Sahaya Dennish Babu | material | Best Researcher Award

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Sahaya Dennish Babu | material | Best Researcher Award

Dr. Sahaya Dennish Babu , Chettinad College of Engineering & Technology, India.

Dr. G. Sahaya Dennish Babu is a passionate educator and researcher specializing in functional nanomaterials for optoelectronic devices. Currently serving as an Assistant Professor in the Department of Physics at Chettinad College of Engineering & Technology, Karur, he is dedicated to teaching core and applied physics while actively contributing to nanomaterial synthesis for optics, bio-sensing, and COβ‚‚ conversion. With expertise in interdisciplinary research and material characterization, he collaborates on national and international projects to advance sustainable technologies. Beyond academia, he leads initiatives in industrialization, intellectual property, and student mentorship, fostering innovation and scientific progress. πŸš€πŸ“‘πŸ’‘

Publication Profile

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Education & Experience πŸŽ“πŸ”¬

βœ… Education

  • Ph.D. in Functional Nanomaterials for Optoelectronic Devices πŸ†

  • M.Phil. in Physics 🎯

  • M.Sc. in Physics πŸ“–

βœ… Experience

  • Assistant Professor, Department of Physics (2017 – Present) 🏫

    • Teaching Engineering Physics for multi-engineering branches.

    • Coordinator of IPR, Industrialization Centre for Applied Nanoscience (ICAN), and Enrichment Committee.

    • Students’ Grievance Redressal Cell Member, Class In-charge, and Physics Lab In-charge.

Summary Suitability

Dr. G. Sahaya Dennish Babu, M.Sc., M.Phil., Ph.D., is a distinguished researcher and educator specializing in Functional Nanomaterials for Optoelectronic Devices. His pioneering contributions in nanomaterials for energy applications, sustainable technologies, and advanced material synthesis make him a highly deserving candidate for the Best Researcher Award.

Professional Development Β πŸ“šπŸ”¬βœ¨

Dr. G. Sahaya Dennish Babu is deeply engaged in professional development, continuously enhancing his expertise in nanotechnology, sustainable materials, and physics education. He actively participates in national and international research collaborations, contributing to material synthesis and device fabrication for energy and bio-sensing applications. As an IPR Coordinator, he promotes intellectual property awareness, while his leadership in ICAN fosters industrial partnerships. His dedication to mentoring students, organizing workshops, and engaging in interdisciplinary research underscores his commitment to academic excellence and scientific innovation. Passionate about sustainability and technological advancements, he integrates problem-solving skills with hands-on experimentation. πŸŒβš›οΈπŸ’‘

Research Focus Β πŸ”¬πŸŒ±πŸŒ

Dr. G. Sahaya Dennish Babu’s research focuses on the design and synthesis of functional nanomaterials for applications in optoelectronics, energy conversion, and sustainable technologies. His expertise includes chalcogenides, perovskites, and nanostructures tailored for optics, bio-sensing, and COβ‚‚ capture. He explores advanced nanomaterials for energy storage and conversion, aiming to develop eco-friendly solutions for global challenges. With a strong interdisciplinary approach, he collaborates on nanomaterial-driven innovations for healthcare, environmental monitoring, and green technologies. His work integrates material characterization, device fabrication, and applied physics, striving to create impactful solutions for a sustainable future. ⚑🌎πŸ§ͺ

Awards & Honors πŸ†πŸŽ–οΈπŸŒŸ

πŸ… Best Researcher Award for contributions to nanomaterial synthesis and applications.
πŸ… Outstanding Educator Award for excellence in teaching physics.
πŸ… Innovation in Sustainable Technology Award for research in COβ‚‚ conversion.
πŸ… IPR Excellence Award for fostering intellectual property awareness.
πŸ… Best Coordinator Award for leadership in student development initiatives.

Publication Top Notes

1️⃣ Morphology-optimized ZnSnO₃ nanopentagons as efficient electron transport layers for high-efficient perovskite solar cells – Journal of Solid State Chemistry (2025) πŸ”¬β˜€οΈπŸ“„ | DOI: 10.1016/j.jssc.2025.125322

2️⃣ Microwave-assisted synthesis of Cuβ‚‚ZnSnSβ‚„ and Cuβ‚‚Znβ‚€.β‚…Niβ‚€.β‚…SnSβ‚„ nanoparticles for thin-film solar cells – Journal of Materials Science: Materials in Electronics (2024) πŸ”¬βš‘πŸ“„ | DOI: 10.1007/s10854-024-13956-9

3️⃣ Enhancement of MXene optical properties towards medical applications via metal oxide incorporation – Nanoscale (2023) πŸ₯πŸŒ±πŸ“„ | DOI: 10.1039/D3NR02527F

4️⃣ Highly flexible, green luminescent down-converting and hydrophobic 0-D cesium lead bromide (Csβ‚„PbBr₆)/poly (vinylidene difluoride) polymer nanocomposites for photonics and display applications – Inorganic Chemistry Communications (2023) πŸ’‘πŸŽ¨πŸ“„

5️⃣ Magnetic Nanomaterials for Solar Energy Conversion Applications – Nanostructured Magnetic Materials: Functionalization and Diverse Applications (2023) πŸ§²β˜€οΈπŸ“–

Chunxiu zhang | Materials Engineering | Best Researcher Award

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Chunxiu zhang | Materials Engineering | Best Researcher Award

Prof. Dr. chunxiu zhang , Best Researcher Award , China.

πŸ“˜Prof. Dr.Chunxiu Zhang is a professor and Chair of the Department of Polymer and Materials Engineering at the Beijing Institute of Graphic Communication. She earned her Ph.D. in Optical Engineering from Beijing Jiaotong University. Her research focuses on discotic liquid crystals, quasicrystal molecular design, molecular self-assembly, and optoelectronic applications. She also specializes in molecular simulation and computation. With extensive experience in advanced material synthesis and characterization, she has contributed significantly to the field of optoelectronic materials. Her work integrates theoretical and experimental approaches, driving innovation in next-generation materials for optical and electronic applications. πŸ”¬βœ¨.

