Khuraijam Nelson Singh
Verified @hotmail.com
Scopus Publications
- TFET Fundamentals: A Gateway to Nanoscale Electronics
Khuraijam Nelson Singh, Ningombam Ajit Kumar, Sushmita Dandeliya, Pranab Kishore Dutta, Sonal Agrawal, Anurag Srivastava, Gaurav Kaushal
Nanoelectronics Fundamentals Advances and Applications, 2025
The scaling of conventional field-effect transistors is restricted by the fundamental limit of 60 mV/dec subthreshold swing (SS). In practical scenarios, the SS exceeds the fundamental limit, leading to higher leakage current during the OFF state. This limitation can be overcome using the tunnel field-effect transistor (TFET), whose charge transport is based on quantum tunneling and allows sub-60 mV/dec SS. Such features of TFETs enable faster switching speed, lower power dissipation in the OFF state, and lower short-channel effects (SCEs). So, this chapter discussed TFETs in detail to understand its fundamentals and various aspects. The chapter starts with an overview of TFET, including its evolution. The operation and characteristics of TFET are then discussed, highlighting techniques for enhancing its performance. The application of TFET as biosensors has also been included. Finally, the significance of TFET in advancing nanoscale electronics has been discussed, along with the challenges and future outlook. - Prospects of Negative-Capacitance Ferroelectric Field-Effect Transistors in Low-Power Electronics and Beyond
Ningombam Ajit Kumar, Khuraijam Nelson Singh, Sisira Hawaibam, Sushmita Dandeliya, Sonal Agrawal
Handbook of Advanced Semiconductor Field Effect Transistors, 2025
The demand for compact, efficient, and low-power electronics has grown exponentially over the last few decades. However, conventional field-effect transistors (FETs) face subthreshold swing (SS) limitations. Thus, modern integrated circuits (ICs) with billions of transistors exhibit high overall power consumption. The negative-capacitance ferroelectric FET (NC-FeFET) is among the many transistor concepts devised to solve this issue. The NC-FeFET structure is realized by incorporating a ferroelectric material into the FET gate oxide. This modification amplifies the internal voltage near the device channel region, resulting in a steeper SS with a high I ON /I OFF ratio, thus reducing power consumption. In this chapter, the fundamentals of NC-FeFETs are discussed in detail. The first section introduces the NC-FeFET and discusses its evolution and operation. The chapter then discusses NC-FeFET modeling approaches, applications, performance optimization, and challenges. A comparative analysis of the NC-FeFET with other transistors is also presented. Finally, the chapter concludes with future prospects and research trends highlighting the possibilities of NC-FeFETs as future devices. - An ensemble-based transfer learning model for predicting the imbalance heart sound signal using spectrogram images
Sinam Ajitkumar Singh, Ningthoujam Dinita Devi, Khuraijam Nelson Singh, Khelchandra Thongam, Balakrishna Reddy D, Swanirbhar Majumder
Multimedia Tools and Applications, 2024 - Transfer learning-based arrhythmia classification using electrocardiogram
Khuraijam Nelson Singh, Sinam Ajitkumar Singh, Nepolean Keisham, Khelchandra Thongam, Swanirbhar Majumder
Machine Learning Models and Architectures for Biomedical Signal Processing, 2024 - Analysis of Channel Grading on Triple Material Double Gate Stack Oxide SON MOSFET
Ningombam Ajit Kumar, Khuraijam Nelson Singh
Lecture Notes in Electrical Engineering, 2023 - Analytical Investigation of a Split Double Gate Graded Channel Field Effect Transistor for Biosensing Applications
Khuraijam Nelson Singh, P. Dutta
Silicon, 2022 - Analytical modeling of underlap graded channel field effect transistor as a label-free biosensor
Khuraijam Nelson Singh, Pranab Kishore Dutta
Superlattices and Microstructures, 2021 - Analytical modeling of a high-K underlap dielectric- and charge-modulated silicon-on-nothing FET-based biosensor
Khuraijam Nelson Singh, Pranab Kishore Dutta
Journal of Computational Electronics, 2020 - Analysis of split gate dielectric and charge modulated son fet as biosensor
Khuraijam Nelson Singh, Amit Jain, Pranab Kishore Dutta
Lecture Notes in Electrical Engineering, 2020 - Comparative Analysis of Underlapped Silicon on Insulator and Underlapped Silicon on Nothing Dielectric and Charge Modulated FET based Biosensors
Khuraijam Nelson Singh, Pranab Kishore Dutta
Proceedings of 3rd International Conference on 2019 Devices for Integrated Circuit Devic 2019, 2019
A biosensor based on silicon on insulator (SOI) MOSFET provides many advantages over the conventional biosensors but still suffers from the inherent problem which exists in SOI structures. Silicon on nothing (SON) MOSFET which is a derivative of SOI MOSFET is an option which has been considered by many as an alternative due to its excellent performances. In this study, underlapped silicon on insulator (USOI) and underlapped silicon on nothing (USON) dielectric and charge modulated FET (DCMFET) has been compared for biosensing application. Modulation of the devices electrical characteristics, namely surface potential, threshold voltage, and sensitivity have been studied to understand the sensing of biomolecules without labeling. Detection of biomolecules is evaluated as a shift of threshold voltage of the devices with the change in biomolecules dielectric constants and charges. The data obtained from the analytical models showed both the devices as highly sensitive; however, USON-DCMFET is found to be the better choice. The analytical models have also been verified by using the data obtained from the 2-D numerical simulations performed using SILVACO ATLAS. - A review on various multipliers designs in VLSI
Khuraijam Nelson Singh, H. Tarunkumar
12th IEEE International Conference Electronics Energy Environment Communication Computer Control E3 C3 Indicon 2015, 2016
RECENT SCHOLAR PUBLICATIONS
- Prospects of Negative‐Capacitance Ferroelectric Field‐Effect Transistors in Low‐Power Electronics and Beyond
NA Kumar, KN Singh, S Hawaibam, S Dandeliya, S Agrawal
Handbook of Advanced Semiconductor Field Effect Transistorss, 43-71 , 2025
2025 - TFET Fundamentals: A Gateway to Nanoscale Electronics
KN Singh, NA Kumar, S Dandeliya, PK Dutta, S Agrawal, A Srivastava, ...
