Bin Zhao | condensed matter physics | Best Researcher Award

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Dr. Bin Zhao | condensed matter physics | Best Researcher Award

Associate Professor, Taizhou University China

Bin Zhao (赵斌), male, born in February 1990, is an Associate Professor of Physics with a focus on soft matter physics. He specializes in the self-assembly of block copolymers using thermodynamic (SCFT) and dynamic (DPD) models. As the host of multiple research projects, he has authored influential papers published in leading journals like Chemical Physics Letters and Langmuir. His work delves into hybrid structures and nanoscale morphology evolution, establishing him as a prominent researcher in computational material science

Profile

Orcid

🎓 Education

PhD in Physics: Focused on self-assembly of block copolymers. Theoretical Proficiency: Specialized in SCFT and DPD modeling techniques.  Research Excellence: Deep expertise in polymer thermodynamics and kinetics.

💼 Experience 

Current Role: Associate Professor of Physics, excelling in advanced computational material science. Project Leadership: Led major projects, including National Natural Science Foundation (2023–2025). Scholarly Contributions: Published groundbreaking studies in Langmuir and Macromolecules.

🏆 Awards and Honors 

National Recognition: Secured National Natural Science Foundation grant of 300,000 RMB. Provincial Grant: Led Zhejiang Provincial Natural Science Foundation project (2020–2022).  Innovation Funding: Received support from Key Laboratory of Computational Material Science.

🔬 Research Focus

Soft Matter Physics: Investigates the self-assembly of block copolymers. Methods: Applies SCFT for thermodynamics and DPD for dynamic studies. Objective: Explores nanoscale hybrid structures and phase behavior transitions.

🏆Conclusion 

Bin Zhao demonstrates exceptional qualifications for the Best Researcher Award. His cutting-edge work on the self-assembly of block copolymers, backed by substantial funding and high-quality publications, showcases his leadership and expertise in soft matter physics. With a focus on expanding the practical implications of his research and increasing visibility through awards and outreach, he has the potential to make an even greater impact in his field.

Pulication:

  1. Title: The hybrid lamella-cylinder structure self-assembled from AB-type multiblock copolymer
    Year: 2025
    Authors: Bin Zhao, Tingting Liu, Pengtao Zou, Huaqiu Liang, Qinyi Shi, Xiao Yang, Chao Wang
    DOI: 10.1016/j.cplett.2025.141878

 

  1. Title: Theoretical Study of Phase Behaviors of Symmetric Linear B1A1B2A2B3 Pentablock Copolymer
    Year: 2023
    Author: Bin Zhao

 

  1. Title: Enlarged Stable Phase Region of Hybrid Lamella-sphere Phase Enabled by A1B1A2(B2)m Branched Tetrablock Copolymer
    Year: 2021
    Author: Bin Zhao
    DOI: 10.1007/s10118-021-2554-7

 

  1. Title: Self-assembly of A1B1A2(B2) branched tetrablock copolymer: Length scale and phase transition
    Year: 2021
    Author: Bin Zhao
    DOI: 10.1016/j.cplett.2021.138451

 

  1. Title: Frank–Kasper Phases Self-Assembled from a Linear A1B1A2B2 Tetrablock Copolymer
    Year: 2021
    Author: Bin Zhao
    DOI: 10.1021/acs.langmuir.1c00503

 

  1. Title: Morphology Transitions of Linear A1B1A2B2 Tetrablock Copolymers at Symmetric Overall Volume Fraction
    Year: 2018
    Authors: Seonghyeon Ahn, Jin Kon Kim, Bin Zhao, Chao Duan, Weihua Li
    DOI: 10.1021/acs.macromol.8b00567

 

  1. Title: Emergence and Stability of a Hybrid Lamella–Sphere Structure from Linear ABAB Tetrablock Copolymers
    Year: 2018
    Authors: Bin Zhao, Wenbo Jiang, Lei Chen, Weihua Li, Feng Qiu, An-Chang Shi
    DOI: 10.1021/acsmacrolett.7b00818

 

Badie Ghavami | Condensed Matter Physics | Best Researcher Award

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  Dr . MANISHA RAJORIYA | Green Synthesis| Best Researcher Award

👨‍🏫Profile Summary

Highly accomplished researcher specializing in Condensed Matter Physics, Computational Physics, and Complex Systems. Extensive experience as a Researcher and Post-doctoral Research Fellow at renowned institutions such as the Institute for Research in Fundamental Sciences (IPM) and Sharif University of Technology. Expertise in quantum algorithms, quantum machine learning, superconductivity, quantum transport, and more. Proven track record of publications in esteemed journals and active participation in scientific conferences and workshops. Proficient in programming languages such as Python, Fortran, and C++, with expertise in simulation software including Quantum Espresso, Lammps, and GPAW. Passionate about advancing knowledge in computational physics and quantum technologies.