Publication Profile

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Education & Experience

πŸŽ“Β Ph.D. in Optical Engineering – Beijing Jiaotong University
πŸ‘©β€πŸ«Β Professor & Chair – Department of Polymer and Materials Engineering, Beijing Institute of Graphic Communication

Suitability Summary

Prof Dr.Chunxiu Zhang, a distinguished recipient of the Best Researcher Award, has made remarkable contributions to the field ofΒ Optical Engineering and Materials Science. With a Ph.D. in Optical Engineering from Beijing Jiaotong University, she currently serves as theΒ Chair of the Department of Polymer and Materials EngineeringΒ at Beijing Institute of Graphic Communication. Her pioneering work spans multiple cutting-edge domains, includingΒ discotic liquid crystal and quasicrystal molecular design and synthesis, molecular self-assembly, and optoelectronic applications.

Professional Development

πŸ” Prof.Dr.Chunxiu Zhang has continuously advanced her expertise in polymer and materials engineering, contributing extensively to the field of molecular self-assembly and optoelectronics. She has led various research projects, focusing on discotic liquid crystals and quasicrystal molecular design, driving advancements in display and sensor technologies. Her dedication to interdisciplinary studies, combining chemistry, physics, and engineering, has resulted in novel material innovations. Through molecular simulations and computational modeling, she optimizes materials for high-performance applications. As a mentor, she guides aspiring researchers, fostering academic growth and innovation in advanced materials. πŸ“‘πŸ”¬πŸ’‘

Research Focus

πŸ”¬ Prof.Dr.Chunxiu Zhang research spans the cutting edge ofΒ optical and electronic materials, specializing inΒ discotic liquid crystals,Β quasicrystal molecular design, andΒ molecular self-assembly. Her studies aim to revolutionizeΒ display technologies, organic photovoltaics, and molecular electronics. By leveraging molecular simulations and computation, she refines the synthesis and properties of advanced materials, enhancing their optoelectronic applications. Her interdisciplinary approach bridgesΒ polymer science, nanotechnology, and materials engineering, paving the way for next-generation smart materials. Her contributions significantly impact the fields ofΒ photonic devices, flexible electronics, and self-assembling molecular architectures.Β βš›οΈπŸ“‘πŸ”

Awards & Honors

πŸ†Β Outstanding Researcher Award – Recognized for excellence in polymer and materials engineering
πŸ…Β Best Paper Award – Multiple accolades in international materials science conferences
πŸŽ–οΈΒ Innovation in Optoelectronics Award – Acknowledged for pioneering contributions to self-assembling molecular systems
πŸ“œΒ Research Grant Recipient – Secured major funding for advancing optoelectronic applications
πŸ’‘Β Keynote Speaker – Invited to prestigious global conferences in materials science and engineering

Publication Top Notes

  • πŸ“„Β “Macromolecular Rapid Communications”Β (2024-12-20) – Zhang, C. et al.
    πŸ”—Β DOI:Β 10.1002/marc.202400839
    πŸ“ŠΒ Cited by: N/AΒ πŸ”¬πŸ“ˆ
  • πŸ“„Β “Circularly polarized luminescent liquid crystal materials with aggregation-induced emission functionality”Β (2023) – Zhang, C. et al.
    πŸ”—Β DOI:Β 10.37188/CJLCD.2023-0224
    πŸ“ŠΒ Cited by: N/AΒ πŸ’‘πŸŒˆ
  • πŸ“„Β “Statistical inference in EV linear model”Β (2023) – Zhang, C. et al.
    πŸ”—Β DOI:Β 10.1080/03610926.2021.1914096
    πŸ“ŠΒ Cited by: N/AΒ πŸ“ŠπŸ“‰
  • πŸ“„Β “Progress on Frank-Kasper phases in soft matter”Β (2022) – Zhang, C. et al.
    πŸ”—Β DOI:Β 10.37188/CJLCD.2022-0281
    πŸ“ŠΒ Cited by: N/AΒ πŸ—οΈπŸ”¬
  • πŸ“„Β “The steric hindrance effect of bulky groups on the formation of columnar superlattices and optoelectronic properties of triphenylene-based discotic liquid crystals”Β (2022) – Zhang, C. et al.
    πŸ”—Β DOI:Β 10.1039/D2NJ01542K
    πŸ“ŠΒ Cited by: N/AΒ βš‘πŸ“‘.

 

Mohammed Baqur S Al-Shuhaib | Composite Material | Best Researcher Award

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Mohammed Baqur S Al-Shuhaib| Composite Material | Best Researcher Award

Prof. Mohammed Baqur S Al-Shuhaib , Al-Qasim Green University , Iraq.

πŸŽ“Β Prof. Mohammed Baqur S. Al-Shuhaib is a distinguished Professor of Molecular Genetics and Bioinformatics at Al-Qasim Green University, Iraq. 🌍 He is known for his expertise in molecular genetics, bioinformatics, and composite material research. 🧬 His work emphasizes the genetic and molecular modeling of composite materials, exploring their interactions and applications in biomedical and agricultural sciences.Β πŸ“šΒ With an impressive record of SCOPUS-indexed publications, Prof. Al-Shuhaib is a prominent academic figure contributing significantly to the advancement of materials science and genetics.Β πŸ“ˆ

Publication Profile

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Education and Experience

  • πŸŽ“ B.Sc. in Biology, University of Babylon
  • πŸŽ“ M.Sc. in Biotechnology (Molecular Genetics), Baghdad University
  • πŸŽ“ Ph.D. in Molecular Genetics, University of Babylon
  • πŸ§ͺ Membership (2011): Nucleic Acids Research Center, Babylon University
  • 🏫 Assistant Dean (2012): College of Biotechnology, Al-Qasim Green University
  • 🧬 Chairman (2013-2014): Department of Genetic Engineering, College of Biotechnology
  • πŸ„ Academic Member (2014-present): Department of Animal Production, College of Agriculture

Suitability Summary

Prof.Mohammed Baqur S Al-Shuhaib has been a member of several prestigious academic and research bodies, including the Nucleic Acids Research Center at Babylon University and the Department of Animal Production at Al-Qasim Green University. He has published numerous papers indexed in Scopus, contributing valuable knowledge to the scientific community. His academic leadership and research accomplishments position him as a leading candidate for the Best Researcher Award. His work has not only advanced the field of molecular genetics but has also had practical applications in both human health and agriculture, highlighting his broad impact and recognition in the scientific community. Prof. Al-Shuhaib’s work exemplifies the highest standards of research excellence and innovation.

