Your search keyword '"Prasad, Rakesh K."' showing total 11 results

1. Piezo-resistive pressure sensor based on CVD-grown ZnO nanowires on Polyethylene Tetrathalate substrate

Author

Kumari, Manisha, Prasad, Rakesh K., Singh, Manish K., Iyer, Parameswar K., and Singh, Dilip K.

Subjects

Physics - Instrumentation and Detectors, Condensed Matter - Materials Science, Physics - Applied Physics

Abstract

Recent developments in the domain of electronic materials and devices have attracted the interest of researchers toward flexible and printable electronic components like organic transistors, printable electrodes and sensors. Zinc Oxide (ZnO) nanowires (NWs) possess a number of excellent properties like high mobility, large exciton binding energy and the direct-band gap in addition to large piezoelectric coefficients. Here, we report on flexible piezo-resistive sensor based on Indium tin oxide (ITO)-coated Polyethylene tetrathalate (PET) substrate. The device shows sensitivity in terms of change in resistance from 100 {\Omega} to 2.4 K{\Omega} at an applied potential of 5V upon bending from flat to 95 degrees. The 1-D nanowire flexible device in its flat state shows saturated output current. We observed ten folds enhanced variation as compared to previous reports. Improved sensitivity was observed in our experiments due to fewer defects in CVD-grown NWs as compared to others where hydrothermally grown nanowires were used. The methodology of device fabrication reported here requires less time and enables efficient devices for the realization of flexible and wearable technology., Comment: 24 pages, 5 figures

Published

2023

2. High-Efficiency Photodetector Based On CVD-Grown WS$_2$ Monolayer

Author

Prasad, Rakesh K., Ghosh, Koushik, Giri, P. K., Kim, Dai-Sik, and Singh, Dilip K.

Subjects

Physics - Instrumentation and Detectors

Abstract

Future generation technologies demand high efficiency photodetectors to enable sensing and switching devices for ultrafast communication and machine vision. This require direct-band gap materials with high photosensitivity, high detectivity and high quantum efficiency. Monolayered two- Dimensional (2D)-Semiconductors based photodetectors are the most promising materials for such applications, although experimental realization has been limited due to unavailability of high quality sample. In the current manuscript, we report about WS$_2$ based photodetector having sensitivity of 290 AW-1 upon 405 nm excitation and incident power density as low as 0.06 mW/cm$^2$. The fabricated device shows detectivity of 52*10^14 with external quantum efficiency of 89*10$^3$%. The observed superior photo-response parameters of CVD grown WS$_2$ based photodetector as compared to Si-detectors establishes it capability to replace the Si-photodetectors with monolayered ultrathin device having superior performance parameters., Comment: 26 Pages, 8 figures

Published

2023

3. Kinetics and Parameters of Epitaxial Monolayered Continuous large area Molybdenum disulfide Growth

Author

Prasad, Rakesh K. and Singh, Dilip K.

Subjects

Condensed Matter - Materials Science

Abstract

The growth of large crystallite continuous monolayer materials like molybdenum disulfide (MoS$_2$) with desired morphology via chemical vapor deposition (CVD) remains a challenge. In CVD, the complex interplay of various factors like growth temperature, precursors, and nature of the substrate decides the crystallinity, crystallite size, and coverage area of the grown MoS$_2$ monolayer. In the present work, we report about the role of weight fraction of molybdenum trioxide (MoO$_3$), Sulfur, and carrier gas flow rate towards nucleation and monolayer growth. The concentration of MoO$_3$ weight fraction has been found to govern the self-seeding process and decides the density of nucleation sites affecting morphology and coverage area. Carrier gas flow of 100 sccm argon results into large crystallite continuous films with lower coverage area (70 %), while the flow rate of 150 sccm results into 92 % coverage area with reduced crystallite size. Through systematic variation of experimental parameters, we have established the recipe for the growth of large crystallite atomically thin MoS$_2$ suitable for optoelectronic devices., Comment: 31 pages, 10 figures

Published

2022

4. Single step synthesis of size-controlled carbon quantum dots using electrochemical etching of graphite

Author

Gaurav, Ashish, Sinha, Deepali, Prasad, Rakesh K., and Singh, Dilip K.

