Abeer Aly | Computational Methods | Best Researcher Award

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Dr. Abeer Aly | Computational Methods | Best Researcher Award

Dr. abeer aly, higher canal institute of engineering and technology, Egypt

Dr. abeer aly is a seasoned academic and researcher with a Ph.D. in Theoretical Physics from Mansoura University, Egypt. With extensive teaching and administrative experience, she has held pivotal roles in various higher education institutions. Her research interests lie in the computational analysis of electronic and magnetic material properties, and she has significantly contributed to solid-state physics and theoretical modeling. Currently, she is affiliated with the Higher Technological Institute, New Heliopolis, where she continues her academic and research endeavors.

PROFILE

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Educational Detail

Dr. abeer aly earned her Ph.D. in Physics (Theoretical Physics) from Mansoura University at Damietta in 2010, with a thesis focusing on Ab initio calculation of electronic and magnetic properties of RCo5 compounds. She completed her M.Sc. in Solid-State Physics in 2005 from Helwan University, where her research explored the electronic structure of materials using energy band calculation methods. Her academic journey began with a B.Sc. in Computer Science and Physics in 2000 from Helwan University, where she achieved an excellent grade in her graduation project on magnetic properties and database systems.

Professional Experience

Dr. abeer aly has over two decades of experience in academia, spanning teaching, research, and administrative roles. Currently, she serves at the Higher Technological Institute, New Heliopolis, Cairo. She previously held positions at the Higher Institute of Engineering, Automotive and Energy Technology, and the Higher Institute of Engineering and Technology. Notably, she served as Head of the Basic Science Department at El-Salam Institute (2018–2022) and contributed as a lecturer at several institutions, including October 6 University, El-Shorouk Academy, and Arab Open University.

Dr. aly has also excelled in administrative roles, such as Editorial Manager of a scientific journal and Head of Faculty Affairs for Scientific Research at Modern Academy. She has experience in curriculum coordination and department leadership, particularly in physics, mathematics, and computer science.

Research Interest

Dr. abeer aly’s research focuses on the theoretical analysis of electronic and magnetic properties of materials, particularly using ab initio and energy band calculation methods. Her work delves into the study of solid-state physics, magnetism, and the computational modeling of material properties, contributing to advancements in material science and theoretical physics.

Top Notable Publications

Structural, Electronic, and Mechanical Insights into Rb₂B’AgBr₆ (B’ = Ga, Al, In) Double Perovskites: Pathways to Lead-Free Optoelectronics

Authors: Gil Rebaza, A.V., Shankar, A., Aly, A.E.

Journal: Chemical Physics, Year: 2025, Volume: 591, Article: 112565

Citations: 0

Study of the Mechanical Properties of OsS₂ and Its Enhanced Optoelectronic Performance under Fe/Ru Doping

Authors: Thapa, B., Shankar, A., Aly, A.E., Patra, P.K.

Journal: Computational and Theoretical Chemistry, Year: 2024, Volume: 1233, Article: 114496

Citations: 0

Modulation of the Optoelectronic Properties of CdSe₂

Authors: Thapa, B., Patra, P.K., Aly, A.E., Das, M., Shankar, A.

Journal: Computational Condensed Matter, Year: 2022, Volume: 33, Article: e00745

Citations: 0

Experimental and Theoretical Investigation of Electronic and Optical Properties of CuAlₓGa₁₋ₓTe₂

Authors: Kassaa, A., Benslim, N., Otmani, A., Shankar, A., Aly, A.E.

Journal: Chemical Physics Letters, Year: 2022, Volume: 807, Article: 140086

Citations: 0

Magnetic and Optical Properties of Perovskite-Graphene Nanocomposites LaFeO₃-rGO: Experimental and DFT Calculations

Authors: Abdel-Aal, S.K., Aly, A.E., Chanduví, H.H.M., Atteia, E., Shankar, A.

Journal: Chemical Physics, Year: 2020, Volume: 538, Article: 110874

Citations: 21

Half-Metallicity in New Heusler Alloys Mn₂ScZ (Z = Si, Ge, Sn)

Authors: Ram, M., Saxena, A., Aly, A.E., Shankar, A.

Journal: RSC Advances, Year: 2020, Volume: 10(13), Pages: 7661–7670

Citations: 61

Study of Half-Metallicity, Structural and Mechanical Properties in Inverse Heusler Alloy Mn₂ZnSi₁₋ₓGeₓ and a Superlattice

Authors: Ram, M., Saxena, A., Aly, A.E., Shankar, A.

Journal: RSC Advances, Year: 2019, Volume: 9(63), Pages: 36680–36689

Citations: 9

Electronic and Piezoelectric Properties of Half-Heusler Compounds: A First Principles Study

Authors: Rai, D.P., Sandeep, Shankar, A., Patra, P.K., Thapa, R.K.

Journal: Journal of Physics: Conference Series, Year: 2016, Volume: 765(1), Article: 012005

Citations: 14

Electronic Band Structure and Spin-Density Maps of SmCo₅

Authors: Yehia, S., Aly, S.H., Aly, A.E.

Journal: Computational Materials Science, Year: 2008, Volume: 41(4), Pages: 482–485

Citations: 13

Conclusion

Dr. Abeer Aly’s strong academic background, extensive research contributions, and leadership experience position her as a highly suitable candidate for the Research for Best Researcher Award. Her expertise in computational and theoretical physics, combined with her dedication to academic and administrative excellence, align perfectly with the award’s criteria.