Professional Development

Feiyue Wu | Materials | Best Researcher Award

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Feiyue Wu | Materials | Best Researcher Award

Dr. Feiyue Wu , Dalian University of Technology , China

πŸŽ“ Dr. Feiyue Wu is an Associate Professor at the School of Control Science and Engineering, Dalian University of Technology. He earned his Ph.D. in Control Theory and Control Engineering in 2021. His research specializes in the constrained control of switched systems and their applications in composite materials and structures. Dr. Wu has led five research projects, published 18 SCI/Scopus-indexed articles, and secured three national invention patents. His innovative methods contribute to optimizing the mechanical properties of composite materials. As an IEEE Member, Dr. Wu actively advances control science to enhance composite systems’ reliability and performance. πŸŒŸπŸ”¬

Publication Profile

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Education and ExperienceΒ 

  • πŸŽ“ Ph.D. in Control Theory and Control Engineering (2021) – Dalian University of Technology, China.
  • πŸ§‘β€πŸ« Associate Professor – School of Control Science and Engineering, Dalian University of Technology.
  • πŸ› οΈ Research Leader – Five projects, including a National Natural Science Foundation of China Youth Project.
  • 🀝 Industry Collaboration – Four projects focused on composite material performance optimization.

Suitability Summary

Dr. Feiyue Wu, an Associate Professor at the School of Control Science and Engineering, Dalian University of Technology, is a distinguished nominee for the Best Researcher Award. With a strong academic foundation and a Ph.D. in Control Theory and Control Engineering (2021) from the same institution, Dr. Wu has made remarkable contributions to the fields of constrained control of switched systems and control allocation.

Professional DevelopmentΒ 

πŸ“ˆ Dr. Feiyue Wu’s innovative research bridges control science and composite materials. His work addresses critical challenges in optimizing material performance by introducing constrained control methods for switched systems. These advancements enhance the stability, durability, and efficiency of composites under dynamic conditions. πŸ› οΈ He has published 18 indexed journal articles, led five research projects, and secured three national invention patents related to control applications in composite materials. Dr. Wu’s active engagement as an IEEE Member and his collaborations with industry underline his commitment to driving technological progress in materials science and engineering. πŸš€πŸ”

Research FocusΒ 

πŸ”¬ Dr. Feiyue Wu’s research emphasizes control science applications in composite materials. By integrating constrained control methods with composite systems, he tackles challenges like dynamic load management, structural optimization, and material stability. His innovative use of semi-ellipsoidal invariant sets enables precise control, enhancing the mechanical properties of composites under various conditions. βš™οΈ His work contributes to advancing sustainability and reliability in sectors utilizing composites, such as aerospace, automotive, and construction. With a focus on bridging theory and application, Dr. Wu is revolutionizing control methodologies to elevate composite material performance. πŸ€–πŸŒΏπŸ“˜

Awards and HonorsΒ 

  • πŸ† Three National Invention Patents – Recognized for innovations in control science and composite materials.
  • πŸ“œ 18 SCI/Scopus-Indexed Publications – High-impact contributions to control systems in material science.
  • ⭐ National Natural Science Foundation of China Youth Project – Prestigious research funding leader.
  • 🀝 Active IEEE Member – Advancing control science in composite systems.

 

Publications Top Notes

  • A Cross-Layer Game-Theoretic Approach to Resilient Control of Networked Switched Systems Against DoS Attacks
  • Self-Triggered Model Predictive Control for Switched Systems with Dwell Time Constraints
  • Prescribed Performance Bumpless Transfer Control for Switched Large-Scale Nonlinear Systems
  • Graph-Based Restricted and Arbitrary Switching for Switched Positive Systems via a Weak CLCLF
  • A Stackelberg Game Approach to the Stability of Networked Switched Systems Under DoS Attacks
  • Truncated Predictor Feedback Control for Switched Linear Systems Subject to Input Delay and Saturation
  • Multi-Rate Sampled-Data Control of Switched Affine Systems

 

 

Shilpi Jaiswal | Material science | Best Researcher Award

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Dr. Shilpi Jaiswal | Material science | Best Researcher Award

Research scholar at IISER Bhopal, India

Dr. Shilpi Jaiswal is a highly accomplished researcher with a focus on nanotechnology and photocatalysis, currently pursuing postdoctoral research at IISER Bhopal and collaborating with renowned institutions like ENS Paris Saclay. She holds a Ph.D. from IISER Bhopal, where her work on engineering lanthanide-based nanocomposites contributed to advancements in visible to NIR emission and photocatalysis. Her expertise includes fabricating advanced nanomaterials, with proficiency in techniques such as NMR, PXRD, XPS, FTIR, and electrochemical measurements. Dr. Jaiswal has published extensively in prestigious journals, including Angewandte Chemie, J. Mater. Chem. C, and ACS Applied Nano Materials, with several research articles highlighted in major media outlets like The Hindu and ANI News. She has received multiple accolades, including best poster presentation awards, and has delivered talks at international conferences. Additionally, her teaching experience includes roles as a teaching assistant in various chemistry courses at IISER Bhopal.

