PROJECTS | aasissharma

LETEST PROJECTS

Indirect Conversin Betavoltaic

Organic Direct Betavoltaic

Betavoltaic Device under SEM

Indirect Conversin Betavoltaic

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Project | 01

Alpha/Beta voltaic with semiconductive conjugated polymer

Designed and developed extreme duration betavoltaic devices for space and terrestrial applications.
Significantly reduced losses and enhanced performance by 39 times, optimized the scintillator layer and increased efficiency by upto 50%.
Implemented project-planning strategy to define goals, tracked progress weekly and ensured all deadlines met.

Project | 02

Analytical modeling of surface plasmon enhanced thin-film silicon solar cell

Conceptualized and developed analytical model for thin-film silicon solar cells.
Investigated the role of front and back layer thicknesses on device performance.
Investigated the different boundary conditions and their role on device performance.
Investigated the integration of metal nanoparticles using metal-dielectric composite (MDC) to achieve the surface plasmon enhancement on device performance by upto 33%.

444

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poly3

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Project | 03

Experimental optimization and simulation of polymer solar cell and photodetector

Experimentally investigated the role of P3HT:PCBM active layer thickness and enhanced efficiency by upto 650%.
Simulated the polymer device with P3HT:PCBM active layer to investigate the role of thickness on performance.

Project | 04

TCAD simulation of delta-doped MOSFET with post-low-energy implanting selective epitaxy

Simulated delta-doped MOSFET device, studied the impurities concentration profiles using 1D, 2D and 3D plots, investigated the metallurgical junction and obtained channel length.
Studied and implemented various MOSFET fabrication processes: photolithography, fully-recessed LOCOS, oxidation,diffusion, ion-implantation, metallization etc.

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111

113

115

111

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Project | 05

Design, fabrication and testing of “Micro channel heat sink with liquid coolant”

Designed, modeled, simulated and fabricated micro channel heat sink using photolithography, wet etching process of silicon wafer, silicon-glass anodic bonding, and tested successfully using electronic chip and water as coolant.
Proposed a novel way for cooling electronics devices.

Project | 06

Project | 07

Experimental investigation of bilayer graphene transparent electrode in the application of photovoltaic cell

Successfully replaced the indium tin oxide (ITO) transparent electrode with graphene in polymer optoelectronics devices.
Transferred graphene on quartz from copper substrate, doped graphene with gold nanoparticles to enhance optical and electrical characteristics.

Statistical analysis, Gage R&R and capability analysis of Wendy’s fries production process

Statistically analyzed the fries production process of Wendy’s using six-sigma quality control strategy.
Conducted capability analysis and Gage R&R.

Ashish Sharma, PhD

Process Technology Development Engineer, Intel Corp.

LETEST PROJECTS

Analytical modeling of surface plasmon enhanced thin-film silicon solar cell

Experimental optimization and simulation of polymer solar cell and photodetector

Experimentally investigated the role of P3HT:PCBM active layer thickness and enhanced efficiency by upto 650%.

Simulated the polymer device with P3HT:PCBM active layer to investigate the role of thickness on performance.

TCAD simulation of delta-doped MOSFET with post-low-energy implanting selective epitaxy

Simulated delta-doped MOSFET device, studied the impurities concentration profiles using 1D, 2D and 3D plots, investigated the metallurgical junction and obtained channel length.

Studied and implemented various MOSFET fabrication processes: photolithography, fully-recessed LOCOS, oxidation,diffusion, ion-implantation, metallization etc.

Design, fabrication and testing of “Micro channel heat sink with liquid coolant”

Designed, modeled, simulated and fabricated micro channel heat sink using photolithography, wet etching process of silicon wafer, silicon-glass anodic bonding, and tested successfully using electronic chip and water as coolant.

Proposed a novel way for cooling electronics devices.

Experimental investigation of bilayer graphene transparent electrode in the application of photovoltaic cell

Successfully replaced the indium tin oxide (ITO) transparent electrode with graphene in polymer optoelectronics devices.

Transferred graphene on quartz from copper substrate, doped graphene with gold nanoparticles to enhance optical and electrical characteristics.

Statistical analysis, Gage R&R and capability analysis of Wendy’s fries production process

Statistically analyzed the fries production process of Wendy’s using six-sigma quality control strategy.

Conducted capability analysis and Gage R&R.

LETEST PROJECTS

Analytical modeling of surface plasmon enhanced thin-film silicon solar cell

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Experimental optimization and simulation of polymer solar cell and photodetector

Experimentally investigated the role of P3HT:PCBM active layer thickness and enhanced efficiency by upto 650%.

Simulated the polymer device with P3HT:PCBM active layer to investigate the role of thickness on performance.

TCAD simulation of delta-doped MOSFET with post-low-energy implanting selective epitaxy

Simulated delta-doped MOSFET device, studied the impurities concentration profiles using 1D, 2D and 3D plots, investigated the metallurgical junction and obtained channel length.

Studied and implemented various MOSFET fabrication processes: photolithography, fully-recessed LOCOS, oxidation,diffusion, ion-implantation, metallization etc.

Design, fabrication and testing of “Micro channel heat sink with liquid coolant”

Designed, modeled, simulated and fabricated micro channel heat sink using photolithography, wet etching process of silicon wafer, silicon-glass anodic bonding, and tested successfully using electronic chip and water as coolant.

Proposed a novel way for cooling electronics devices.

Experimental investigation of bilayer graphene transparent electrode in the application of photovoltaic cell

Successfully replaced the indium tin oxide (ITO) transparent electrode with graphene in polymer optoelectronics devices.

Transferred graphene on quartz from copper substrate, doped graphene with gold nanoparticles to enhance optical and electrical characteristics.

Statistical analysis, Gage R&R and capability analysis of Wendy’s fries production process

Statistically analyzed the fries production process of Wendy’s using six-sigma quality control strategy.

Conducted capability analysis and Gage R&R.