Hailu Wang | Materials Science | Best Researcher Award

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Dr. Hailu Wang | Materials Science | Best Researcher Award

Dr. Hailu Wang, Wuhan University of Science and Technology, China

Dr. Hailu Wang (1995) is a postdoctoral researcher at Wuhan University of Science and Technology, specializing in Materials Science and Engineering. His research focuses on advanced ceramic materials, including their application in lithium-ion batteries and high-temperature processes. Dr. Wang has authored 9 SCI papers and holds several patents in refractory materials and ceramic technology. Notable projects include the development of ceramic saggers for battery cathode material roasting and the design of ceramic crucibles for high-end superalloys. He has contributed to key scientific research funded by the National Natural Science Foundation of China. 🔬⚙️📚

 

Publication Profile

Scopus

Academic Contributions

Dr. Wang has published nine papers in prestigious journals such as Chemical Engineering Journal, Journal of the European Ceramic Society, and Ceramics International. His research has focused on advanced ceramic materials, their applications in energy storage, and high-performance materials for industrial processes like battery production and alloy smelting. He has made significant contributions to understanding material behaviors under extreme conditions and has published in renowned international journals.

Research Focus

Dr. Hailu Wang’s research primarily focuses on advanced ceramic materials and their applications in high-temperature industries. His work includes the development of ceramic sagger materials for lithium-ion battery cathode material roasting 🔋, high-performance ceramic crucibles for melting nickel-based superalloys 🔧, and the synthesis of lightweight, high-strength, and corrosion-resistant ceramics for various industrial uses. Additionally, Dr. Wang investigates the structure and properties of porous ceramics for adsorption, filtration, and thermal insulation 🌱. His studies contribute significantly to materials science, particularly in improving the efficiency and sustainability of energy storage and manufacturing technologies. 🔬💡

 

Publication Top Notes

  • Effect of BPO4 on phase transition behavior and sintering of quartz materials – Li, J., Li, Y., Li, S., … Qiao, Z., Xiang, K. (2024) 📜
  • Preparation of mullite whisker foam ceramics and exploration of its application in adsorption – Li, Y., Wang, H., Li, S., Bai, C., Liu, F. (2024) 🧱
  • Synthesis and application evaluation in lithium battery furnace of mullite insulating refractory bricks from tailings – Wang, H., Li, Y., Yin, B., … Xiang, R., Qiao, Z. (2023) 🔋
  • Damage mechanism and corrosion resistance improvement of corundum-mullite kiln furniture during calcining of Li-ion cathode materials – Wang, H., Li, Y., Li, S., … Qiao, Z., Xiang, K. (2023) 🔬
  • Controlled structure preparation of low thermal conductivity Bi4B2O9 foams – Chen, P., Li, Y., Yin, B., … Qiao, Z., Liu, J. (2023) 🌡️
  • New design of bismuth borate ceramic/epoxy composites with excellent fracture toughness and radiation shielding capabilities – Chen, P., Li, Y., Yin, B., … Wang, H., Liu, J. (2023) ⚛️
  • Firing properties and corrosion resistance of mullite-Al2TiO5 saggar materials – Xiang, K., Li, S., Li, Y., … Xiang, R., He, X. (2023) 🔥
  • Anti-corrosion effect of insulating firebrick coated with CA6 in the calcination of lithium-ion cathode materials – Wang, H., Li, Y., He, X., … Li, S., Li, S. (2022) 🔧
  • Synthesis of cordierite foam ceramics from kyanite tailings and simulated application effects – Wang, H., Li, Y., Yin, B., … Li, S., Zhou, Z. (2022) 🏗️
  • Interactions of Li2O volatilized from ternary lithium-ion battery cathode materials with mullite saggar materials during calcination – Xiang, K., Li, S., Li, Y., Wang, H., Xiang, R. (2022) 🔋🧱

 

Cong Li | Biological Sciences | Best Researcher Award

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Assoc. Prof. Dr. Cong Li | Biological Sciences | Best Researcher Award