Professional ProfileΒ 

Education

Dr. Shilpi Jaiswal has an impressive academic background, beginning with her Bachelor of Science (B.Sc.) from Deen Dayal Upadhyaya Gorakhpur University, India, where she graduated with first-class honors. She pursued her Master of Science (M.S.) at the Indian Institute of Science Education and Research (IISER) Bhopal, securing an outstanding course work performance with a CPI of 9.03/10.0. She further advanced her education by earning a Ph.D. in Chemistry from IISER Bhopal, where she specialized in the engineering of lanthanide-based nanocomposites for applications in visible to near-infrared emission and photocatalysis. During her Ph.D., she worked at the FML Laboratory, gaining extensive experience in nanotechnology and material science. In addition to her academic qualifications, Dr. Jaiswal has also participated in various research programs and collaborative projects, strengthening her expertise in advanced materials and nanomaterials, solidifying her reputation as a promising researcher in the field of chemistry and materials science.

Professional Experience

Dr. Shilpi Jaiswal has a diverse and rich professional experience, beginning with her postdoctoral research at the FML Laboratory, Department of Chemistry, IISER Bhopal, where she worked on long-lived mechanoluminescent molecules and their applications in information encryption and photocatalysis. Additionally, she collaborated with Dr. RΓ©mi MΓ©tivier at PPSM, ENS Paris-Saclay, further enhancing her research expertise. Her doctoral research at IISER Bhopal involved engineering lanthanide-based nanocomposites, focusing on visible to near-infrared emission and photocatalysis, which contributed to several high-impact publications. Dr. Jaiswal also contributed to the development of upconversion hybrid nanoparticles for biogenic amine detection during her Master’s project. Furthermore, she has honed her skills in a variety of laboratory techniques such as NMR, XPS, HRTEM, FTIR, and electrochemical measurements. With her postdoctoral fellowships and extensive research background, Dr. Jaiswal has established herself as a skilled researcher and expert in material chemistry and nanotechnology.

Research Interest

Dr. Shilpi Jaiswal’s research interests lie at the intersection of nanotechnology, material chemistry, and photochemistry. Her primary focus is on the design and development of advanced nanomaterials, particularly lanthanide-based nanocomposites, with applications in visible to near-infrared emission and photocatalysis. She investigates the use of these nanocomposites for energy-efficient processes, including photocatalytic reactions and information encryption. Another key area of her work is upconversion luminescence, where she explores hybrid nanomaterials for enhanced performance in applications such as biogenic amine detection and photocatalysis. Dr. Jaiswal has also worked on the synthesis and functionalization of inorganic-organic hybrid materials, including porous organic polymers and metal nanoparticles, for applications in sensing, imaging, and catalysis. Her research aims to create multifunctional probes for intracellular sensing and imaging, advancing both the fundamental understanding of nanomaterials and their real-world applications in environmental and biomedical fields.

Award and Honor

Dr. Shilpi Jaiswal has received several prestigious awards and honors throughout her academic and research career, reflecting her exceptional contributions to the field of chemistry and materials science. She has qualified the Joint Admission Test for M.Sc. (JAM 2016), securing admission to top institutions. Additionally, Dr. Jaiswal has excelled in the National Eligibility Test for CSIR-LS and CSIR-JRF, with All India Ranks 38 and 85, respectively. Her academic excellence led to her selection for a dual M.Sc.-Ph.D. program at IIT Bombay in Energy Science and Engineering. Dr. Jaiswal has also earned recognition for her research, winning Best Poster Presentation prizes at renowned conferences, including the 9th Interdisciplinary Symposium on Materials Chemistry (ISMC 2022) and the RACMS-2021 seminar. Furthermore, her work has been highlighted in major media outlets, including The Hindustan Times and Times of India, showcasing her impactful contributions to the scientific community.

Conclusion

Shilpi Jaiswal is highly deserving of the Best Researcher Award due to her exceptional academic achievements, innovative contributions to materials science, and impactful publications. Her ability to collaborate internationally and her recognition through awards and publications highlight her as a leading researcher in her field. With continued development in leadership and broader scientific outreach, she has the potential to make even more significant contributions to the scientific community.

Publications Top Noted

  • Progress and perspectives: fluorescent to long-lived emissive multifunctional probes for intracellular sensing and imaging
    • Authors: S. Jaiswal, S. Das, S. Kundu, I. Rawal, P. Anand, A. Patra
    • Journal: Journal of Materials Chemistry C
    • Year: 2022
    • Citations: 31
  • Boosting Photocatalytic Nitrogen Fixation via Nanoarchitectonics Using Oxygen Vacancy Regulation in W-Doped Bi2MoO6 Nanosheets
    • Authors: M. Sharma, A. Kumar, D. Gill, S. Jaiswal, A. Patra, S. Bhattacharya, …
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2023
    • Citations: 27
  • Tailoring defects in SrTiO3 by one step nanoarchitectonics for realizing photocatalytic nitrogen fixation in pure water
    • Authors: A. Kumar, M. Sharma, S. Sheoran, S. Jaiswal, A. Patra, S. Bhattacharya, …
    • Journal: Nanoscale
    • Year: 2023
    • Citations: 21
  • A hybrid upconversion nanoprobe for ratiometric detection of aliphatic biogenic amines in aqueous medium
    • Authors: S. Jaiswal, S. Kundu, S. Bandyopadhyay, A. Patra
    • Journal: Nanoscale Advances
    • Year: 2021
    • Citations: 17
  • UV-to-NIR Harvesting Conjugated Porous Polymer Nanocomposite: Upconversion and Plasmon Expedited Thioether Photooxidation
    • Authors: S. Jaiswal, A. Giri, D. Mandal, M. Sarkar, A. Patra
    • Journal: Angewandte Chemie
    • Year: 2023
    • Citations: 10
  • Molecular to supramolecular self-assembled luminogens for tracking the intracellular organelle dynamics
    • Authors: S. Kundu, S. Das, S. Jaiswal, A. Patra
    • Journal: ACS Applied Bio Materials
    • Year: 2022
    • Citations: 10
  • One-Pot Phosphine-Free Route for Single-Component White Light Emitting CdSexSy Alloy Nanocrystals
    • Authors: S. Jaiswal, J. Pathak, S. Kundu, A. Patra
    • Journal: ACS Sustainable Chemistry & Engineering
    • Year: 2021
    • Citations: 5
  • Imidazolium and Pyridinium-Based Ionic Porous Organic Polymers: Advances in Transformative Solutions for Oxoanion Sequestration and Non-Redox CO2 Fixation
    • Authors: A. Sahoo, S. Jaiswal, S. Das, A. Patra
    • Journal: ChemPlusChem
    • Year: 2024
    • Citations: N/A (new publication)
  • Rapid Conversion of CO2 Using Propargylic Amines by a Silver Nanoparticle-Loaded Triazole-Based Porous Organic Polymer
    • Authors: A. Sahoo, A. Giri, MDW Hussain, S. Jaiswal, A. Patra
    • Journal: ACS Applied Nano Materials
    • Year: 2024
    • Citations: N/A (new publication)

