Niaz Abdolrahim | Materials | Best Researcher Award

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Assist Prof Dr. Niaz Abdolrahim | Materials | Best Researcher Award

PHD at Washington State University, United States

Niaz Abdolrahim is an Associate Professor of Mechanical Engineering and Materials Science at the University of Rochester, specializing in advanced computational mechanics and materials. She earned her Ph.D. in Mechanical Engineering from Washington State University in 2013, focusing on nanoscale metallic multilayer systems. Prior to her current role, she was a postdoctoral associate at MIT, researching interface structures in metallic films. Her professional journey includes positions as a scientist at the Laboratory for Laser Energetics and various engineering roles in Iran. Dr. Abdolrahim has received numerous awards, including the University Research Award and the Young Leaders Professional Development Award from TMS.

Professional Profiles

Based on the extensive academic, research, and professional background of Niaz Abdolrahim, he appears to be a highly suitable candidate for the Best Researcher Award. Here are the key points that support this assessment:

Research Excellence and Impact: Dr. Niaz Abdolrahim has made significant contributions to the field of mechanical engineering and materials science, particularly in the areas of multiscale modeling and simulation, deformation, and strength of nanoscale metallic multilayer systems. Her work has been recognized through numerous prestigious awards, including the University Research Award and the Young Leaders Professional Development Award from TMS.

Funding and Grants: Dr. Abdolrahim has successfully secured substantial research funding totaling approximately $7.8 million, including significant grants from the NSF, DOE, and other prestigious funding bodies. This demonstrates her ability to attract and manage large-scale research projects.

Publications and Recognitions: Her work has been recognized with multiple awards and honors, such as the James Clerk Maxwell Young Writers Prize and the Harriet B. Rigas Award. These accolades underscore the quality and impact of her research contributions.

Mentorship and Teaching: Dr. Abdolrahim has a strong track record of mentoring students and postdoctoral researchers, many of whom have gone on to successful careers in academia and industry. She has also taught several courses at the undergraduate and graduate levels, demonstrating her commitment to education and training the next generation of engineers and scientists.

Professional Experience: With professional appointments ranging from postdoctoral associate at MIT to her current role as an associate professor at the University of Rochester, Dr. Abdolrahim has a rich background in both academia and industry, enhancing her research with practical insights.

Areas for Improvement

Publication Volume: While Dr. Abdolrahim has received numerous awards and secured significant funding, the document does not detail the volume of her publications. Increasing the number of high-impact publications could further solidify her research impact.

Interdisciplinary Collaboration: Expanding collaborations beyond her current focus areas to include more interdisciplinary projects could enhance the breadth and application of her research.

Outreach and Engagement: Engaging more in community outreach, public science communication, and professional society leadership roles could increase her visibility and influence within the broader scientific community.

Academic Background

Ph.D. in Mechanical Engineering from Washington State University, focusing on multiscale modeling and simulation of nanoscale metallic multilayer systems. M.S. in Aerospace Engineering from Tarbiat Modares University, with an experimental study on low-velocity impact on sandwich panels.
B.S. in Mechanical Engineering from Iran University of Science and Technology, involving finite element analysis of low cycle fatigue of wheelchairs.

Professional Appointments

Associate Professor of Mechanical Engineering and Materials Science at the University of Rochester (2023-present). Scientist at the Laboratory for Laser Energetics, University of Rochester, researching high-energy density materials (2021-present). Assistant Professor at the University of Rochester (2015-2023). Postdoctoral Associate at MIT, focusing on computational modeling of interface structures in metallic films.

Research Contributions and Funding

Successfully secured substantial research funding, amounting to approximately $7.8 million, including notable projects funded by NSF, DOE, and NNSA. Research focuses on advanced computational mechanics, high-energy density materials, and nanoscale lattice variations, often incorporating cutting-edge AI and machine learning techniques. Published and presented extensively in high-impact journals and conferences.

Honors and Awards

Received numerous prestigious awards, including the University Research Award (2021), Young Leaders Professional Development Award (2018), James Clerk Maxwell Young Writers Prize (2014), and several other accolades recognizing excellence in research and academic contributions.