Nanoelectronics: Fundamentals, Advances, and Applications, 267-295 , 2025
2025 - ANATOMICAL STUDY OF SHRINGATAKA MARMA USING CADAVERIC DISSECTION TECHNIQUE
N KUMAR, P RAMOLA, S FULARA, KN SINGH
INTERNATIONAL JOURNAL OF AYURVEDIC MEDICINE 15 (S1), 8-11 , 2025
2025
Citations: 1 - Transfer learning-based arrhythmia classification using electrocardiogram
KN Singh, SA Singh, N Keisham, K Thongam, S Majumder
Machine Learning Models and Architectures for Biomedical Signal Processing … , 2025
2025
Citations: 2 - Effect of sulphur and magnesium application on growth and yield attributes of wheat crop under central plains zone of UP
C Kumar, KN Singh, R Meena, P Dev, D Kumar, P Yadav, T Tiwari
Ecology, Environment & Conservation 30 , 2024
2024
Citations: 3 - An ensemble-based transfer learning model for predicting the imbalance heart sound signal using spectrogram images
SA Singh, ND Devi, KN Singh, K Thongam, S Majumder
Multimedia Tools and Applications 83 (13), 39923-39942 , 2024
2024
Citations: 13 - Analysis of Channel Grading on Triple
NA Kumar, KN Singh
Advances in Communication, Devices and Networking: Proceedings of ICCDN 2022, 43 , 2023
2023 - Analytical investigation of a split double gate graded channel field effect transistor for biosensing applications
KN Singh, PK Dutta
Silicon 14 (17), 11303-11313 , 2022
2022
Citations: 8 - Analytical modeling of underlap graded channel field effect transistor as a label-free biosensor
KN Singh, PK Dutta
Superlattices and Microstructures 155, 106897 , 2021
2021
Citations: 13 - Analytical modeling of a high-K underlap dielectric-and charge-modulated silicon-on-nothing FET-based biosensor
KN Singh, PK Dutta
Journal of Computational Electronics 19 (3), 1126-1135 , 2020
2020
Citations: 18 - Analytical Design of FET-Based Biosensors
KN Singh, PK Dutta
Advanced VLSI Design and Testability Issues, 147 , 2020
2020
Citations: 3 - Analysis of Split Gate Dielectric and Charge Modulated SON FET
KN Singh, A Jain, PK Dutta
Advances in Communication, Devices and Networking: Proceedings of ICCDN 2019 … , 2020
2020 - Analysis of Stack Gate Oxide Nanogap Silicon on Nothing (SON) for Biosensing Application
V Pandey, N Khuraijam, PK Dutta
Proceedings of the 5th International Conference on Computers & Management … , 2020
2020 - Analysis of Split Gate Dielectric and Charge Modulated SON FET as Biosensor
KN Singh, A Jain, PK Dutta
International Conference on Communication, Devices and Networking, 215-221 , 2019
2019 - Comparative analysis of underlapped silicon on insulator and underlapped silicon on nothing dielectric and charge modulated FET based biosensors
KN Singh, PK Dutta
2019 Devices for Integrated Circuit (DevIC), 231-235 , 2019
2019
Citations: 3 - Assessment of Different Methods for Sap Transmission of Chilli Leaf Curl Virus in Capsicum annuum L. and Its Validation through PCR Amplification of AV1 Coat Protein Gene
T Chauhan, A Choudhary, D Kumar, KN Singh
Int. J. Curr. Microbiol. App. Sci 7 (2), 2697-2703 , 2018
2018
Citations: 6 - A review on various multipliers designs in VLSI
KN Singh, H Tarunkumar
2015 Annual IEEE India Conference (INDICON), 1-4 , 2015
2015
Citations: 25 - Standardization of Transformation System in Rice Varieties (Swarna and IR 64) using Agrobacterium
K Kumar, KN Singh
Trends in Biosciences 5 (4), 279-283 , 2012
2012
Citations: 1 - Establishing callus formation of Swarna and IR 64 and sub-culturing of callus and monitoring the stages of regeneration.