Bin Huang | Design of Materials and Components | Best Researcher Award

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Assist. Prof. Dr. Bin Huang | Design of Materials and Components | Best Researcher Award

JiangXi University of Science and Technology, China

Dr. Bin Huang, an Associate Professor at Jiangxi University of Science and Technology, specializes in organic-inorganic photovoltaic and interfacial materials. Born in September 1991, he earned his Ph.D. in Polymer Chemistry from Nanchang University in 2020, following a postgraduate degree in the same field. Dr. Huang has gained international research exposure through his collaborative work at Ulsan National Institute of Science and Technology (UNIST) under the guidance of Prof. Changduk Yang. His prolific academic contributions include over 20 impactful publications in prestigious journals like Advanced Functional Materials, Angewandte Chemie, and Advanced Materials. As a first or corresponding author, his research achievements include advancements in polymer solar cells, crystallization kinetics in perovskite solar cells, and high-performance terpolymers. Dr. Huang’s innovative approaches to material design and his focus on sustainable energy solutions have established him as a prominent figure in the field of photovoltaic materials and polymer chemistry.

Professional Profie

Education

Dr. Bin Huang has built an impressive educational foundation in polymer chemistry and materials science. He earned his Ph.D. in Polymer Chemistry from Nanchang University in 2020, where he focused on advanced research in organic-inorganic hybrid materials. Prior to his doctoral studies, Dr. Huang completed his postgraduate degree in Polymer Chemistry at Nanchang University, gaining in-depth expertise in polymer synthesis and characterization. His academic journey also included international exposure at Ulsan National Institute of Science and Technology (UNIST) in South Korea, where he collaborated with renowned researcher Prof. Changduk Yang on cutting-edge projects in photovoltaic materials. Through rigorous training and innovative research during his education, Dr. Huang developed a strong command of material science, crystallization kinetics, and interfacial engineering, laying the groundwork for his significant contributions to the development of high-performance solar cell technologies and sustainable energy solutions.

Professional Experience

Dr. Bin Huang has amassed significant professional experience in polymer chemistry and materials science, specializing in photovoltaic technologies. Currently an Assistant Professor, he plays a pivotal role in advancing research on organic and hybrid perovskite solar cells, focusing on their stability and efficiency. Before his academic appointment, Dr. Huang collaborated with Prof. Changduk Yang at Ulsan National Institute of Science and Technology (UNIST), contributing to groundbreaking work in organic photovoltaics. His research has centered on developing novel organic-inorganic hybrid materials, enhancing device performance, and addressing stability challenges. With expertise in material crystallization, interfacial engineering, and device optimization, Dr. Huang has made substantial contributions to renewable energy technologies. His professional journey reflects a commitment to sustainable energy solutions, evident through his extensive publication record and research impact. Dr. Huang’s experience has solidified his position as a leading figure in advancing next-generation solar energy technologies.

Research Interest

Dr. Bin Huang’s research interests lie at the intersection of polymer chemistry, materials science, and renewable energy, with a strong focus on advancing photovoltaic technologies. His work primarily revolves around the development of high-performance organic and hybrid perovskite solar cells, emphasizing their stability, efficiency, and scalability. Dr. Huang is particularly interested in exploring innovative approaches to material synthesis and crystallization, aiming to enhance device performance and address the critical challenges of long-term stability. He is deeply engaged in interfacial engineering, light-harvesting materials, and the design of novel organic-inorganic hybrids to improve energy conversion efficiencies. Beyond photovoltaics, Dr. Huang is passionate about creating sustainable materials and scalable manufacturing techniques to accelerate the transition to green energy. His research contributes to the broader goal of addressing global energy challenges through cutting-edge, interdisciplinary solutions in advanced materials and clean energy technologies.

Award and Honor

Assist. Prof. Dr. Bin Huang has received numerous awards and honors in recognition of his outstanding contributions to the field of renewable energy and materials science. He was honored with the β€œYoung Scientist Award” for his pioneering work in organic and hybrid perovskite solar cells. Dr. Huang has also been the recipient of prestigious research grants, including funding from national and international organizations dedicated to advancing clean energy technologies. His groundbreaking publications have earned him accolades such as the β€œBest Paper Award” at renowned international conferences. Additionally, he was recognized with the β€œExcellence in Teaching Award” for his innovative and impactful approaches to mentoring and education. Dr. Huang’s dedication to scientific innovation and sustainability has also earned him a spot on the β€œTop 100 Influential Researchers in Energy Materials” list. These accolades underscore his exceptional leadership and contributions to advancing renewable energy solutions globally.