Teacher, Northwest A&F University, China

Dr. Cong Li, Ph.D., is an Associate Professor specializing in 🧬 animal molecular quantitative genetics. He focuses on analyzing the genetic basis of key economic traits in 🐐 dairy goats and developing advanced breeding technologies. A recipient of the Shaanxi “Youth Talent Promotion Program” honor, Dr. Li has led over 15 major projects, including the National Natural Science Foundation and the China Postdoctoral Science Foundation. He has authored 60+ papers 📚, 2 national patents 🏅, and co-authored 6 books. His accolades include awards from the China Animal Science Forum and the Shaanxi Agricultural Science Promotion program.

 

Publication Profile

Orcid

🌟 Academic Background and Recognition

Dr. Li Cong, Ph.D., is an Associate Professor and a distinguished researcher in 🧬 animal molecular quantitative genetics. He has been honored with the Youth Talent Promotion Program by the Shaanxi Province “University Science and Technology Association.” His research primarily focuses on analyzing the genetic basis of economically significant traits in 🐐 dairy goats and advancing innovative breeding technologies to enhance livestock productivity.

Employment

Assoc. Prof. Dr. Cong Li has been serving as an Associate Professor at the College of Animal Science and Technology, Northwest A&F University, Yangling, China, since July 8, 2016. 🏫 In this role, he has made significant contributions to the field of 🧬 animal molecular quantitative genetics, focusing on genetic analysis and breeding technologies for dairy goats 🐐. His ongoing research has elevated the university’s standing in agricultural and genetic sciences. With his innovative approach and dedication, Dr. Li continues to lead impactful studies that enhance livestock productivity and genetic research methodologies. 🚀

 

🧬 Research Focus

Assoc. Prof. Dr. Cong Li specializes in animal molecular quantitative genetics, focusing on the genetic basis of economically significant traits in dairy goats 🐐. His work emphasizes milk fatty acid metabolism, protein synthesis, and lipid traits, supported by cutting-edge research in mammary epithelial cells 🧪. Dr. Li explores pathways like AKT/PPARG and mTOR signaling, addressing advancements in goat breeding technologies and livestock productivity 🚜. His studies also delve into gene expression, microbial diversity, and the genetic regulation of milk quality traits, benefiting both dairy goats and Holstein cattle 🥛. This impactful research ensures sustainable and high-quality dairy production 🌱.

 

Publication Top Notes 📚

  • TRIB3 suppresses milk fatty acids metabolism by inhibiting p‐AKT/PPARG signaling in goat mammary epithelial cells (2024) 🐐🥛| DOI: 10.1002/aro2.98
  • Leucine-Mediated SLC7A5 Promotes Milk Protein and Milk Fat Synthesis through mTOR Signaling Pathway in Goat Mammary Epithelial Cells (2024) 🐐💪 | DOI: 10.1021/acs.jafc.4c02087
  • Effect of Algae Supplementation on the Gene Expression of Liver Lipid Metabolism in Dairy Goat Bucks (2024) 🐐🍃 | Cited by: N/A | DOI: 10.3390/agriculture14050685
  • Genetics and Production of Safe, High-Quality Milk by Dairy Cattle (2023) 🐄🧀| DOI: 10.3390/agriculture13071348
  • Scd1 Deficiency in Early Embryos Affects Blastocyst ICM Formation through RPs-Mdm2-p53 Pathway (2023) 🧬👶| DOI: 10.3390/ijms24021750
  • Comparison of microbial diversity in rumen and small intestine of Xinong Saanen dairy goats using 16S rRNA gene high-throughput sequencing (2021) 🦠🐐| DOI: 10.1071/AN20459
  • Identification and characterization of putative ovarian lincRNAs in dairy goats treated for repeated estrous synchronization (2020) 🐐💉| DOI: 10.1016/j.anireprosci.2020.106537
  • Identification of genetic effects and potential causal polymorphisms of CPM gene impacting milk fatty acid traits in Chinese Holstein (2020) 🐄| DOI: 10.1111/age.12936
  • Role of peroxisome proliferator-activated receptor-α on the synthesis of monounsaturated fatty acids in goat mammary epithelial cells (2020) 🐐🧴| DOI: 10.1093/jas/skaa062
  • Association of UDP-galactose-4-epimerase (GALE) with milk protein concentration in the Chinese Holstein population (2020) 🐄🧀| DOI: 10.5713/ajas.19.0549

