Linhan He | Chemistry and Materials | Best Researcher Award

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Ms. Linhan He | Chemistry and Materials | Best Researcher Award | 13181

Ms. Linhan He, Shenyang ligong university, China

Ms. Linhan He is affiliated with Shenyang Ligong University in China. Her academic and professional background reflects a strong focus on innovation and research. As a representative of Shenyang Ligong University, she contributes to advancements in her field and actively participates in academic and collaborative initiatives to foster knowledge and technology development.

Profile

Scopus

🌟 Early Academic Pursuits

Linhan He’s academic journey began with a deep curiosity and passion for chemistry, materials science, and physics. Currently pursuing a master’s degree in Optical Engineering at Shenyang Ligong University, Linhan has shown an unwavering commitment to expanding the boundaries of scientific knowledge. His education has been marked by a rigorous focus on advanced computational chemistry and quantum mechanics. Throughout his academic career, Linhan has demonstrated exceptional analytical skills and a passion for exploring complex concepts, laying a solid foundation for his future contributions to science and technology.

🏗️ Professional Endeavors

Despite being early in his career, Linhan has actively engaged in research that bridges theoretical exploration and practical application. His primary research interests include optoelectronic materials, computational modeling, and the properties of two-dimensional nanomaterials. Linhan’s role as a student-researcher at Shenyang Ligong University has positioned him to collaborate with leading academics and researchers in the field. His professional endeavors are not limited to academia; he has also actively sought opportunities to contribute to interdisciplinary projects, further broadening his expertise and impact.

🔬 Contributions and Research Focus

Linhan He’s research primarily focuses on the electronic and electrical properties of bilayer silicene nanoribbons, a promising material in the field of nanotechnology and flexible electronics. His notable contributions include:

  1. Published Works: Linhan has published two peer-reviewed papers in high-impact journals.
    • “The Effect of Carbon Chain Doping at Different Positions on the Electrical Properties of Bilayer Silicene Nanoribbons” (Journal of Materials Science, 2024).
    • “Electronic Properties of Bilayer Silicene Nanoribbons Modulated by External Electric Field and Carbon Adsorption” (Journal of Physics and Chemistry of Solids, 2025).
  2. Research Methodologies: Using computational simulations and quantum mechanics, Linhan has investigated innovative approaches to improve the performance and efficiency of nanomaterials.
  3. Interdisciplinary Approach: Linhan’s research intersects physics, chemistry, and material science, emphasizing the real-world applicability of theoretical findings.

🏆 Accolades and Recognition

Linhan’s dedication to research excellence has earned him recognition in the scientific community. Though still in the early stages of his career, he has already gained accolades for his publications and academic achievements. His research papers are cited in respected databases such as the Science Citation Index (SCI), showcasing the significance of his contributions. Linhan’s work reflects a rare combination of creativity and rigor, earning him a nomination for the prestigious Best Researcher Award.

🌍 Impact and Influence

Linhan He’s research in bilayer silicene nanoribbons is expected to have a far-reaching impact on fields such as flexible electronics, energy storage, and nanotechnology. By improving the understanding of the electronic properties of advanced materials, his work contributes to the development of next-generation devices.

His research has already gained international attention, with publications in globally recognized journals, indicating its relevance to the scientific community at large. Linhan’s dedication to creating innovative solutions ensures that his work resonates beyond academia, influencing industry practices and technological advancements.

🌱 Legacy and Future Contributions

As a rising star in the field of optical engineering and materials science, Linhan He is poised to make significant contributions in the years to come. He envisions applying his research to create sustainable, high-performance materials for electronics and other applications. Linhan is also passionate about mentoring young scientists and fostering a culture of innovation within his academic and professional communities.

With a focus on interdisciplinary collaboration and applied research, Linhan aims to expand his expertise into emerging areas such as artificial intelligence-driven materials design and environmentally friendly nanotechnology solutions. His journey is a testament to the power of curiosity and perseverance in shaping the future of science.

Publication Top Notes

Electronic characterization of bilayer silicene nanoribbons

Author: Qian, Z., Wu, L., Wang, Z., Zhao, K., Zhang, Q.