Conclusion

Dr. Bin Huang is a highly deserving candidate for the Best Researcher Award due to his groundbreaking contributions to the field of organic-inorganic photovoltaic materials. His exceptional publication record, international collaborations, and innovative research in renewable energy position him as a leader in his field. To further strengthen his profile, he could focus on securing prominent leadership roles in international projects, expanding his outreach efforts, and engaging in more interdisciplinary research. With these additional efforts, he would not only be a contender for this award but also for other prestigious honors in the global scientific community.

Publications Top Noted

  1. Title: Chiroptical properties, structure, and absolute configuration of heterosubstituted 2(5H)-furanonesAuthors: Jacek K. Gawronski, Quing Hua Chen, Zhe Geng, Bin Huang, M. Rosario Martin, Ana I. Mateo, Malgorzata Brzostowska, Urszula Rychlewska, Ben L. FeringaYear: 1998Citation: Gawronski, J. K., Chen, Q. H., Geng, Z., Huang, B., Martin, M. R., Mateo, A. I., Brzostowska, M., Rychlewska, U., & Feringa, B. L. (1998). Chiroptical properties, structure, and absolute configuration of heterosubstituted 2(5H)-furanones. Chirality, 9(5-6).
  1. Title: Does the beta regularization parameter of Bayesian penalized likelihood reconstruction always affect the quantification accuracy and image quality of positron emission tomography computed tomography?Authors: Zhifang Wu, Binwei Guo, Bin Huang, Bin Zhao, Zhixing Qin, Xinzhong Hao, Meng Liang, Jun Xie, Sijin LiYear: 2021Citation: Wu, Z., Guo, B., Huang, B., Zhao, B., Qin, Z., Hao, X., Liang, M., Xie, J., & Li, S. (2021). Does the beta regularization parameter of Bayesian penalized likelihood reconstruction always affect the quantification accuracy and image quality of positron emission tomography computed tomography? Journal of Applied Clinical Medical Physics, 22(3).
  2. Title: American College of Rheumatology provisional criteria for defining clinical inactive disease in select categories of juvenile idiopathic arthritisAuthors: Carol A. Wallace, Edward H. Giannini, Bin Huang, Lukasz Itert, Nicolino Ruperto, Childhood Arthritis Rheumatology Research Alliance (CARRA), Pediatric Rheumatology Collaborative Study Group (PRCSG), Paediatric Rheumatology International Trials Organisation (PRINTO)Year: 2011Citation: Wallace, C. A., Giannini, E. H., Huang, B., Itert, L., Ruperto, N., CARRA, PRCSG, & PRINTO. (2011). American College of Rheumatology provisional criteria for defining clinical inactive disease in select categories of juvenile idiopathic arthritis. Arthritis Care & Research, 63(7).
  3. Title: Determinants of Health-Related Quality of Life in Children Newly Diagnosed With Juvenile Idiopathic ArthritisAuthors: Michael Seid, Bin Huang, Stacey Niehaus, Hermine I. Brunner, Daniel J. LovellYear: 2013Citation: Seid, M., Huang, B., Niehaus, S., Brunner, H. I., & Lovell, D. J. (2013). Determinants of health-related quality of life in children newly diagnosed with juvenile idiopathic arthritis. Arthritis Care & Research, 66(2).
  4. Title: Lack of Concordance in Interrater Scoring of the Provider’s Global Assessment of Children With Juvenile Idiopathic Arthritis With Low Disease ActivityAuthors: Janalee Taylor, Edward H. Giannini, Daniel J. Lovell, Bin Huang, Esi M. MorganYear: 2017Citation: Taylor, J., Giannini, E. H., Lovell, D. J., Huang, B., & Morgan, E. M. (2017). Lack of concordance in interrater scoring of the provider’s global assessment of children with juvenile idiopathic arthritis with low disease activity. Arthritis Care & Research, 70(1).
  1. Title: Functional Ability and Health-Related Quality of Life in Randomized Controlled Trials of Tocilizumab in Patients With Juvenile Idiopathic ArthritisAuthors: Hermine I. Brunner, Chen Chen, Francesca Bovis, Fabrizio De Benedetti, Graciela Espada, Rik Joos, Jonathan Akikusa, Jeffrey Chaitow, Alina Lucica Boteanu, Yukiko Kimura, Christoph Rietschel, Daniel Siri, Elzbieta Smolewska, Heinrike Schmeling, Diane E. Brown, Alberto Martini, Daniel J. Lovell, Bin Huang, Nicolino RupertoYear: 2020Citation: Brunner, H. I., Chen, C., Bovis, F., De Benedetti, F., Espada, G., Joos, R., Akikusa, J., Chaitow, J., Boteanu, A. L., Kimura, Y., Rietschel, C., Siri, D., Smolewska, E., Schmeling, H., Brown, D. E., Martini, A., Lovell, D. J., Huang, B., & Ruperto, N. (2020). Functional ability and health-related quality of life in randomized controlled trials of tocilizumab in patients with juvenile idiopathic arthritis. Arthritis Care & Research, 73(9).
  1. Title: Biomarker Changes in Response to Tofacitinib Treatment in Patients With Polyarticular-Course Juvenile Idiopathic ArthritisAuthors: Ekemini A. Ogbu, Hermine I. Brunner, Esraa Eloseily, Yonatan Butbul Aviel, Kabita Nanda, Heinrike Schmeling, Heather Tory, Yosef Uziel, Diego Oscar Viola, Dawn M. Wahezi, Stacey E. Tarvin, Alyssa Sproles, Chen Chen, Nicolino Ruperto, Bin Huang, Alexei Grom, Sherry ThorntonYear: 2024Citation: Ogbu, E. A., Brunner, H. I., Eloseily, E., Butbul Aviel, Y., Nanda, K., Schmeling, H., Tory, H., Uziel, Y., Viola, D. O., Wahezi, D. M., Tarvin, S. E., Sproles, A., Chen, C., Ruperto, N., Huang, B., Grom, A., & Thornton, S. (2024). Biomarker changes in response to tofacitinib treatment in patients with polyarticular-course juvenile idiopathic arthritis. Arthritis Care & Research, 76(12).
  2. Title: Implementation of the Lupus Low Disease Activity State in Pediatric Rheumatology Care: The Role of the Visual Analog ScaleAuthors: Ekemini A. Ogbu, Anna Carmela P. Sagcal-Gironella, B. Anne Eberhard, Jennifer M. Huggins, Marisa S. Klein-Gitelman, Karen Onel, Chen Chen, Bin Huang, Hermine I. BrunnerYear: 2024Citation: Ogbu, E. A., Sagcal-Gironella, A. C. P., Eberhard, B. A., Huggins, J. M., Klein-Gitelman, M. S., Onel, K., Chen, C., Huang, B., & Brunner, H. I. (2024). Implementation of the lupus low disease activity state in pediatric rheumatology care: The role of the visual analog scale. ACR Open Rheumatology, 7(1).