Sumita Roy | Biophysical Chemistry | Best Researcher Award

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Dr. Sumita Roy | Biophysical Chemistry | Best Researcher Award

Dr. Sumita Roy, Vidyasagar University, India

Dr. Sumita Roy is a Professor in the Department of Chemistry at Vidyasagar University, West Bengal, India. She holds a Ph.D. in Biophysical Chemistry from IIT Kharagpur, where she worked under Prof. Joykrishna Dey. Her research focuses on designing and synthesizing functional amphiphiles to form supramolecular self-assemblies like gels, vesicles, and metal nanoparticles, with applications in various scientific fields, including biomedicine. Dr. Roy has published extensively, with over 30 research papers in high-impact journals. She has received numerous accolades, including the GATE, UGC/CSIR-NET, and SLET qualifications. 🌟🔬📚

 

Publication Profile

Google Scholar

Education

Dr. Sumita Roy completed her B.Sc. in Chemistry (Hons) in 1998 and M.Sc. in Physical Chemistry (Specialization) in 2000, both from Vidyasagar University, West Bengal, India. She pursued her Ph.D. in Biophysical Chemistry at the prestigious Indian Institute of Technology (IIT) Kharagpur, under the guidance of Prof. Joykrishna Dey. Dr. Roy received her Ph.D. in August 2005, focusing on the spontaneous vesicle formation and self-organization of chiral amino acid-derived surfactants and polysoaps in water. Her strong educational foundation has shaped her career in research and academia. 🌟📚🧪

 

Awards and Achievements

Dr. Sumita Roy has earned several prestigious recognitions throughout her academic journey. She qualified for the GATE exam in both 2000 and 2001, showcasing her expertise in chemistry. Additionally, Dr. Roy successfully cleared the UGC/CSIR-NET in 2001 and the SLET exam in the same year, further cementing her academic prowess. In 1995, she was honored with a National prize, highlighting her early accomplishments in the field. These accolades reflect her dedication and exceptional skills in chemistry, contributing to her successful academic and research career. 🌟📜🎓

 

Research Interests

Dr. Sumita Roy’s research focuses on the design and synthesis of specialized functional amphiphiles that form supramolecular self-assemblies, such as gels, vesicles, and metal nanoparticles. These self-assemblies are crucial in various scientific fields, spanning from surfactant chemistry to biomedicinal applications. Dr. Roy’s work explores how these structures can be employed in versatile domains, contributing to innovations in material science and biomedical technologies. Her research aims to unlock new possibilities for sustainable solutions in both industrial and healthcare applications. 🧪💡🔬💊

 