Journal: Materials Science in Semiconductor Processing

Year: 2024

The effect of carbon chain doping at different positions on the electrical properties of bilayer silicene nanoribbons

Author: He, L., Wu, L., Wang, S., Liu, Y., Shen, L.

Journal: Materials Science

Year: 2024

Effect of vacancy defect on the structural and electrical properties of single-walled silicon nanotube

Author: Wang, S., Wu, L., Wang, Z., Liu, Y., Shen, L.

Journal: Materials Today Communications

Year: 2024

 

Sanjay Basumatary | Chemistry and Materials Science | Best Researcher Award

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Prof. Sanjay Basumatary | Chemistry and Materials Science | Best Researcher Award

Professor at Bodoland University, India.

Dr. Sanjay Basumatary is a distinguished academician and researcher in Chemistry, currently serving as Professor and Head of the Department of Chemistry at Bodoland University, India. He holds a Ph.D. in Chemistry from Gauhati University, with expertise in renewable energy, biodiesel production, catalysis, phytochemistry, and adsorption studies. Throughout his career, Dr. Basumatary has demonstrated strong research acumen, proficient in experimental design, analytical techniques, data analysis, and literature synthesis. He has received prestigious awards including the CSIR-UGC NET and UGC Rajiv Gandhi National JRF, recognizing his contributions to the field. Dr. Basumatary is committed to advancing sustainable practices and has a robust publication record, presenting his research globally to foster collaborations and innovation in Chemistry.

Professional Profiles:

Education 🎓

Dr. Sanjay Basumatary pursued his academic journey in Chemistry with a Ph.D. from Gauhati University, Guwahati, completing his thesis on “Transesterification of Non-edible Vegetable Oils Using a Novel Catalyst Derived from Banana Plant and Technical Assessment of the Products as Biodiesel” in 2012. Prior to his doctoral studies, he earned his M.Sc. in Organic Chemistry from the same institution in 2007. His undergraduate education began at Kokrajhar Govt. College, where he obtained a B.Sc. in Chemistry in 2005. These educational achievements have equipped Dr. Basumatary with a strong foundation in Chemistry, facilitating his subsequent career in academia and research at Bodoland University, where he currently serves as Professor and Head of the Department of Chemistry.

Professional Experience

Dr. Sanjay Basumatary has built a distinguished career in academia, specializing in Chemistry. Currently serving as Professor and Head of the Department of Chemistry at Bodoland University, Kokrajhar, he has been instrumental in shaping the academic landscape. His journey began as an Assistant Professor at Bineswar Brahma Engineering College, Kokrajhar, where he taught from August 2010 to August 2014. Subsequently, he joined Bodoland University as an Assistant Professor in August 2014 and steadily progressed to the position of Assistant Professor (Senior Scale) before assuming the role of Professor in November 2021. Throughout his career, Dr. Basumatary has also held various administrative roles within the Department of Chemistry, including several stints as Acting Head and currently as Head since December 2021. His tenure has been marked by significant contributions to teaching, research guidance, and administrative leadership, consolidating his reputation as a respected figure in the field of Chemistry education and research.

Research Interest

Dr. Sanjay Basumatary’s research interests encompass a broad spectrum within Chemistry, focusing particularly on areas crucial to sustainable development and innovation. His primary research interests include Renewable Energy, with a specific emphasis on Biodiesel production and catalysis. Additionally, he delves into Phytochemistry, exploring the chemical composition and properties of natural products derived from plants. His research also extends to Adsorption studies, investigating the application of adsorbents in environmental and industrial contexts. Through his multifaceted research endeavors, Dr. Basumatary contributes significantly to advancing knowledge and solutions in these critical areas of Chemistry.

Award and Honors

Dr. Sanjay Basumatary has received notable awards and honors in recognition of his academic and research contributions. He was awarded the CSIR-UGC NET in 2009, highlighting his expertise in Chemistry and qualifying him for national-level research fellowships. Additionally, he earned the prestigious UGC Rajiv Gandhi National Junior Research Fellowship (JRF) from 2008 to 2010, further underscoring his dedication to advancing research in his field. These accolades reflect Dr. Basumatary’s commitment to excellence in academia and his significant contributions to the field of Chemistry, particularly in sustainable energy and natural product chemistry.