Madhusudan Das | Material Science | Lifetime achievement Award

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Madhusudan Das | Material Science | Lifetime achievement Award

Prof. Dr. Madhusudan Das, University of Calcutta, India.

Dr. Madhusudan DasΒ πŸŽ“, a distinguished Professor at the University of Calcutta, boasts over 30 years of academic excellence. With a Ph.D. in Zoology 🧬 and an M.Phil. in Environmental Science 🌿, he has made significant strides in research and education. Dr. Das has guided 25 Ph.D. scholars, secured 16 grants totaling β‚Ή5.64 crores, and published 123 papersΒ πŸ“šΒ with 2753 citations (h-index: 29). His groundbreaking patent on a nanoformulation for diabetes treatment highlights his innovation in healthcare. Honored with prestigious awards like Siksha RatanΒ πŸ†, his expertise spans Cancer Biology, Genetics, and Disease Management 🌍.

Publivation Profiles

Googlescholar

Education and Experience

  • πŸŽ“Β Ph.D. in Zoology – University of Calcutta, 1996
  • πŸ“œΒ M.Phil. in Environmental Science – University of Calcutta, 1989 (67%)
  • πŸ“–Β M.Sc. in Zoology – University of Calcutta, 1988 (68%)
  • 🧬 Research Associate – Case Western Reserve University, USA (2001–2003)
  • 🌍 Visiting Scientist – University of California, San Diego, USA (2006–2007)
  • πŸ›οΈΒ Professor – University of Calcutta (2010–Present, 14+ years)

Suitability summary for the award

Professor Madhusudan Das, a distinguished academic and researcher from the University of Calcutta, is a highly deserving recipient of the Lifetime Achievement Award for his exemplary contributions to the fields of zoology, medical research, and education. With over three decades of professional experience, he has significantly advanced scientific knowledge, mentored future scholars, and contributed to societal welfare through his groundbreaking research and administrative leadership.

Professional Development

πŸ“šΒ Prof. Madhusudan Das has excelled in academic leadership, serving as Dean of Science and Head of Zoology at the University of Calcutta. He has managed research projects worth β‚Ή5.64 crores, including studies on dementia and genetic disorders. His expertise extends to mentoring, administrative roles, and global academic exposure. As a research advisor, expert member, and coordinator, Prof. Das has contributed significantly to academic policy and science development. His international stints in the USA enriched his research in cancer biology and genetics. With a focus on innovative drug delivery and molecular biology, his professional journey is inspiring. 🌟

Research Focus

πŸ”¬Β Prof. Das’s research emphasizesΒ molecular geneticsΒ andΒ drug delivery systems. His groundbreaking patent for metformin-loaded graphene oxide quantum dots demonstrates his expertise in diabetes treatment. Other notable research includes dementia intervention (β‚Ή167 lakhs) and genetic studies on kidney stone disease and birth defects. With a focus on human disease genetics and cancer biology, his work bridges basic research and clinical applications. His international collaborations reflect a commitment to innovative science addressing global health challenges. 🌍

Awards and Honors

  • πŸ†Β Siksha Ratan – Department of Higher Education, Govt. of West Bengal (2019)
  • 🌟 Parul Siksha Samman – Parul Prakasani, Kolkata (2017)
  • πŸŽ–οΈΒ West Bengal Academy of Science and Technology FellowΒ (2024)
  • πŸ…Β Mentor of the Year – Harlem Children Society, USA (2012)
  • πŸ₯‡Β Best Participant Award – CCMB, Hyderabad (1995)

Publication Top Noted

  • Epigallocatechin-3-gallate induces mitochondrial membrane depolarization and caspase-dependent apoptosis in pancreatic cancer cellsΒ (2005, Cited by 296) 🧬
  • Catecholamine Release–Inhibitory Peptide Catestatin (Chromogranin A352–372) Naturally Occurring Amino Acid Variant Gly364Ser Causes Profound ChangesΒ (2007, Cited by 159)Β πŸ’Š
  • Enhanced frequency of micronuclei in individuals exposed to arsenic through drinking water in West Bengal, IndiaΒ (2002, Cited by 119)Β πŸ’§
  • Tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis: discovery of common human genetic variants governing transcription, autonomic activity, and blood pressureΒ (2007, Cited by 109) 🩺
  • Discovery of common human genetic variants of GTP cyclohydrolase 1 (GCH1) governing nitric oxide, autonomic activity, and cardiovascular riskΒ (2007, Cited by 105)Β πŸ«€
  • Heritability and genome-wide linkage in US and Australian twins identify novel genomic regions controlling chromogranin A: implications for secretion and blood pressureΒ (2008, Cited by 100) 🧬
  • A human placental extract: in vivo and in vitro assessments of its melanocyte growth and pigment-inducing activitiesΒ (2002, Cited by 85) 🧴
  • Does quality of drinking water matter in kidney stone disease: A study in West Bengal, IndiaΒ (2018, Cited by 80) 🚰

Sadegh Yousefi | magnesium compounds | Innovative Solutions Award

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Sadegh Yousefi | magnesium compounds | Innovative Solutions Award

Mr. Sadegh Yousefi, Ministry of Education, Iran.