Subjects

Physics - Applied Physics, Condensed Matter - Materials Science

Abstract

Carbon Quantum dots (CQD's) are nanoscale sp2 hybridized carbon particles. In this work, we present a simple one-step synthesis of CQDs from the electrochemical shredding method and technique to control its size during its growth process. A graphite rod extracted from commercially available pencil batteries was used as electrode: source of carbon. CQDs of varying sizes were synthesized through controlled current to the solution for etching and Sodium dodecyl sulfate (SDS) as capping agent during growth. CQD's of controlled sizes as formed can be used as fluorescent marker for bio-imaging and sensing platform for wide range of applications., Comment: 21 Pages, 7 figures

Published

2020

5. Fabrication of Tungsten nanoprobes by Electrochemical etching: Role of cathode geometry and their use as electrical probe

Author

Prasad, Rakesh K. and Singh, Dilip K.

Subjects

Physics - Instrumentation and Detectors

Abstract

Electrical measurement of nano-scale devices and structures requires skills and hardware to make nano-contacts. Such measurements have been difficult for number of laboratories due to cost of probe station and nano-probes. In the present work, we have demonstrated possibility of assembling low cost probe station using USB microscope (US $ 30) coupled with in-house developed probe station. We have explored the effect of shape of etching electrodes on the geometry of the microprobes developed. The variation in the geometry of copper wire electrode is observed to affect the probe length (0.58 mm to 2.15 mm) and its half cone angle (1.4 to 8.8 degree). These developed probes were used to make contact on micro patterned metal films and was used for electrical measurement along with semiconductor parameter analyzer. These probes show low contact resistance ( 4 ohm) and follows ohmic behavior. Such probes can be used for laboratories involved in teaching and multidisciplinary research activities and Atomic Force Microscopy., Comment: 21 pages, 4 figures

Published

2020

6. Controlled Nucleation Sites with Large Coverage Area for Continuous Monolayered WS2 Growth by Using the CVD Process

Author

Prasad, Rakesh K., primary, Kumari, Manisha, additional, and Singh, Dilip K., additional

Published

2023

7. Continuous Large Area Monolayered Molybdenum Disulfide Growth Using Atmospheric Pressure Chemical Vapor Deposition

Author

Prasad, Rakesh K., primary and Singh, Dilip K., additional

Published

2023

8. Controlled Nucleation Sites with Large Coverage Area for Continuous Monolayered WS2 Growth by Using the CVD Process.

Author

Prasad, Rakesh K., Kumari, Manisha, and Singh, Dilip K.

Published

2023

9. High-Efficiency Photodetector Based on a CVD-Grown WS2 Monolayer.

Author

Prasad, Rakesh K., Ghosh, Koushik, Giri, Pravat K., Kim, Dai-Sik, and Singh, Dilip K.

Published

2023

10. Low cost electrical probe station using etched tungsten nanoprobes: role of cathode geometry

Author

Prasad, Rakesh K, primary and Singh, Dilip K, additional

Published

2020

11. Controlled Nucleation Sites with Large Coverage Area for Continuous Monolayered WS2Growth by Using the CVD Process

Author

Prasad, Rakesh K., Kumari, Manisha, and Singh, Dilip K.

Abstract

Two-dimensional (2D) atomically thin transition metal dichalcogenides exhibit remarkable interest due to their tunable band gap and novel electronic and optical properties for electronics and optoelectronic devices. Here, we demonstrate an effective approach to synthesize large-area monolayered tungsten disulfide (WS2) through the atmospheric pressure chemical vapor deposition technique on a SiO2/Si substrate. Initial parameters like amount of precursors, gas flow rate, and growth duration decide the crystal quality, crystallite size, and the coverage area. We observed that the amount of metal precursor (WO3) is responsible for creating nuleaction sites and excess presence of WO3–xleads to formation of multinucleation sites. Sulfur is experimentally found to govern the coverage area. A sulfur-rich environment leads to bilayer formation. The local concentration of the vapor phase of precursors is found to get affected by the gas flow rate and it governs the crystallite size and coverage area. Moderate gas flow rate (100 and 150 sccm) and optimum growth time (15 min) result in monolayer growth. Competing adsorption and desorption process in addition to the evaporation rate of the metal precursors decides the nucleation sites toward the formation of a monolayered structure. We have established the role of precursors, carrier gas flow rate, and growth duration toward the formation of a continuous monolayered WS2film. Such highly crystalline monolayered WS2films will be highly useful to achieve efficient electronic and optoelectronic devices.

Published

2023