Research Skills

Dr. Sanjay Basumatary possesses a diverse range of research skills crucial to his contributions in Chemistry. His expertise encompasses proficient experimental design and execution, particularly in areas such as renewable energy, biodiesel production, catalysis, phytochemistry, and adsorption studies. He is adept at employing various analytical techniques, including spectroscopy (UV-Vis, IR), chromatography (GC-MS, HPLC), and microscopy (SEM, TEM) for detailed chemical analysis and characterization. Dr. Basumatary excels in data analysis, employing statistical methods to interpret experimental results effectively and derive meaningful conclusions. Furthermore, he demonstrates strong capabilities in conducting thorough literature reviews to establish the theoretical foundations of his research. He has a proven track record in publishing research findings in esteemed journals and presenting his work at national and international conferences. Additionally, his skills extend to grant writing, project management, and fostering collaborative research efforts, underscoring his commitment to advancing knowledge and innovation in Chemistry.

Publications

  1. High quality biodiesel from yellow oleander (Thevetia peruviana) seed oil
    • Authors: DC Deka, S Basumatary
    • Year: 2011
    • Citations: 226
  2. Biodiesel production from mixed oils: A sustainable approach towards industrial biofuel production
    • Authors: S Brahma, B Nath, B Basumatary, B Das, P Saikia, K Patir, S Basumatary
    • Year: 2022
    • Citations: 190
  3. Waste to value addition: Utilization of waste Brassica nigra plant derived novel green heterogeneous base catalyst for effective synthesis of biodiesel
    • Authors: B Nath, B Das, P Kalita, S Basumatary
    • Year: 2019
    • Citations: 168
  4. Highly efficient renewable heterogeneous base catalyst derived from waste Sesamum indicum plant for synthesis of biodiesel
    • Authors: B Nath, P Kalita, B Das, S Basumatary
    • Year: 2020
    • Citations: 109
  5. Utilization of renewable and sustainable basic heterogeneous catalyst from Heteropanax fragrans (Kesseru) for effective synthesis of biodiesel from Jatropha curcas oil
    • Authors: S Basumatary, B Nath, B Das, P Kalita, B Basumatary
    • Year: 2021
    • Citations: 101
  6. Application of agro-waste derived materials as heterogeneous base catalysts for biodiesel synthesis
    • Authors: S Basumatary, B Nath, P Kalita
    • Year: 2018
    • Citations: 81
  7. Waste Musa paradisiaca plant: an efficient heterogeneous base catalyst for fast production of biodiesel
    • Authors: B Basumatary, S Basumatary, B Das, B Nath, P Kalita
    • Year: 2021
    • Citations: 74
  8. Transesterification with heterogeneous catalyst in production of biodiesel: A Review
    • Authors: S Basumatary
    • Year: 2013
    • Citations: 69
  9. Production of renewable biodiesel using metal organic frameworks based materials as efficient heterogeneous catalysts
    • Authors: SF Basumatary, K Patir, B Das, P Saikia, S Brahma, B Basumatary, B Nath
    • Year: 2022
    • Citations: 63
  10. Biodiesel as renewable biofuel produced via enzyme-based catalyzed transesterification
    • Authors: P Kalita, B Basumatary, P Saikia, B Das, S Basumatary
    • Year: 2022
    • Citations: 61
  11. Non-conventional seed oils as potential feedstocks for future biodiesel industries: a brief review
    • Authors: S Basumatary
    • Year: 2013
    • Citations: 60

 

 

 

Batoul Hosseinzadeh | Materials Science | Best Researcher Award

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Dr. Gabriel Kamsu Tchuente | Pharmacology | Best Researcher Award

Researcher at University of Brescia – Italy.

