedance modeling of mammalian cell activities on planar ECIS and micro/nano patterned cytosensors, 7, 107–122, ISSS Journal of Micro and Smart Systems, 2018 |
| 37 | R. Ray, J. Basu, W. A. Gazi, N. Samanta, K. Bhattacharyya, and C. Roychaudhuri, Label-Free Biomolecule Detection in Physiological Solutions With Enhanced Sensitivity Using Graphene Nanogrids FET Biosensor, 17 no. 4, 433–442, IEEE Transactions on NanoBioscience, 2018 |
| 38 | J. Basu and C. Roychaudhuri, Graphene Nanoporous FET Biosensor: Influence of Pore Dimension on Sensing Performance in Complex Analyte, 18, no. 14, 5627–5634, IEEE Sensors Journal, 2018 |
| 39 | R. Sarkar, K. Chatterjee, D. Ojha, B. Chakraborty, S. Sengupta, D. Chattopadhyay, C. Roychaudhuri, and A. Barui, Liaison between heme metabolism and bioenergetics pathways-a multimodal elucidation for early diagnosis of oral cancer, 21, 263–274, Photodiagnosis and Photodynamic Therapy, 2018 |
| 40 | J. Basu, A. Baral, N. Samanta, N. Mukherjee, and C. Roychaudhuri, Low Noise Field Effect Biosensor with Electrochemically Reduced Graphene Oxide, 165, no. 8, B3201-B3207, Journal of The Electrochemical Society, 2018 |
| 41 | A. Mal, R. Bose, and C. Roychaudhuri, High Performance Biosensor Based on Electronic Transduction of Refractive Index Using 3D Nanostructured Biogenic Silica, 5, no. 3, 9783–9789, Materials Today: Proceedings, 2018 |
| 42 | J. Basu and C. Roychaudhuri, Biomolecule Detection in High Ionic Strength With Enhanced Sensitivity Using Graphene Nanogrid FET Immunosensor, 5, no. 3, 9881–9887, Materials Today: Proceedings, 2018 |
| 43 | H.Ghosh, R.Das, C.RoyChaudhuri, Optimized Nanocrystalline Silicon Oxide Impedance Immunosensor Electronic Tongue for Sub-femtomolar Estimation of Multiple Food Toxins, 66, 964-973, IEEE Transactions on Instrumentation and Measurement, 2017 |
| 44 | W.Chakraborty, R.Ray, N.Samanta, C.RoyChaudhuri, Quantitative differentiation of multiple virus in blood using nanoporous silicon oxide immunosensor and artificial neural network, 98, 180-188, Biosensors and Bioelectronics, 2017 |
| 45 | Kalyan Kumar Mistry,Keya Layek,Tarak Nath Chell,Chirasree Roy Chaudhuri and Hiranmay Saha, Design and development of an amperometric immunosensor based on screen-printed electrodes, 8, 3096-3101, Analytical Methods (Royal Society of Chemistry), 2016 |
| 46 | B.Mondal , J.Das, C.RoyChaudhuri, N.Mukherjee, H.Saha, Enhanced sensing properties of ZnO-SnO2 based composite type gas sensor, 73, 10301, Eur. Phys. J. Appl. Phys.(EDP Sciences), 2016 |
| 47 | H. Ghosh, C. RoyChaudhuri, Pore Geometry Optimization of Nanocrystalline Silicon Oxide Impedance Biosensor, 16, 7843-7852, IEEE Sensors Journal, 2016 |
| 48 | J.Basu and C.Roychaudhuri, Graphene Nanogrids FET Immunosensor: Signal To Noise Ratio Enhancement, 16, 1481 (1-10), Sensors, 2016 |
| 49 | J.Basu, C.RoyChaudhuri, Attomolar Sensitivity of FET Biosensor Based on Smooth and Reliable Graphene Nanogrids, 37, no.4, 492-495, IEEE Trans. on Electron Device Letters, 2016 |