Publication Top Notes  

  • Spontaneously Formed Vesicles of Sodium N-(11-Acrylamidoundecanoyl)-glycinate and l-Alaninate in Water – S Roy, J Dey, Langmuir 21 (23), 10362-10369 (Cited by 81) 📚 (2005)
  • Microviscosity of Bilayer Membranes of Some N-acylamino Acid Surfactants – S Roy, A Mohanty, J Dey, Chemical Physics Letters 414 (1-3), 23-27 (Cited by 81) 🔬 (2005)
  • Effect of Hydrogen-Bonding Interactions on Self-Assembly of Sodium N-(11-acrylamidoundecanoyl)-l-serinate – S Roy, J Dey, Journal of Colloid and Interface Science 307 (1), 229-234 (Cited by 51) 🧪 (2007)
  • Cationic Vesicles as Chiral Selector for Enantioseparations of Nonsteroidal Anti-Inflammatory Drugs – J Dey, A Mohanty, S Roy, D Khatua, Journal of Chromatography A 1048 (1), 127-132 (Cited by 51) 🧑‍🔬 (2004)
  • Self-Organization and Microstructures of Sodium 11-Acrylamidoundecanoate in Water – S Roy, J Dey, Langmuir 19 (23), 9625-9629 (Cited by 49) 🌊 (2003)
  • Synthesis and Characterization of Biogenic Metal Nanoparticles and its Cytotoxicity – P Maity, M Bepari, A Pradhan, R Baral, S Roy, SM Choudhury, Colloids and Surfaces B: Biointerfaces 161, 111-120 (Cited by 38) 🏅 (2018)
  • Characterization of Polymeric Vesicles of Poly (Sodium 11-Acrylamidoundecanoate) in Water – RR Nayak, S Roy, J Dey, Colloid and Polymer Science 285, 219-224 (Cited by 38) 🔬 (2006)
  • Giant Vesicles of a Single-Tailed Chiral Cationic Surfactant in Water – S Roy, D Khatua, J Dey, Journal of Colloid and Interface Science 292 (1), 255-264 (Cited by 35) 🌟 (2005)
  • Small Colony Variants of Staphylococcus aureus in Infective Endocarditis – S Bhattacharyya, S Roy, PK Mukhopadhyay, K Rit, JB Dey, U Ganguly, Iranian Journal of Microbiology 4 (2), 98 (Cited by 32) 🦠 (2012)
  • Spontaneous Formation of Vesicles by Sodium 2-Dodecylnicotinate in Water – A Roy, M Maiti, S Roy, Langmuir 28 (35), 12696-12703 (Cited by 31) 🌊 (2012)

 

kiana peyvandi | Thermodynamic Modeling | Best Researcher Award

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Assoc Prof Dr. kiana peyvandi | Thermodynamic Modeling | Best Researcher Award

Assoc Prof Dr. kiana peyvandi, semnan university, Iran

Kiana Peyvandi is an Associate Professor in the Department of Chemical Engineering at Semnan University, Iran. Born on January 23, 1978, she earned her BSc from Amirkabir University (2000), MS from Mazandaran University (2005), and PhD from Tarbiat Modares University (2012). Her research focuses on thermodynamic modeling, gas hydrates, and water treatment technologies. She has held significant positions, including Vice-Chancellor for Research and Technology (2018-2023). With numerous publications in reputable journals, her work contributes to advancements in chemical engineering. 📚🔬✏️

Publication profile

Google Scholar

Education

Assoc. Prof. Dr. Kiana Peyvandi holds a distinguished academic background in Chemical Engineering. She earned her BSc from Amirkabir University, Iran, in 2000, followed by a Master’s degree from Mazandaran University in 2005. She completed her PhD at Tarbiat Modares University in 2012, specializing in various aspects of chemical engineering, including thermodynamics and hydrate formation. Her extensive education has laid a strong foundation for her research and teaching, significantly contributing to advancements in her field. 📚🔬✏️

 

Employment History

Assoc. Prof. Dr. Kiana Peyvandi has a robust employment history in the field of Chemical Engineering. She began her academic career as an Assistant Professor at Semnan University from 2013 to 2020, where she contributed significantly to teaching and research. In 2020, she advanced to the role of Associate Professor in the same faculty. Additionally, Dr. Peyvandi served as the Executive Director of the Chemical Engineering group from 2014 to 2018 and held the position of Vice-Chancellor for Research and Technology from 2018 to 2023, demonstrating her leadership and commitment to advancing engineering education. 🎓🔧🌟

 