🌐 Professional Profiles

 

 

🔬 Research Experience:

2019–Present: Researcher Iranian Center for Quantum Technologies (ICQTS), Quantum algorithm, quantum machine learning, superconductivity, quantum transport, spintronics, quantum optics, and photonics. Nanoscience school, Institute for Research in Fundamental Sciences (IPM),Programming and developing DFT/TDDFT, Machine learning, superconductivity, topological insulator, and quantum machine learning. 2016–2019: Post-doctoral Research Fellow, Nano science school, Institute for Research in Fundamental Sciences (IPM), Tehran, Iran. Many-body, Condensed Matter, Quantum transport, Topological insulators. 2015–2016: Post-doctoral Research Fellow Physics Department, Sharif University of Technology, Tehran, Iran. Condensed matter, Many-body systems, Complex Systems, Monte Carlo, Thermodynamics.

📚 Education:

Ph.D. in Condensed Matter Physics and Computational Physics (2010 – 2015) Azarbaijan Shahid Madani University, Tabriz, Iran. M.Sc. in Physics (Condensed matter) (2005 – 2007) Bu-Ali Sina University, Hamedan, Iran. Bachelor in Physics (Condensed matter) (2000 – 2004) University of Kurdistan, Sanandaj, Iran. High-School (1994–1998) Shahid Solaiman Khater High-School, Sanandaj, Kurdistan, Iran.

🎓 Theses:

Ph.D. Thesis: Investigation of electronic structure and quantum transport of Nano-Structure using Density Functional Theory (DFT). M.Sc. Thesis: Study of the steady state of One-Dimensional systems out of equilibrium using the matrix product method.

🌐 Language Skills:

  • English: Good
  • Kurdish: Native
  • Persian: Native

🔍 Research Interests:

Computational physics, Complex systems, Quantum transport, Density functional theory, Many-body systems, Condensed matter, Statistical mechanics, Electrodynamics, Quantum open systems, Quantum optics, Quantum computing, Quantum information, etc.

📖 Teaching Experience:

2018–2019: Solid state physics, nanotechnology physics, Faculty of Materials Science and Engineering, Khajeh Nasir Toosi University of Technology, Tehran, Iran. 2007–2015: Quantum Mechanics, Statistical Mechanics, Solid State Physics, Semiconductor Physics, Electronics Physics, Basic Physics, Physics Laboratory, University of Kurdistan, Kurdistan, Sanandaj, Iran. Basic Physics, Physics Laboratory, Islamic Azad University of Sanandaj, Kurdistan, Sanandaj, Iran. Quantum Mechanics, Statistical Mechanics, Solid State Physics, Semiconductor Physics, Electronics Physics, Basic Physics, Optics, Physics Laboratory, Pyame noor University, Kurdistan, Sanandaj, Iran.

📚Top Noted Publication

2. Optical absorption tensors based on C70 trimers and polymers
Authors: Elnaz Rostampour, Badie Ghavami∗, and Karin Larsson
Year: 2024

 

3. Transitions between non-convex to hyperbolic plasmonic regions in the Beryllene-Graphene-Beryllene trilayer structure
Authors: Badie Ghavami∗, Elnaz Rostampour, and Catherine Stampfl
Year: 2024

 

4. Quantum conductance of MoS2 armchair strained nanoribbons: a theoretical study
Authors: F. Tabatabaei, I. A. Sarsari, B. Ghavami, A. Bafekry, and C. Stampfl
Year: 2022

 

5. Charge transport in germanium doped phosphorene nanoribbon
Authors: M. Azizi, B. Ghavami
Year: 2018

 

6. Band gap tuning of hydrogen and oxygen passivated zigzag graphene monoxide nanoribbon: Ab-initio computations
Authors: M. Yaghoobi, A. Rastekar, J. Jahanbin, B. Ghavami, S. Afshari
Year: 2018

 

7. Varistor characteristics of a nano-device containing graphene and oxidized graphene: Verification by DFT+NEGF
Authors: B. Ghavami, A. Rastekar
Year: 2015

 

8. The quantum transport of pyrene and its silicon-doped variant: a DFT-NEGF approach
Authors: A. Rastkar, B. Ghavami, J. Jahanbin, S. Afshari, M. Yaghoobi
Year: 2015

 

9. Multi-switching behavior of hydrogen passivated silicene as molecular junction: A DFT-NEGF approach
Authors: J. J. Sardroodi, S. Afshari, A.R. Ebrahimzadeh, B. Ghavami, M.Y. Notash
Year: 2014

 

10. Perfect Transfer of Quantum States on Spin Chain with Dzyaloshinskii-Moriya interaction in inhomogeneous Magnetic field
Authors: S. Salimi, B. Ghavami, A. Sorouri
Year: 2010

 

11. The discontinuous phase transition for an exactly solvable one-dimensional creating-annihilation system
Authors: F.H. Jafarpour, B. Ghavami
Year: 2007

 

12. Phase transition in a three-states reaction-diffusion system
Authors: F.H. Jafarpour, B. Ghavami
Year: 2007