| 50 | H.Ghosh, D.Kundu, C.RoyChaudhuri, Design Issues for Performance Enhancement in Nanostructured Silicon Oxide Biosensors: Modeling the Frequency Response, 63, 3241, IEEE Transactions on Electron Devices, 2016 |
| 51 | D.Mondal, R.Bose, C.RoyChaudhuri, Real Time Monitoring of Wound Healing on Nano-patterned Substrates: Non-invasive Impedance Spectroscopy Technique, 15, 791-800, IEEE Transactions on Nanotechnology, 2016 |
| 52 | N.Samanta, C.RoyChaudhuri, Nanocrystalline Silicon Oxide Impedance Immunosensors for Sub-femtomolar Mycotoxin Estimation in Corn Samples by Incremental Fuzzy Approach, 16, 1079-1078, IEEE Sensors, 2016 |
| 53 | C.RoyChaudhuri, A Review on Porous Silicon Based Electrochemical Biosensors: Beyond Surface Area Enhancement Factor, 210, 310-323, Sensors and Actuators B(Elsevier), 2015 |
| 54 | H.Ghosh, C.RoyChaudhuri, Noise Spectroscopy As an Efficient Tool For Impedance Based Sub-Femtomolar Toxin Detection In Complex Mixture Using Nanoporous Silicon Oxide, 67, 757-762, Biosensors and Bioelectronics(Elsevier), 2015 |
| 55 | J.Basu, S.Datta, C.RoyChaudhuri, A graphene field effect capacitive Immunosensor for sub-femtomolar food toxin detection, 68, 544-549, Biosensors and Bioelectronics (Elsevier), 2015 |
| 56 | S.Ghosh, R.Bhattacharyya,H.Saha, C.RoyChaudhuri, N.Mukherjee, Functionalized ZnO/ZnO2 n–N straddling heterostructure achieved by oxygen plasma bombardment for highly selective methane sensing, 17, 27777—27788, Phys. Chem. Chem. Phys (Royal Society of Chemistry), 2015 |
| 57 | N.Das, J.Basu, C.RoyChaudhuri, Graphene coated nanoporous silicon immunosensor for food toxin detection, 17, 204-209, International Journal of Advances in Engineering Sciences and Applied Mathematics(Springer), 2015 |
| 58 | B Mondal, MS Meetei, J Das, CR Chaudhuri, H Saha, Quantitative recognition of flammable and toxic gases with artificial neural network using metal oxide gas sensors in embedded platform, 18, no.2, 229-234, Engineering Science and Technology, an International Journal (Elsevier), 2015 |
| 59 | K.K.Mistry, T.S.Deephy, C.RoyChaudhuri, H.Saha, Electrochemical characterization of some commercial screen printed Electrodes in Different redox Substrates, 109, no.8, 1427-1436, Current Science (Indian Academy of Sciences), 2015 |
| 60 | N.Das, C.RoyChaudhuri, Reliability Study of Nanoporous Silicon Oxide Impedance Biosensor for Virus Detection: Influence of Surface Roughness, 15, 402-409, IEEE Transactions on Devices and Materials Reliability, 2015 |
| 61 | D.Mondal, D.Pal and C. RoyChaudhuri, Real Time Sensing of Epithelial Cell-Cell and Cell-Substrate Interactions by Impedance Spectroscopy on Porous Substrates, 118, 044701-14, Journal of Applied Physics (American Institute of Physics), 2015 |
| 62 | K.K.Mistry, K.Layek, A.Mahapatra, C.RoyChaudhuri, A comparative study in electrochemical response of some commercial screen–printed electrodes (SPEs), 12, 1750-1759, Sensor Letters( American Scientific Publishers), 2014 |
| 63 | Kalyan Kumar Mistry, Keya Layek, Abhijit Mahapatra, Chirasree RoyChaudhuri and Hiranmay Saha, A review on amperometric-type immunosensors based on screen-printed electrodes, 139, 2289-2311, Analyst, (Royal Society of Chemistry), 2014 |