Research Experiences

Assoc. Prof. Dr. Kiana Peyvandi has extensive research experience in Chemical Engineering, focusing on thermodynamic modeling and experimental investigations. Her work includes studying the scaling in oil pipelines and the effects of new promoters on methane hydrate formation. She has explored the kinetics of hydrate formation in porous media and optimized the recovery of methane through eco-friendly processes. Additionally, Dr. Peyvandi has investigated surfactant solutions for drug delivery, novel applications of zeolite, and innovative methods for water harvesting from fog and humid air. Her research contributes significantly to both energy efficiency and environmental sustainability. 🌍🔬💧

 

Conclusion

Dr. Kiana Peyvandi’s combination of academic achievements, leadership experience, and innovative research makes her a highly suitable candidate for the Research for Best Researcher Award. Her work not only contributes to the advancement of chemical engineering but also addresses pressing global challenges, positioning her as a leader in her field.

 

Publication Top Notes

  • Molecular dynamics simulation of methane hydrate formation in presence and absence of amino acid inhibitors – Cited by: 66, Year: 2018 📄
  • Kinetic study of amino acids inhibition potential of glycine and l-leucine on the ethane hydrate formation – Cited by: 54, Year: 2015 🧪
  • Electrolyte-UNIQUAC-NRF model for the correlation of the mean activity coefficient of electrolyte solutions – Cited by: 49, Year: 2009 🌊
  • Study of biosurfactant effects on methane recovery from gas hydrate by CO2 replacement and depressurization – Cited by: 46, Year: 2020 🔋
  • Reconsideration of the micellization theory: Promotion or inhibition of gas hydrate formation for gas storage and flow assurance applications – Cited by: 42, Year: 2022 📊
  • Challenges and advantages of using environmentally friendly kinetic gas hydrate inhibitors for flow assurance application: A comprehensive review – Cited by: 41, Year: 2023 🌱
  • Modeling the viscosity of pure imidazolium-based ionic liquids using SAFT-VR-Mie EoS – Cited by: 39, Year: 2015 📏
  • Renewable biosurfactants for energy-efficient storage of methane: An experimental and computational investigation – Cited by: 33, Year: 2022 🔍
  • Role of metallic porous media and surfactant on kinetics of methane hydrate formation and capacity of gas storage – Cited by: 33, Year: 2019 ⚙️
  • Modeling of volatile organic compounds removal from water by pervaporation process – Cited by: 33, Year: 2008 🚰

Laura Prosdocimi | Biochemistry | Women Researcher Award

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Dr. Laura Prosdocimi | Biochemistry | Women Researcher Award

Dr. Laura Prosdocimi, CONICET, Argentina

Dr. Laura Prosdocimi appears to be a strong candidate for the Research for Women Researcher Award. Here’s a detailed analysis based on her qualifications and contributions:

Publication profile

Google Scholar

Education 

Dr. Prosdocimi earned her PhD in Biology from the Faculty of Exact and Natural Sciences (UBA) in 2012, focusing on the molecular and morphometric characterization of Argentine sea turtle populations. She also holds a degree in Biological Sciences (Ecological Orientation) from UBA and a technical chemistry diploma. Her foundational education and early career set a solid groundwork for her research in marine biology and conservation.

Research Experience

Dr. Prosdocimi’s current role as an Assistant Researcher at the Laboratory of Ecology, Behavior, and Marine Mammals (LECyMM) at the Museo Argentino de Ciencias Naturales (MACN-CONICET) demonstrates her ongoing commitment to marine research. She has been involved in significant projects related to the impact of fisheries on sea turtles and the development of new monitoring tools for marine protected areas.

Professional Experience

Her professional background includes extensive experience in fisheries management and conservation. From 2013 to 2022, she worked with the Argentine Ministry of Production and Labor, where she advanced through various roles, including Coordinator of Fisheries Management. Her work involved developing national action plans for marine species and participating in international scientific committees, which highlights her leadership and impact in the field.

Contributions and Leadership

Dr. Prosdocimi has significantly contributed to the scientific community through her involvement in organizing and participating in numerous international symposia and scientific committees related to marine turtles. Her roles in the Red ASO-Tortugas and the IUCN Specialist Group emphasize her leadership and influence in global marine conservation efforts.