 

 

 

 

 

 

 

 

 

 

 

 

Chi Liu | Computational Methods | Best Researcher Award

Posted on by Physicist Particle

Dr. Chi Liu | Computational Methods | Best Researcher Award

Scopus Profile

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Professional Experience:

Dr. Chi Liu is an assistant researcher and project manager at the Chinese Institute of Coal Science. He earned his Bachelor of Engineering (BE) and PhD degrees from Jilin University and Tsinghua University, respectively. Dr. Liu’s research focuses on computational rock mechanics and the catastrophic mechanisms of geomaterials, particularly soft rock interactions with water. He has published over 10 peer-reviewed journal papers, including those in SCI/EI journals. As the principal investigator of more than 10 national and provincial research projects, Dr. Liu has made significant contributions to the field. He is also a member of the Red-bed Engineering Branch of the Chinese Society of Rock Mechanics and Engineering.

Research and Innovations:

Dr. Chi Liu has successfully completed six research projects and is currently engaged in ten ongoing research initiatives. His scholarly impact is reflected in his citation index, with an h-index of 4 on Scopus. In addition to his research, Dr. Liu has contributed to six consultancy and industry-sponsored projects, demonstrating his expertise in practical applications of his work. He has also made significant strides in intellectual property, with eight patents published or under process. Dr. Liu has authored 11 articles in peer-reviewed journals, showcasing his contributions to the field. Despite his extensive involvement in research and industry, he has not held any editorial appointments.

Collaborations: 

Dr. Chi Liu has developed the rock fracture analysis software, FDEMYMs, which boasts independent intellectual property rights. This software represents a significant advancement in the field of computational rock mechanics, offering sophisticated tools for analyzing rock fractures. Its development underscores Dr. Liu’s commitment to enhancing the precision and effectiveness of rock mechanics research through innovative technological solutions.

Professional Memberships:

Dr. Chi Liu is an active member of several prestigious professional organizations. He serves on the Red-bed Engineering Branch of the Chinese Society of Rock Mechanics and Engineering, where he contributes to advancements in rock mechanics and engineering practices. Additionally, he is a member of the China Coal Society, reflecting his engagement with the coal industry and related research. His affiliation with the Geological Society of China further highlights his dedication to the broader geological community and its ongoing development. These memberships underscore Dr. Liu’s commitment to advancing his field through collaborative and professional networks.

Areas of Research:

Dr. Chi Liu’s research is primarily focused on computational mechanics and rock mechanics. His work in computational mechanics involves using advanced simulations and modeling techniques to understand and predict the behavior of materials under various conditions. In rock mechanics, Dr. Liu investigates the physical and mechanical properties of rocks, particularly under complex environmental interactions such as water-rock interactions. His expertise in these areas contributes significantly to the development of practical solutions for geological and engineering challenges, enhancing the safety and efficiency of construction and resource extraction projects.

Contributions:

Dr. Chi Liu firstly proposed a new water-rock interfacial
evolution model named Interfacial Cemented Bonding (ICB) model, and established an
analytical solution describing the time-dependent damage effect of the meso-structure of
soft rock. He also established the cohesive crack constitutive model and interface softening
theory. He developed a novel numerical characterization and simulation methods of all
elements of rock materials based on the self-developed rock fracture calculation software
FDEMYMs with independent intellectual property rights. He also proposed the bearing
skeleton to describe the bearing nature of rock mass, and the life cycle control principle of
rock mass structure.

Top Notable Publications

“Water-rock interfacial softening model of cemented soft rock: An experimental and numerical study”

Authors: Liu, C., Liu, X., Wang, E., Wang, S., Peng, H.

Journal: Results in Engineering

Year: 2024

Volume: 23

Article Number: 102710

Citations: 0

“Optimizing 3D granular modeling with integrated 3DEC and neper techniques for granite mechanics simulation”

Authors: Ma, Q., Liu, X., Wang, E., Liu, C., Jia, W.

Journal: Computers and Geotechnics

Year: 2024

Volume: 173

Article Number: 106578

Citations: 1

Access: Open access

“Discrete Element Study on the Mechanical Response of Soft Rock Considering Water-Induced Softening Effect”

Authors: Liu, C., Liu, X., Peng, H., Wang, E., Wang, S.

Journal: Applied Sciences (Switzerland)

Year: 2024

Volume: 14(9)

Article Number: 3918

Citations: 1

“Dependence of connectivity dominance on fracture permeability and influence of topological centrality on the flow capacity of fractured porous media”

Authors: Wang, C., Liu, X., Wang, E., Wang, M., Liu, C.

Journal: Journal of Hydrology

Year: 2023

Volume: 624

Article Number: 129883

Citations: 3

“Investigation of Multiscale Failure Mechanism of Red Bed Soft Rock using Grain-Based Finite-Discrete Element Method Combined with X-Ray Micro-computerized Tomography”

Authors: Liu, C., Liu, X., Wu, C., Wang, S., Peng, H.

Journal: KSCE Journal of Civil Engineering

Year: 2023

Volume: 27(3)

Pages: 1350–1367

Citations: 6

“Dynamic model for water-rock interface of softening of soft rock and its evolution law”

Authors: Liu, C., Liu, X.-L., Zhang, D., Wang, E.-Z., Wang, S.-J.

Journal: Yantu Gongcheng Xuebao/Chinese Journal of Geotechnical Engineering

Year: 2022

Volume: 44(12)

Pages: 2280–2289

Citations: 9