Dr. Levi Felix, Rice University, United States.
Levi Felix, a Postdoctoral Research Associate at the Department of Materials Science and Nanoengineering, Rice University, specializes in computational mechanics, nanomaterials, and molecular dynamics simulationsΒ 
. With a Ph.D. in Physics from UNICAMP (2022), Levi’s research spans porous materials, carbon nanostructures, and advanced modeling methodsΒ 
. He has earned recognition, including a 2022 award from NIST and the Best Poster Award at MRS Fall Meeting 2021Β 
. Fluent in multiple programming languages and skilled in software like LAMMPS and Quantum ESPRESSO, Levi contributes to cutting-edge advancements in nanotechnology and materials scienceΒ 
.
Publivation Profiles
Education and Experience
Β Education:
- Ph.D. in Physics (2018β2022):Β State University of Campinas (UNICAMP)
- Thesis: Computational Mechanics of Porous and 2D Carbon Nanomaterials
- M.Sc. in Physics (2016β2018):Β Federal University of CearΓ‘ (UFC)
- Dissertation: Wave-packet Propagation in Phosphorene with Grain Boundaries
- B.S. in Physics, Magna Cum Laude (2013β2016):Β Federal University of CearΓ‘ (UFC)
- Monograph: Landau Levels in Graphene Influenced by 1D Potentials
Β Experience:
- Postdoctoral Research Associate (Oct 2022βPresent):Β Rice University, USA
- Graduate Teaching Assistant (2019):Β State University of Campinas (UNICAMP)
- Graduate Teaching Assistant (2017):Β Federal University of CearΓ‘ (UFC)
Suitability summary for best researcher Award
Dr. Levi Felix is highly deserving of the Best Researcher Award due to his groundbreaking contributions to the field of materials science and nanoengineering. Currently serving as a Postdoctoral Research Associate at Rice University, Felix’s work is at the forefront of computational mechanics and the study of two-dimensional carbon nanomaterials. His research has significantly advanced our understanding of the mechanical, optical, and thermoelectric properties of novel materials, particularly within the realm of advanced carbon allotropes and porous nanostructures.
Professional Development
Levi Felix is an accomplished researcher with extensive expertise in molecular dynamics, density functional theory, and tight-binding methods for material simulationsΒ 
. Proficient in Python, C++, and software like LAMMPS and VMD, Levi’s work bridges computational techniques and practical applications in nanotechnologyΒ 
. He has presented at prominent conferences, including MRS Meetings in the U.S. and Brazil, earning accolades for his contributionsΒ 
. With multilingual abilities (Portuguese, English, and Spanish)Β 
, Levi’s collaborative research continues to push the boundaries of materials science, focusing on innovative approaches to structural and electronic properties of advanced materialsΒ 
.
Research Focus
Levi Felixβs research lies at the intersection ofΒ computational materials science, with a focus onΒ porous materialsΒ andΒ two-dimensional carbon nanomaterials. His work employs techniques such asΒ molecular dynamics simulations,Β density functional theory (DFT), andΒ density functional tight-binding (DFTB)Β to explore theΒ mechanical properties,Β vibrational characteristics, andΒ electronic structuresΒ of novel nanomaterials, includingΒ graphene,Β schwarzites, andΒ borophene. His research has applications inΒ nanotechnology,Β materials engineering, andΒ energy storage systems.Β 
Awards and Honors
- Β 2022: Recognition Award from NIST for oral presentation on Symposium DS02 at MRS Spring Meeting, Honolulu-HI, USA.
- Β 2021: Best Poster Award at MRS Fall Meeting, Boston-MA, USA.
- Β 2016: Magna Cum Laude on Bachelor of Physics at Federal University of CearΓ‘, Brazil.
Publication Top Noted
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“On the mechanical properties and thermal stability of a recently synthesized monolayer amorphous carbon,”Β The Journal of Physical Chemistry CΒ 124 (27), 14855-14860, 46 citations, 2020Β 
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“A DFT investigation of the electronic, optical, and thermoelectric properties of pentadiamond,”Β Chemical Physics LettersΒ 763, 138210, 41 citations, 2021Β .
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“Mechanical and energy-absorption properties of schwarzites,”Β CarbonΒ 157, 670-680, 34 citations, 2020Β .
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“Optoelectronic properties of amorphous carbon-based nanotube and nanoscroll,”Β Physica E: Low-dimensional Systems and NanostructuresΒ 130, 114683, 14 citations, 2021Β 
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“Electronic and transport properties of anisotropic semiconductor quantum wires,”Β Physical Review BΒ 102 (4), 045427, 13 citations, 2020Β 
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“Mechanical properties of 3D printed macroscopic models of schwarzites,”Β Nano SelectΒ 3 (2), 450-458, 12 citations, 2022Β 
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“Mechanical response of pentadiamond: A DFT and molecular dynamics study,”Β Physica B: Condensed MatterΒ 629, 413576, 11 citations, 2022Β .
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“Mechanical properties of diamond schwarzites: from atomistic models to 3D-printed structures,”Β MRS AdvancesΒ 5 (33-34), 1775-1781, 11 citations, 2020Β 
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“Mechanical properties of 3D-printed pentadiamond,”Β Journal of Physics D: Applied PhysicsΒ 55 (46), 465301, 10 citations, 2022Β 
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