Teaching and Mentorship

She has also contributed to academia by supervising doctoral and master’s theses focused on marine conservation and fisheries management. Her mentorship of emerging researchers underscores her commitment to advancing the field through education and training.

Publication Top Notes

  • Pan-Atlantic analysis of the overlap of a highly migratory species, the leatherback turtle, with pelagic longline fisheries 🌍🐢
    Cited by: 117 | Year: 2014
  • Genetic composition of green turtle feeding grounds in coastal waters of Argentina based on mitochondrial DNA 🧬🐢
    Cited by: 102 | Year: 2012
  • Argentinian coastal waters: A temperate habitat for three species of threatened sea turtles 🐢🌊
    Cited by: 101 | Year: 2011
  • Categorización del estado de conservación de las tortugas de la República Argentina 📊🐢
    Cited by: 81 | Year: 2012
  • Insights on leatherback turtle movements and high use areas in the Southwest Atlantic Ocean 🌊🧭
    Cited by: 74 | Year: 2009
  • Atlantic leatherback migratory paths and temporary residence areas 🌐🐢
    Cited by: 68 | Year: 2010
  • First evidence of leatherback movement from Africa to South America 🌍➡️🌎
    Cited by: 49 | Year: 2006
  • Distribution of megafaunal species in the Southwestern Atlantic: key ecological areas and opportunities for marine conservation 🐋🌊
    Cited by: 35 | Year: 2016
  • El impacto generado por las pesquerías en las tortugas marinas en el Océano Atlántico sud occidental 🐢🎣
    Cited by: 30 | Year: 2006
  • Multiple-threats analysis for loggerhead sea turtles in the southwest Atlantic Ocean ⚠️🐢
    Cited by: 28 | Year: 2020


Conclusion

Dr. Laura Prosdocimi’s extensive experience, significant contributions to marine research, leadership in conservation efforts, and dedication to mentoring make her a highly suitable candidate for the Research for Women Researcher Award. Her work aligns well with the award’s goals of recognizing outstanding female researchers who have made significant impacts in their fields.

Thi Sinh Vo | Materials Science | Best Researcher Award | 11208

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Dr. Thi Sinh Vo | Materials Science | Best Researcher Award

Dr. Thi Sinh Vo, Sungkyunkwan University, South Korea

Dr. Thi Sinh Vo is a well-qualified candidate for the “Best Researcher Award” based on her impressive academic background, extensive research experience, and significant contributions to engineering, materials science, and environmental solutions. Below is an analysis of her suitability for the award:

Profile

Google Scholar

Academic Background

Dr. Thi Sinh Vo completed her Ph.D. in Mechanical Engineering at Sungkyunkwan University, South Korea, with a high GPA of 3.95/4.5. Her thesis focused on “Chitosan-Based Functional Composites for Organic Dye Adsorption and Piezoresistive Sensing,” showcasing her expertise in material synthesis and characterization. She also holds a Master’s degree in Chemical Engineering from Daegu University, South Korea, and a Bachelor’s degree in Materials Science from HCM City University of Science, Vietnam National University. Her diverse educational qualifications provide a solid foundation for interdisciplinary research.

Awards and Achievements

Dr. Vo has received numerous prestigious awards, including the Best Paper Award in Progress in Natural Science: Materials International (2022) and the Best Researcher Award at the International Popular Scientist Awards (2024). Her work has also been recognized with an Outstanding Paper Award at the Nano Convergence Special Session (2022) and a Cover Page Article in ACS Applied Bio Materials (2022). Such accolades reflect her standing as an innovative and highly regarded researcher.

Research Experience

Dr. Vo’s research experience spans various areas, including designing composite membranes for environmental applications like dye removal, flexible materials for human motion sensing, and nanocomposites for biosensors. She has contributed to significant projects under the National Research Foundation of Korea and worked collaboratively with interdisciplinary teams. Her ability to mentor graduate students and lead projects further demonstrates her leadership and contribution to academia.