Teaching and Mentorship

Taught various undergraduate and graduate courses, consistently receiving positive feedback and guiding students towards advanced degrees and professional positions. Supervised multiple Ph.D., M.S., and B.S. students, many of whom have progressed to reputable positions in academia and industry. Professional Service and Leadership Active in professional organizations, contributing to the academic community through editorial roles, conference organization, and peer review activities.

Conclusion

Dr. Niaz Abdolrahim is a highly suitable candidate for the Best Researcher Award. Her outstanding achievements in research, substantial funding success, and commitment to mentorship and education highlight her as a leading figure in her field. While there are areas for potential growth, such as increasing publication volume and expanding interdisciplinary collaborations, her current accomplishments make her a strong contender for the award.

Publications

  1. Author Correction: Automated classification of big X-ray diffraction data using deep learning models Publication date: 2024.
  2. Automated Classification of Big X-ray Diffraction Data Using Deep Learning Models, Publication date: 2023.
  3. An interpretable deep learning approach for designing nanoporous silicon nitride membranes with tunable mechanical properties, Publication date: 2023.
  4. Mechanisms of helium nanobubble growth and defect interactions in irradiated copper: A molecular dynamics study, Publication date: 2023.
  5. Automated classification of big X-ray diffraction data using deep learning models, Publication date: 2023.
  6. Mining structure-property linkage in nanoporous materials using an interpretative deep learning approach, Publication date: 2022.
  7. Coexistence of vitreous and crystalline phases of H2O at ambient temperaturePublication date: 2022.
  8. Mechanical enhancement of graded nanoporous structurePublication date: 2022.
  9. Mechanical properties and deformation mechanisms of amorphous nanoporous silicon nitride membranes via combined atomistic simulations and experimentsPublication date: 2022.
  10. Phase transformation path in Aluminum under ramp compression; simulation and experimental studyPublication date: 2022.

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Hedi Fitouri | Materials science | Best Paper Award

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Prof. Hedi Fitouri | Materials science | Best Paper Award

PHD at the University of Tunis El Manar, Tunisia

Hédi Fitouri received the Ph.D. degree in physics from the University of Tunis El Manar, Tunisia, in 2009 and the D.Sc. (Habilitation) degree in physics from the University of Monastir in 2016. He has a Professor with the Faculty of Sciences of Monastir and leads the III-As materials for telecommunications and energy Team, a Research Group part of the Research Laboratory for Hetero-Epitaxy and Applications, 5019 Monastir, Tunisia. His research interests include atmospheric pressure metalorganic vapor phase epitaxy of novel optoelectronic III-V compounds, development of low dimensional III-V semiconductor structures, and high-efficiency solar cells.

Professional Profiles

Education

Ph.D. in Physics (2009) University of Tunis El Manar, Tunisia D.Sc. (Habilitation) in Physics (2016) University of Monastir, Tunisia

Professional Experience

Professor Faculty of Sciences of Monastir, Tunisia

Research Interests

Atmospheric pressure metalorganic vapor phase epitaxy of novel optoelectronic III-V compounds Development of low-dimensional III-V semiconductor structures High-efficiency solar cells

Research Focus

Hédi Fitouri’s research focuses on the metalorganic vapor phase epitaxy (MOVPE) of III-V semiconductor alloys. His work includes optimizing the growth conditions for GaAsBi alloys, studying their structural, optical, and magnetic properties, and exploring their applications in optoelectronics and solar cells. Fitouri’s studies encompass photoreflectance, photoluminescence, and X-ray diffraction techniques to investigate localization effects, annealing effects, and growth mechanisms. He is also involved in researching bismuth-catalyzed growth of nanowires and nanostructures, contributing significantly to the fields of semiconductor materials, nanoengineering, and sustainable energy technologies.