Batoul Hosseinzadeh is a versatile researcher specializing in electrochemical research and material science. Currently affiliated with the Department of Mechanical and Industrial Engineering at the University of Brescia, Italy, Batoul has a robust background in synthesizing and characterizing novel materials such as metal-organic frameworks (MOFs), molecularly imprinted polymers (MIPs), and nanostructured electrode materials. She completed her Ph.D. in Analytical Chemistry from the Institute for Advanced Studies in Basic Sciences, Iran, focusing on the development of MOF-based nanostructures for supercapacitors. Batoul has extensive international research experience, including postdoctoral roles in Turkey and Iran, and a sabbatical fellowship at the Catalan Institute of Nanoscience and Nanotechnology in Spain. She is skilled in UV/Vis spectrophotometry, electron microscopy, and various electrochemical techniques, contributing significantly to the field of electrochemical energy storage and sensor applications.

Professional Profiles:

Education 🎓

Batoul Hosseinzadeh pursued an extensive academic journey focused on analytical chemistry, culminating in a Ph.D. from the Institute for Advanced Studies in Basic Sciences, Zanjan, Iran, between 2014 and 2019. Her doctoral research delved into the synthesis of novel metal-organic framework-based nanostructures, specifically aimed at enhancing electrode materials for high-performance electrochemical supercapacitors, under the guidance of Dr. Sayed Habib Kazemi. Prior to her Ph.D., she completed a Master’s degree at the same institution from 2010 to 2012, where her thesis centered on the electrochemical synthesis and characterization of nano-structured conducting metallopolymer of NiPorphyrine. Beginning her academic journey, Batoul earned her Bachelor’s degree in Chemistry from Shahid Chamran University, Ahvaz, Iran, solidifying her foundational knowledge in the field. Her academic pursuits reflect a dedication to advancing analytical chemistry through innovative research and application-driven studies in nanostructured materials and electrochemical technologies.

Professional Experience

Batoul Hosseinzadeh is a seasoned researcher specializing in electrochemical research and material science. Currently based at Università degli Studi di Brescia, Italy, she focuses on sensor design in Prof. Emilio Sardini’s group. Previously, she contributed significantly as a researcher at Ankara University, Turkey, under Prof. Sibel Aysil Ozkan, developing electrochemical sensors using MOFs and MIPs for anti-cancer drug detection. Her postdoctoral stint at Amirkabir University of Technology, Tehran, Iran, and earlier roles at the Institute for Advanced Studies in Basic Sciences, Zanjan, Iran, underscore her expertise in synthesizing and studying advanced materials like MOFs and MIPs. Batoul’s international collaborations and research in electrochemical sensor development highlight her commitment to advancing scientific knowledge and applications in this critical field.

Research Interest

Batoul Hosseinzadeh is an accomplished researcher specializing in electrochemical science and materials engineering. Her work primarily revolves around developing innovative electrochemical sensors using Metal-Organic Frameworks (MOFs), Molecular Imprinted Polymers (MIPs), and nanostructured materials. She focuses on enhancing energy storage technologies, particularly supercapacitors and batteries, by investigating advanced electrode materials. Batoul is adept in using spectroscopic and microscopic techniques for material characterization, crucial for optimizing performance and durability. Her research extends to environmental applications, where she explores sustainable solutions for environmental monitoring and remediation. With a strong commitment to collaboration, Batoul engages in interdisciplinary research projects with international partners to explore new frontiers in electrochemistry. Her contributions are pivotal in advancing both fundamental understanding and practical applications in the field of electrochemical sciences.

Award and Honors

🏆 Dr. Batoul Hosseinzadeh has received several prestigious awards and fellowships throughout her career:
She was awarded a research fellowship at Ankara University, Turkey in 2023, where she conducted advanced research in electrochemical sensor development. In 2020, she received a postdoctoral fellowship from Iran’s National Elites Foundation (ISEF), supporting her research endeavors. Prior to this, in 2018, Dr. Hosseinzadeh was granted a sabbatical fellowship to the Catalan Institute of Nanoscience and Nanotechnology in Spain, enriching her expertise in the synthesis and characterization of novel materials for energy storage applications. These fellowships have been instrumental in her international research collaborations and contributions to the field of analytical chemistry and electrochemical sensors.