| 64 | S.Ghosh, C.RoyChaudhuri, R.Bhattacharyya, H.Saha, N.Mukherjee, Palladium-Silver-Activated ZnO Surface: Highly Selective Methane Sensor at Reasonably Low Operating Temperature, 26, 3879-87, ACS Appl Mater Interfaces, 2014 |
| 65 | B.Mondal, B.Basumatari, J.Das, C.RoyChaudhuri, H.Saha, N.Mukherjee, ZnO–SnO2 based composite type gas sensor for selective hydrogen sensing, 194, 389– 396, Sensors and Actuators B, 2014 |
| 66 | N.Samanta, A.K.Chanda, C.RoyChaudhuri, An Energy Efficient, Minimally Intrusive Multi- Sensor Intelligent System For Health Monitoring Of Elderly People, 7, 762-780, International Journal of Smart Sensing and Intelligent Systems, 2014 |
| 67 | B Mondal, L Dutta, C Roychaudhury, D Mohanta, N Mukherjee ,H.Saha,, Effect of Annealing Temperature on the Morphology and Sensitivity of the Zinc Oxide Nanorods-Based Methane Sensor, 27, no.4, 593-600, Acta Metallurgica Sinica (English Letters), 2014 |
| 68 | C.RoyChaudhuri, D.Mondal, Electrode Optimization for Impedance Evaluation of Biological Cell Culture under Variable Frequency Low Intensity Sinusoidal Electric Field, 20, 382-390, IEEE Transactions on Dielectric and Electric Insulation, 2013 |
| 69 | A.Barui, N.Mandal, S.Majumdar, R.K.Das, S.Sengupta, P.Banerjee, C. RoyChaudhuri, J.Chatterjee, Assessment of Molecular Events during in vitro Re- epithelialization under Honey-Alginate Matrix Ambience, 33, 3418-3425, Materials Science and Engineering B (Elsevier), 2013 |
| 70 | H. Ghosh, C.RoyChaudhuri, Ultrasensitive Food Toxin Biosensor Using Frequency Based Signals of Silicon Oxide Nanoporous Structure, 102, 243701, Applied Physics Letters, 2013 |
| 71 | N.Samanta, O.Kundu and C.RoyChaudhuri, A Simple Low Power Electronic Readout for Rapid Bacteria Detection with Impedance Biosensor, IEEE Sensors, 2013 (in press), 2013 |
| 72 | D.Mondal and C.RoyChaudhuri, Extended Electrical Model for Impedance Characterization of Cultured HeLa Cells in Characterization of Cultured HeLa Cells in, IEEE Transactions on Nanobioscience, 2013(in press), 2013 |
| 73 | R.Dev Das, N.Mondal, C.RoyChaudhuri, Optimized Electrode Geometry for an Improved Impedance based Macroporous Silicon Bacteria Detector, 12, 1868-1877, IEEE Sensors, 2012 |
| 74 | D.Mondal, C.RoyChaudhuri, L.Das, J.Chatterjee, Microtrap electrode devices for single cell trapping and impedance measurement, 14, 955-964, Biomedical Microdevices (Springer), 2012 |
| 75 | A.D.Chowdhury, A.De, C.RoyChaudhuri, K.Bandyopadhyay, P.Sen, Label free polyaniline based impedimetric biosensor for detection of E. coli O157:H7 Bacteria, 171–172, 916-923, Sensors and Actuators B(Elsevier), 2012 |
| 76 | R.DevDas, A.Dey, S.Das, C.RoyChaudhuri, Interdigitated Electrode-less High Performance Macroporous Silicon Structure as Impedance Biosensor for Bacteria Detection, 11, 1242-1252, IEEE Sensors, 2011 |
| 77 | C.RoyChaudhuri, S.Barma, A High Performance 1GHz Voltage Controlled Oscillator Using Neural System Architecture, 66, 459-465, Analog Integrated Circuits and Signal Processing, (Springer), 2011 |
Created: 23 November 2019