Publications

  1. MOVPE growth and characterization of GaAs/GaAsBi/GaAs pin structure, Publication date: 2024.
  2. Thermal annealing effects on the physical properties of GaAsBi/GaAs/GaAs:Si structure, Publication date: 2023.
  3. Thermal processes contributions to the temperature dependence of the energy gap in dilute bismuth III-V alloysPublication date: 2022.
  4. Influence of the Substrate Material on the Structure and Morphological Properties of Bi Films,  Publication date: 2022.
  5. A systematic methodology for the analysis of multicomponent photoreflectance spectra applied to GaAsBi/GaAs structure, Publication date: 2020.
  6. In situ monitoring of InAsBi alloy grown under alternated bismuth flows by metalorganic vapor phase epitaxyPublication date: 2019.
  7. Temperature dependence on the morphological evolution of dilute InAsBi/GaAs nanostructures grown by metalorganic vapor phase epitaxyPublication date: 2017.
  8. MOVPE growth of InAsBi/InAs/GaAs heterostructure analyzed by in situ spectral reflectance, Publication date: 2017.
  9. High‐resolution X‐ray diffraction of III–V semiconductor thin films, Publication date: 2017.
  10. Photothermal deflection investigation of thermally oxidized mesoporous silicon, Publication date: 2016.
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Chuanjie Wang | Materials Processing | Best Researcher Award

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Prof. Chuanjie Wang | Materials Processing | Best Researcher Award

Professor at the Harbin Institute of Technology, China

Chuanjie Wang is a professor at the Harbin Institute of Technology at Weihai, where he has been affiliated since 2013. With a Web of Science ResearcherID of AAI-5057-2021 and an ORCiD of 0000-0002-5171-7322, his research focuses on materials processing. He has published 71 papers, garnering an H-index of 15 and 730 citations. Notable publications include studies on titanium thin sheets and nickel-based superalloys. His work is frequently featured in journals such as Materials Science and Engineering: A and Integrated Ferroelectrics. His contributions significantly impact the field of materials science and engineering. Materials Processing

Professional Profiles

Education

Harbin Institute of Technology at Weihai (since 2013)

Professional Role

Professor Department of Materials Processing, Harbin Institute of Technology. Materials Processing

Research Focus

Chuanjie Wang is a professor at the Harbin Institute of Technology at Weihai, specializing in materials processing. His research encompasses micro/nanoforming, deformation behavior, and the mechanical properties of metals, particularly nickel-based superalloys. He has published extensively, with significant works in journals such as Materials & Design and Materials Science and Engineering: A. Wang’s contributions include developing constitutive models, studying frictional behavior in metal forming, and investigating size effects in plastic deformation. His research has garnered an H-index of 15 and 730 citations, reflecting his impact on the field of materials science and engineering. Materials Processing

Publications

  1. Thermal stability of WO3 doped tellurite glass and spectral properties of Er3+/Yb3+ doped tellurium⁃ tungstate glass, Publication date: 2024.
  2. Evolution of fatigue mechanical properties and micro defects in nickel-based single crystal superalloys: A molecular dynamics research, Publication date: 2023.
  3. Experiment and modeling based studies of the mesoscaled deformation and forming limit of Cu/Ni clad foils using a newly developed damage model, Publication date: 2022.
  4. Effect of polycaprolactone impregnation on the properties of calcium silicate scaffolds fabricated by 3D printing, Publication date: 2022.
  5. Microstructures and properties of polycaprolactone/tricalcium phosphate scaffolds containing polyethylene glycol fabricated by 3D printing, Publication date: 2022.
  6. Investigation on forming methods in rubber pad forming process used for fabricating Cu/Ni clad foil microchannel, Publication date: 2022.
  7. Influence of heat treatment on the texture, microstructure and tensile deformation behaviours of cold rolled FeCoNiCr sheets, Publication date: 2022.
  8. Construction and Exploration of Innovative Researching Course” Theory and Technology of Microforming”, Publication date: 2022.
  9. Multi-Dimensional Revealing the Influence Mechanism of the δ Phase on the Tensile Fracture Behavior of a Nickel-Based Superalloy on the Mesoscopic ScalePublication date: 2022.
  10. Anisotropy in mechanical properties during microscale uniaxial tensile deformation of Cu/Ni clad foils, Publication date: 2019.
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