Publications

  • Facile synthesis of mixed metal–organic frameworks: electrode materials for supercapacitors with excellent areal capacitance and operational stability
    • Authors: SH Kazemi, B Hosseinzadeh, H Kazemi, MA Kiani, S Hajati
    • Journal: ACS applied materials & interfaces
    • Year: 2018
    • There
  • Electrochemical fabrication of conducting polymer of Ni-porphyrin as nano-structured electrocatalyst for hydrazine oxidation
    • Authors: SH Kazemi, B Hosseinzadeh, S Zakavi
    • Journal: Sensors and Actuators B: Chemical
    • Year: 2015
    • Citations: 40
  • MOF-derived conformal cobalt oxide/C composite material as high-performance electrode in hybrid supercapacitors
    • Authors: B Hosseinzadeh, B Nagar, R Benages-Vilau, P Gomez-Romero
    • Journal: Electrochimica Acta
    • Year: 2021
    • Citations: 30
  • Coordination geometry in metallo-supramolecular polymer networks
    • Authors: B Hosseinzadeh, M Ahmadi
    • J
    • Year: 2022
    • Quote
  • Electrophoretic deposition of Sn-doped TiO2 nanoparticles and its optical and photocatalytic properties
    • Authors: SE Hosseini Yeganeh, M Kazazi, B Koozegar Kaleji, SH Kazemi
    • Your
    • Year: 2018
    • Citations: 20
  • Hollow molecularly imprinted microspheres made by w/o/w double Pickering emulsion polymerization stabilized by graphene oxide quantum dots targeted for determination of L-Cysteine concentration
    • Or
    • Journal: Co
    • Year: 2021
    • Ambition
  • Degradable hydrogels: Design mechanisms and versatile applications
    • Authors: B Hosseinzadeh, M Ahmadi
    • J
    • Year: 2023
    • Ambition
  • Electrochemical Sensor for Food Monitoring Using Metal-Organic Framework Materials
    • Authors: B Hosseinzadeh, M Luz Rodriguez-Mendez
    • Journal: Chemosensors
    • AND
    • Citations: 4
  • Development of a molecularly imprinted polymer-based electrochemical sensor with metal-organic frameworks for monitoring the antineoplastic drug vismodegib
    • Authors: B Hosseinzadeh, SI Kaya, A Cetinkaya, EB Atici, SA Ozkan
    • Your
    • Year: 2024
  • Emerging trends of ion-selective electrodes in pharmaceutical applications
    • Authors: N Jadon, B Hosseinzadeh, SI Kaya, G Ozcelikay-Akyildiz, A Cetinkaya, et al.
    • Journal: Electrochimica Acta
    • Year: 2
    • Ambition

Georgina Gregory | Chemistry and Materials Science | Best Researcher Award

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Dr. Georgina Gregory | Chemistry and Materials Science | Best Researcher Award

Royal Society Dorothy Hodgkin Fellow at University of Oxford, United Kingdom.

Georgina L. Gregory is a renowned chemist and Royal Society Dorothy Hodgkin Research Fellow at the University of Oxford. She holds a PhD and MRes (Distinction) from the University of Bath and a first-class honours MSci from Imperial College London. Her career spans academia and industry, including roles at Wadham College, the Faraday Institute, and Crown Packaging Ltd. Georgina’s research focuses on sustainable chemical technologies and battery applications, particularly innovative polymers for energy storage. She has received numerous awards for her leadership and research excellence, highlighting her expertise in strategic planning, data analysis, and project management. Georgina continues to drive advancements in green chemistry, making significant contributions to her field. 🌿🔬🌟

Professional Profiles:

Education

Georgina L. Gregory holds a PhD and MRes (Distinction) in Chemistry from the Centre for Sustainable Chemical Technologies at the University of Bath, which she completed in 2017. She also earned a first-class honours MSci in Chemistry from Imperial College London in 2011. 🎓🌟

Professional Experience

Georgina Gregory’s professional journey is marked by significant roles in academia and industry. She currently serves as a Royal Society Dorothy Hodgkin Research Fellow at the University of Oxford’s Department of Chemistry since October 2022. Concurrently, she is a Junior Research Fellow in Inorganic Chemistry at Wadham College, Oxford, a position she has held since October 2020. Previously, she was a Senior Postdoctoral Research Associate on the SOLBAT project at the Faraday Institute (2020-2022) and a Postdoctoral Research Associate in the Chemistry Research Lab at Oxford (2018-2020). Her industry experience includes a role as a Scientist at Crown Packaging Ltd. (2017-2018) and a PhD Placement at Syngenta (2016). 🔬📊

