A
Ashaduzzaman
Teaching assistant and Research assistant
grad_student
4 h-index
27 pubs
190 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
Ashaduzzaman's research centers on energy conversion and harvesting, with a specific focus on utilizing kinetic energy and thermal gradients. His work includes the development of low-level kinetic-energy-powered temperature sensing systems and transient thermal energy harvesting at a single temperature using nonlinearity. He has investigated spectrum analysis of thermally driven curvature inversion in strained graphene ripples for energy conversion applications via molecular dynamics. Ashaduzzaman has also contributed to research on arrays of graphene solar cells on silicon wafers for power systems, including intermittent recharging of storage capacitors for powering sensors. He has published 27 papers, accumulating 185 citations, and holds an h-index of 4. His research network includes frequent collaborators such as P. M. Thibado, James M. Mangum, Syed M. Rahman, and Mehdi Kabir, all from the University of Arkansas at Fayetteville, with whom he has co-authored five publications each.
Metrics
- h-index: 4
- Publications: 27
- Citations: 190
Selected Publications
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Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor (2025)
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Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics (2025)
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Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity (2025)
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Low-Level Kinetic-Energy-Powered Temperature Sensing System (2025)
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Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems (2024)
Collaboration Network
Top Collaborators
Syed M. Rahman
University of Arkansas at Fayetteville
5 shared publications
In database
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
- Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
Mehdi Kabir
University of Arkansas at Fayetteville
5 shared publications
In database
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
- Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
James M. Mangum
University of Arkansas at Fayetteville
5 shared publications
In database
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
- Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
P. M. Thibado
University of Arkansas at Fayetteville
5 shared publications
In database
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
- Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
Teguh Satria Amin
University of Arkansas at Fayetteville
4 shared publications
In database
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of Graphene Solar Cells on 100 mm Silicon Wafers for Power Systems
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
- Spectrum Analysis of Thermally Driven Curvature Inversion in Strained Graphene Ripples for Energy Conversion Applications via Molecular Dynamics
Hung Do
University of Michigan–Ann Arbor (US)
2 shared publications
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
David Blaauw
University of Michigan–Ann Arbor (US)
2 shared publications
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
Gordy Carichner
University of Michigan–Ann Arbor (US)
1 shared publication
- Low-Level Kinetic-Energy-Powered Temperature Sensing System
Pradeep Kumar
University of Arkansas at Fayetteville
1 shared publication
In database
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
L. L. Bonilla
Universidad Carlos III de Madrid (ES)
1 shared publication
- Transient Thermal Energy Harvesting at a Single Temperature Using Nonlinearity
Gordon Carichner
University of Michigan–Ann Arbor (US)
1 shared publication
- Array of mini-graphene-silicon solar cells intermittently recharges storage capacitors powering a temperature sensor
Similar Researchers
Based on overlapping research topics
James M. Mangum
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices
Millicent Gikunda
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices
Ferdinand Harerimana
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices
P. M. Thibado
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices
Syed M. Rahman
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices
Mehdi Kabir
University of Arkansas at Fayetteville
Advanced Sensor and Energy Harvesting Materials
Graphene research and applications
Semiconductor materials and devices