Work Experience

In addition to her academic and research accomplishments, Dr. Vo has practical experience as a Chemical Engineer in the manufacturing industry, optimizing processes in footwear production, developing water-based adhesives, and training workers in plastic and injection molding techniques. This blend of academic excellence and industry experience enhances her candidacy for the Best Researcher Award.

Skills and Professional Activities

Dr. Vo is skilled in operating advanced instruments for material analysis and has published widely in international journals. She actively serves as a reviewer for leading journals like Journal of Cleaner Production and Biomaterials Advances, highlighting her influence in the scientific community.

Research Interests

Her research interests include functional composites and structures, electromechanical sensors, biosensing, and water treatment for organic dye removal. This aligns with critical areas of global concern, positioning her research as impactful and timely.

 

✍️Publication Top Notes

  • Heavy metal removal applications using adsorptive membranes (TS Vo, MM Hossain, HM Jeong, K Kim) – Nano Convergence 7 (1), 36 – Cited by: 183 📆 2020
  • Recycling performance of graphene oxide-chitosan hybrid hydrogels for removal of cationic and anionic dyes (TS Vo, TTBC Vo, JW Suk, K Kim) – Nano Convergence 7 (1), 1-11 – Cited by: 66 📆 2020
  • Enhancement of water absorption capacity and compressibility of hydrogel sponges prepared from gelatin/chitosan matrix with different polyols (TS Vo, TTBC Vo, TT Tran, ND Pham) – Progress in Natural Science: Materials International 32 (1), 54-62 – Cited by: 29 📆 2022
  • Turmeric (Curcuma longa L.): Chemical components and their effective clinical applications (TS Vo, TTBC Vo, TTTN Vo, TNH Lai) – Journal of the Turkish Chemical Society Section A: Chemistry 8 (3), 883-898 – Cited by: 21 📆 2021
  • Graphene Oxide–Chitosan Network on a Dialysis Cellulose Membrane for Efficient Removal of Organic Dyes (TS Vo, MM Hossain, TG Lim, JW Suk, S Choi, K Kim) – ACS Applied Bio Materials 5 (6), 2795-2811 – Cited by: 19 📆 2022
  • Organic dye removal and recycling performances of graphene oxide-coated biopolymer sponge (TS Vo, TTBC Vo) – Progress in Natural Science: Materials International 32 (5), 634-642 – Cited by: 18 📆 2022
  • Incorporation of hydroxyapatite in crosslinked gelatin/chitosan/poly(vinyl alcohol) hybrids utilizing as reinforced composite sponges, and their water absorption ability (TS Vo, TTBC Vo, TS Nguyen, ND Pham) – Progress in Natural Science: Materials International 31 (5), 664-671 – Cited by: 17 📆 2021
  • Graphene oxide-covered melamine foam utilizing as a hybrid foam toward organic dye removal and recyclability (TS Vo, TTBC Vo) – Progress in Natural Science: Materials International 32 (3), 296-303 – Cited by: 16 📆 2022
  • Modification of the Interfacial Glass Fiber Surface Through Graphene Oxide-Chitosan Interactions for Excellent Dye Removal as an Adsorptive Membrane (TS Vo, MM Hossain, TG Lim, JW Suk, S Choi, K Kim) – Journal of Environmental Chemical Engineering 10 (6), 108965 – Cited by: 13 📆 2022
  • Crosslinked 3D porous composite foams as adsorbents for efficient organic dye removal (TS Vo, MM Hossain, J Lee, J Suhr, K Kim) – Environmental Technology & Innovation 29, 102986 – Cited by: 11 📆 2023

Conclusion

Dr. Thi Sinh Vo’s exceptional academic achievements, groundbreaking research, industry experience, and numerous awards make her an ideal candidate for the Best Researcher Award. Her contributions to material science, environmental solutions, and biosensing technologies highlight her as a forward-thinking and impactful researcher.