Research Interest

Georgina Gregory’s research interests are centered around sustainable chemical technologies and battery applications. Her work focuses on the development of polymers for use in energy storage, particularly in batteries, and she is actively involved in exploring innovative materials and methodologies to improve battery performance and sustainability. She is passionate about contributing to advancements in green chemistry and the development of environmentally friendly chemical processes. 🌿🔋

Awards and Honors

Georgina has received numerous awards and honors throughout her career. Notably, she has been recognized by the University of Oxford with the Award for Excellence Scheme, both in salary increments and monetary awards in 2022 and 2023. She has also received the Recognition Award for Leadership at Oxford in 2021 and 2022. Her research presentations have garnered accolades, including the Best Talk Prize at the Recent Appointees in Polymer Science (RAPS) in 2022, and several poster prizes and talk awards from conferences and symposia during her academic tenure. 🏆🎖️

Research Skills

Georgina Gregory possesses a robust set of research skills, including strategic planning, innovation, and creativity in scientific research. She is proficient in data analysis and project planning, with strong quantitative skills and experience in audit reporting. Her analytical thinking and ability to manage interdisciplinary teams have been instrumental in her research endeavors, particularly in the development and application of polymers for battery technologies. Her expertise is further demonstrated by her numerous invited presentations, published patents, and successful mentorship of graduate and undergraduate students. 📊

Publications

  1. Switchable Catalysis Improves the Properties of CO2-Derived Polymers: Poly(cyclohexene carbonate-b-ε-decalactone-b-cyclohexene carbonate) Adhesives
    • Authors: GS Sulley, GL Gregory, TTD Chen, L Peña Carrodeguas, G Trott, CK Williams
    • Year: 2020
    • Citations: 195
  2. Polymers from sugars: cyclic monomer synthesis, ring-opening polymerisation, material properties and applications
    • Authors: GL Gregory, EM López-Vidal, A Buchard
    • Year: 2017
    • Citations: 137
  3. Sequence control from mixtures: switchable polymerization catalysis and future materials applications
    • Authors: AC Deacy, GL Gregory, GS Sulley, TTD Chen, CK Williams
    • Year: 2021
    • Citations: 129
  4. Polymers from Sugars and CO2: Synthesis and Polymerization of a d-Mannose-Based Cyclic Carbonate
    • Authors: GL Gregory, LM Jenisch, B Charles, G Kociok-Kohn, A Buchard
    • Year: 2016
    • Citations: 115
  5. 2020 roadmap on solid-state batteries
    • Authors: M Pasta, D Armstrong, ZL Brown, J Bu, MR Castell, P Chen, A Cocks, et al.
    • Year: 2020
    • Citations: 112
  6. Easy access to oxygenated block polymers via switchable catalysis
    • Authors: T Stößer, GS Sulley, GL Gregory, CK Williams
    • Year: 2019
    • Citations: 93
  7. Bio‐based and degradable block polyester pressure‐sensitive adhesives
    • Authors: TTD Chen, LP Carrodeguas, GS Sulley, GL Gregory, CK Williams
    • Year: 2020
    • Citations: 81
  8. Triblock polyester thermoplastic elastomers with semi-aromatic polymer end blocks by ring-opening copolymerization
    • Authors: GL Gregory, GS Sulley, LP Carrodeguas, TTD Chen, A Santmarti, CK Williams
    • Year: 2020
    • Citations: 81
  9. Synthesis of 5-to 8-membered cyclic carbonates from diols and CO2: A one-step, atmospheric pressure and ambient temperature procedure
    • Authors: TM McGuire, EM López-Vidal, GL Gregory, A Buchard
    • Year: 2018
    • Citations: 80
  10. Synthesis of 6-membered cyclic carbonates from 1,3-diols and low CO2 pressure: A novel mild strategy to replace phosgene reagents
    • Authors: GL Gregory, M Ulmann, A Buchard
    • Year: 2015
    • Citations: 78