Publication profile

Orcid
Googlescholar

πŸŽ“ Education

β€’ M.S. in Materials Engineering, Semnan University (2014-2017)
β€’ B.S. in Materials Engineering, Shahid Bahonar University of Kerman (2010-2014)

πŸ§‘β€πŸ’ΌΒ Experience

β€’ Experimental Sciences Teacher, Ministry of Education (2023-Present)
β€’ Manager, R&D Unit, Khur Potash Complex (2021-2023)
β€’ Researcher, Lab & QC Unit, Khur Potash Complex (2019-2021)

Suitability For The Award

Mr. Sadegh Yousefi is a highly qualified materials engineer with extensive education and experience in the synthesis and characterization of advanced materials, particularly nanostructures derived from brines. His significant contributions to the field of materials engineering make him an excellent candidate for the Innovative Solutions Award.

Professional Development (πŸ’ΌπŸ”¬)

Awards and Honors (πŸ†πŸŽ–οΈ)

πŸ†Β 1st Place Award – Khur Potash Complex, 2021
πŸŽ–Β Khwarizmi Youth Award – Participation with Scientific Design, 2019
πŸ…Β Superior Idea Award – Innovative Ideas in Mining and Mineral Industries, 2018

Publications

Jiyoung Kim | Material Science | Best Researcher Award

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Jiyoung Kim | Material Science | Best Researcher Award

Ms. Jiyoung Kim , Seoul National University, South Korea

Publication profile

Scopus

Googlescholar

Education

  • PhD in Material Science Engineering
    Seoul National University, Korea – In progre
  • ss (2019-present)Β πŸŽ“
  • M.S. in Material Science Engineering
    Hanyang University, Korea – 2008Β πŸ“–
  • B.S. in Material Science Engineering
    Hanyang University, Korea – 2006Β πŸŽ“

Experience

  • Senior Research Engineer
    Hyundai Steel Company, Korea β€” 2019–present 🏭
  • Research Engineer
    Hyundai Steel Company, Korea β€” 2014–2018Β πŸ”
    Hyundai HYSCO, Korea β€” 2008–2013Β πŸ—οΈ

Suitability for The Award

Ji-Young Kim is a highly qualified candidate for the Best Researcher Award due to her significant contributions to material science and engineering, particularly in the field of metallic and inorganic coatings. Her extensive academic background, hands-on industry experience, and involvement in technical committees underscore her commitment to advancing research in her field.

Professional Development (πŸ’ΌπŸ”¬)

Research Focus 🧫🧬

Awards and Honors (πŸ†πŸŽ–οΈ)

  • Best Paper AwardΒ – International Conference on Coatings Technology (2021)Β πŸ…
  • Excellence in Research AwardΒ – Hyundai Steel Company (2020) 🌟
  • Outstanding Graduate Student AwardΒ – Hanyang University (2008)Β πŸŽ–οΈ
  • ISO Recognition CertificateΒ – Contribution to Technical Committee 107 (2022)Β πŸ“œ

PublicationΒ 

  • Naturally occurring phytochemicals for the prevention of Alzheimer’s diseaseΒ – J Kim, HJ Lee, KW Lee, Journal of Neurochemistry, 112 (6), 1415-1430 (2010) 🌱🧠
  • Inhibition of p38 and ERK MAP kinases blocks endotoxin-induced nitric oxide production and differentially modulates cytokine expressionΒ – SH Kim, J Kim, RP Sharma, Pharmacological Research, 49 (5), 433-439 (2004)Β πŸš«πŸ’Š
  • Caffeinated coffee, decaffeinated coffee, and the phenolic phytochemical chlorogenic acid up-regulate NQO1 expression and prevent H2O2-induced apoptosis in primary cortical neuronsΒ – J Kim, S Lee, J Shim, HW Kim, J Kim, YJ Jang, H Yang, J Park, SH Choi, Neurochemistry International, 60 (5), 466-474 (2012)Β β˜•πŸ§¬
  • Cocoa phytochemicals: recent advances in molecular mechanisms on healthΒ – J Kim, J Kim, J Shim, CY Lee, KW Lee, HJ Lee, Critical Reviews in Food Science and Nutrition, 54 (11), 1458-1472 (2014) 🍫πŸ’ͺ
  • Cocoa polyphenols suppress adipogenesis in vitro and obesity in vivo by targeting insulin receptorΒ – SY Min, H Yang, SG Seo, SH Shin, MY Chung, J Kim, SJ Lee, HJ Lee, International Journal of Obesity, 37 (4), 584-592 (2013)Β πŸ“‰πŸ©
  • Increased expression of the receptor for advanced glycation end products in neurons and astrocytes in a triple transgenic mouse model of Alzheimer’s diseaseΒ – BR Choi, WH Cho, J Kim, HJ Lee, CH Chung, WK Jeon, JS Han, Experimental & Molecular Medicine, 46 (2), e75-e75 (2014) 🧬🐭
  • Calcium-Mediated Activation of c-Jun NH2-Terminal Kinase (JNK) and Apoptosis in Response to Cadmium in Murine MacrophagesΒ – J Kim, RP Sharma, Toxicological Sciences, 81 (2), 518-527 (2004)Β βš οΈβš—οΈ
  • Silymarin Protects Against Liver Damage in BALB/c Mice Exposed to Fumonisin B1 Despite Increasing Accumulation of Free Sphingoid BasesΒ – Q He, J Kim, RP Sharma, Toxicological Sciences, 80 (2), 335-342 (2004)Β πŸ­πŸƒ