KK Kshitij Kumar, KN Singh
2012 - Establishing Callus Formation of Swarna and IR 64 and Sub-culturing of Callus and Monitoring the Stages of Regeneration
K Kumar, KN Singh
Biosciences, 171 , 2012
2012
MOST CITED SCHOLAR PUBLICATIONS
- A review on various multipliers designs in VLSI
KN Singh, H Tarunkumar
2015 Annual IEEE India Conference (INDICON), 1-4 , 2015
2015
Citations: 25 - Analytical modeling of a high-K underlap dielectric-and charge-modulated silicon-on-nothing FET-based biosensor
KN Singh, PK Dutta
Journal of Computational Electronics 19 (3), 1126-1135 , 2020
2020
Citations: 18 - An ensemble-based transfer learning model for predicting the imbalance heart sound signal using spectrogram images
SA Singh, ND Devi, KN Singh, K Thongam, S Majumder
Multimedia Tools and Applications 83 (13), 39923-39942 , 2024
2024
Citations: 13 - Analytical modeling of underlap graded channel field effect transistor as a label-free biosensor
KN Singh, PK Dutta
Superlattices and Microstructures 155, 106897 , 2021
2021
Citations: 13 - Economics of seed potato production in Western Uttar Pradesh.
NR Kumar, KN Singh, R Rambir, PS Dahiya
2000
Citations: 11 - Analytical investigation of a split double gate graded channel field effect transistor for biosensing applications
KN Singh, PK Dutta
Silicon 14 (17), 11303-11313 , 2022
2022
Citations: 8 - Assessment of Different Methods for Sap Transmission of Chilli Leaf Curl Virus in Capsicum annuum L. and Its Validation through PCR Amplification of AV1 Coat Protein Gene
T Chauhan, A Choudhary, D Kumar, KN Singh
Int. J. Curr. Microbiol. App. Sci 7 (2), 2697-2703 , 2018
2018
Citations: 6 - Effect of sulphur and magnesium application on growth and yield attributes of wheat crop under central plains zone of UP
C Kumar, KN Singh, R Meena, P Dev, D Kumar, P Yadav, T Tiwari
Ecology, Environment & Conservation 30 , 2024
2024
Citations: 3 - Analytical Design of FET-Based Biosensors
KN Singh, PK Dutta
Advanced VLSI Design and Testability Issues, 147 , 2020
2020
Citations: 3 - Comparative analysis of underlapped silicon on insulator and underlapped silicon on nothing dielectric and charge modulated FET based biosensors
KN Singh, PK Dutta
2019 Devices for Integrated Circuit (DevIC), 231-235 , 2019
2019
Citations: 3 - Transfer learning-based arrhythmia classification using electrocardiogram
KN Singh, SA Singh, N Keisham, K Thongam, S Majumder
Machine Learning Models and Architectures for Biomedical Signal Processing … , 2025
2025
Citations: 2 - ANATOMICAL STUDY OF SHRINGATAKA MARMA USING CADAVERIC DISSECTION TECHNIQUE
N KUMAR, P RAMOLA, S FULARA, KN SINGH
INTERNATIONAL JOURNAL OF AYURVEDIC MEDICINE 15 (S1), 8-11 , 2025
2025
Citations: 1 - Standardization of Transformation System in Rice Varieties (Swarna and IR 64) using Agrobacterium
K Kumar, KN Singh
Trends in Biosciences 5 (4), 279-283 , 2012
2012
Citations: 1 - Prospects of Negative‐Capacitance Ferroelectric Field‐Effect Transistors in Low‐Power Electronics and Beyond
NA Kumar, KN Singh, S Hawaibam, S Dandeliya, S Agrawal
Handbook of Advanced Semiconductor Field Effect Transistorss, 43-71 , 2025
2025 - TFET Fundamentals: A Gateway to Nanoscale Electronics
KN Singh, NA Kumar, S Dandeliya, PK Dutta, S Agrawal, A Srivastava, ...
Nanoelectronics: Fundamentals, Advances, and Applications, 267-295 , 2025
2025 - Analysis of Channel Grading on Triple
NA Kumar, KN Singh
Advances in Communication, Devices and Networking: Proceedings of ICCDN 2022, 43 , 2023
2023 - Analysis of Split Gate Dielectric and Charge Modulated SON FET
KN Singh, A Jain, PK Dutta
Advances in Communication, Devices and Networking: Proceedings of ICCDN 2019 … , 2020
2020 - Analysis of Stack Gate Oxide Nanogap Silicon on Nothing (SON) for Biosensing Application
V Pandey, N Khuraijam, PK Dutta
Proceedings of the 5th International Conference on Computers & Management … , 2020
2020 - Analysis of Split Gate Dielectric and Charge Modulated SON FET as Biosensor
KN Singh, A Jain, PK Dutta
International Conference on Communication, Devices and Networking, 215-221 , 2019
2019 - Establishing callus formation of Swarna and IR 64 and sub-culturing of callus and monitoring the stages of regeneration.
KK Kshitij Kumar, KN Singh
2012
