115 results on '"Tamersit, Khalil"'
Search Results
2. Improved performance of sub-10-nm band-to-band tunneling n-i-n graphene nanoribbon field-effect transistors using underlap engineering: A quantum simulation study
3. Electrostatically Doped Junctionless Graphene Nanoribbon Tunnel Field-Effect Transistor for High-Performance Gas Sensing Applications: Leveraging Doping Gates for Multi-Gas Detection
4. Analog/RF performance assessment of ferroelectric junctionless carbon nanotube FETs: A quantum simulation study
5. A novel band-to-band tunneling junctionless carbon nanotube field-effect transistor with lightly doped pocket: Proposal, assessment, and quantum transport analysis
6. New nanoscale band-to-band tunneling junctionless GNRFETs: potential high-performance devices for the ultrascaled regime
7. Improved performance of nanoscale junctionless carbon nanotube tunneling FETs using dual-material source gate design: A quantum simulation study
8. Performance Projection of Vacuum Gate Dielectric Doping-Free Carbon Nanoribbon/Nanotube Field-Effect Transistors for Radiation-Immune Nanoelectronics.
9. A new pressure microsensor based on dual-gate graphene field-effect transistor with a vertically movable top-gate: Proposal, analysis, and optimization
10. Sub-10 nm junctionless carbon nanotube field-effect transistors with improved performance
11. Performance enhancement of an ultra-scaled double-gate graphene nanoribbon tunnel field-effect transistor using channel doping engineering: Quantum simulation study
12. Improving the performance of a junctionless carbon nanotube field-effect transistor using a split-gate
13. Asymmetric Dual-Gate Junctionless GNR Tunnel FET as a High-Performance Photosensor With an Electrostatically Improved Photosensitivity: A Quantum Simulation Study
14. Profound analysis on sensing performance of Nanogap SiGe source DM-TFET biosensor
15. A new ultra-scaled graphene nanoribbon junctionless tunneling field-effect transistor: proposal, quantum simulation, and analysis
16. A computational study of short-channel effects in double-gate junctionless graphene nanoribbon field-effect transistors
17. Quantum simulation of a junctionless carbon nanotube field-effect transistor with binary metal alloy gate electrode
18. A novel graphene field-effect transistor for radiation sensing application with improved sensitivity: Proposal and analysis
19. A computationally efficient hybrid approach based on artificial neural networks and the wavelet transform for quantum simulations of graphene nanoribbon FETs
20. An ultra-sensitive gas nanosensor based on asymmetric dual-gate graphene nanoribbon field-effect transistor: proposal and investigation
21. Dielectric-Modulated Junctionless Carbon Nanotube Field-Effect Transistor as a Label-Free DNA Nanosensor: Achieving Ultrahigh Sensitivity in the Band-to-Band Tunneling Regime
22. Boosting the performance of a nanoscale graphene nanoribbon field-effect transistor using graded gate engineering
23. A New Design Paradigm for Auto-Nonvolatile Ternary SRAMs Using Ferroelectric CNTFETs: From Device to Array Architecture
24. Correction to “Leveraging Negative Capacitance CNTFETs for Image Processing: An Ultra-Efficient Ternary Image Edge Detection Hardware”
25. Performance Assessment of a New Radiation Microsensor Based 4H-SiC trench MOSFET: A Simulation Study
26. Leveraging negative capacitance ferroelectric materials for performance boosting of sub-10 nm graphene nanoribbon field-effect transistors: a quantum simulation study
27. High-Performance Detection of Toxic Gases Using a New Microsensor based on Graphene Field-Effect Transistor
28. High Photosensitivity in Band-to-Band Tunneling Regime of Carbon Nanotube Field-Effect Phototransistor: Numerical Investigation
29. Role of Junctionless Mode in Improving the Photosensitivity of Sub-10 nm Carbon Nanotube/Nanoribbon Field-Effect Phototransistors: Quantum Simulation, Performance Assessment, and Comparison
30. Improving the Current Ratio and Ambipolar Behavior of Junctionless CNTFETs Using Graded Metal Gate Work Function: A Quantum Simulation
31. Synergy of Electrostatic and Chemical Doping to Improve the Performance of Junctionless Carbon Nanotube Tunneling Field-Effect Transistors: Ultrascaling, Energy-Efficiency, and High Switching Performance
32. Energy-Efficient Carbon Nanotube Field-Effect Phototransistors: Quantum Simulation, Device Physics, and Photosensitivity Analysis
33. Leveraging Negative Capacitance CNTFETs for Image Processing: An Ultra-Efficient Ternary Image Edge Detection Hardware
34. Double-Gate Junctionless GNRFETs Operating in the BTBT Regime: A Simple Design with Improved Performance for Low-Power Applications
35. Improving the On-Current of Junctionless Carbon Nanotube Tunneling FETs Using a Heavily n-Type Doped Pocket
36. Junctionless Carbon Nanotube Field-Effect Transistors as Gas Nanosensors for Low-Power Environment Monitoring Applications
37. Role of Underlap Structure in Boosting the Performance of Band-to-Band Tunneling Carbon Nanotube FET with 5-nm Gate Length
38. Ultra-Compact Ternary Logic Gates Based on Negative Capacitance Carbon Nanotube FETs
39. Improved Switching Performance of Nanoscale p-i-n Carbon Nanotube Tunneling Field-Effect Transistors Using Metal-Ferroelectric-Metal Gating Approach
40. Computational Investigation of Negative Capacitance Coaxially Gated Carbon Nanotube Field-Effect Transistors
41. Computational Study of p-n Carbon Nanotube Tunnel Field-Effect Transistor
42. A new ultra-scaled graphene nanoribbon junctionless tunneling field-effect transistor: proposal, quantum simulation, and analysis
43. Carbon Nanotube Field-Effect Transistor With Vacuum Gate Dielectric for Label-Free Detection of DNA Molecules: A Computational Investigation
44. Boosting the performance of an ultrascaled carbon nanotube junctionless tunnel field-effect transistor using an ungated region: NEGF simulation
45. Performance Assessment of a New Radiation Dosimeter Based on Carbon Nanotube Field-Effect Transistor: A Quantum Simulation Study
46. Fast and Accurate Simulation of Ultrascaled Carbon Nanotube Field-Effect Transistor Using ANN Sub-Modeling Technique
47. Numerical Study of a New Junctionless Tunneling Field-Effect Transistor Based on Graphene Nanoribbon
48. Atomistic Simulation of a New Label-Free DNA Nanosensor Based on Ballistic Carbon Nanotube Field-Effect Transistor
49. Modeling of a new graphene-based smart sensor for high performance pH monitoring applications
50. Double-Gate Graphene Nanoribbon Field-Effect Transistor for DNA and Gas Sensing Applications: Simulation Study and Sensitivity Analysis
Catalog
Books, media, physical & digital resources
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.