Xintai Su | Environmental Science | Best Researcher Award

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šŸŒŸProf Dr. Xintai Su, Environmental Science, Best Researcher AwardšŸ†

Professor at South China University of Technology, Guangzhou, China, China

Professional Profiles:

Bio Summary:

Dr. Xintai Su, currently serving as a Professor and the Director of the “Base for International Science and Technology Cooperation” at the School of Environment and Energy, South China University of Technology, Guangzhou, China. With a solid background in Chemistry and Material Science, my expertise lies in the fields of Adsorption and Water Treatment, Solid Waste Treatment, and Resource Utilization, as well as Solid Waste Catalysis and its Applications.

Education:

B.S., Yili Normal College, Chemistry, 1995

M.S., Xinjiang University, Physical Chemistry, 2003

Ph.D., University of Science and Technology Beijing, Material Science, 2007

Research Focus:

My primary research interests include:

Adsorption and Water Treatment

Solid Waste Treatment and Resource Utilization

Solid Waste Catalysis and Its Applications

Professional Journey:

2007.3- Associate Professor, Xinjiang University

2011.11- Professor, Xinjiang University

2018.03-2018.6, Professor, Zhejiang Sci-Tech University

2018.6-now, Professor, South China University of Technology

2009.03-2010.03- Post Doctor, Seoul National University, Korea, sponsoring professor advisor-Hyeon TH.

2014.03-2015.03- Senior Visiting Scholar, Griffith University, Australia, sponsoring professor advisor-Huijun Zhao.

Honors & Awards:

Outstanding young talent, NSFC (Natural Science Foundation of China)- Joint fund of Xinjiang, 2016

The second prize, The Science and Technology Progress Award of Xinjiang, 2016

The second prize, The Invention Patent Award of Xinjiang, 2016

Publications Top Noted & Contributions:

Title: Removal of chromium from electroplating sludge by roasting-acid leaching and catalytic degradation of antibiotics by its residue
Authors: Zhou, Z., Zhang, L., Yan, B., …, Chu, S., Su, X.
Journal: Journal of Environmental Chemical Engineering, 2024, 12(1), 111754
Abstract: This study focuses on the removal of chromium from electroplating sludge using a roasting-acid leaching process. Additionally, the residue obtained is explored for its catalytic potential in the degradation of antibiotics. The research contributes to the understanding of effective waste management and the utilization of residues for environmental applications.

Title: Highly Efficient Adsorption of Pb(II) by Functionalized Humic Acid: Molecular Experiment and Theoretical Calculation
Authors: Xu, Q., Yan, Y., Jiao, Y., …, Yan, X., Su, X.
Journal: Materials, 2023, 16(23), 7290
Abstract: The article investigates the highly efficient adsorption of Pb(II) using functionalized humic acid. Both molecular experiments and theoretical calculations are employed to analyze the adsorption process. This work provides insights into sustainable water treatment methods.

Title: Study on adsorption of hexavalent chromium by composite material prepared from iron-based solid wastes
Authors: Qi, J., Li, B., Zhou, P., …, Wang, Z., Liang, X.
Journal: Scientific Reports, 2023, 13(1), 135
Abstract: The study explores the adsorption of hexavalent chromium using a composite material derived from iron-based solid wastes. The research contributes to the development of effective and environmentally friendly methods for hexavalent chromium removal.

Title: Recovery of carbon from spent carbon cathode by alkaline and acid leaching and thermal treatment and exploration of its application in lithium-ion batteries
Authors: Zhou, H., Zhang, D., Jiang, Y., …, Romanovski, V., Bi, R.
Journal: Environmental Science and Pollution Research, 2023, 30(53), pp. 114327ā€“114335
Abstract: The article discusses the recovery of carbon from spent carbon cathodes through alkaline and acid leaching, thermal treatment, and explores its potential application in lithium-ion batteries. This research contributes to the sustainable recovery and reuse of carbon-based materials.

Title: Solā€“gel synthesis and characterization of heterogeneous Fenton catalysts for enhanced carbamazepine degradation
Authors: Ivanets, A., Prozorovich, V., Ruzimuradov, O., …, Srivastava, V., SillanpƤƤ, M.
Journal: Journal of Sol-Gel Science and Technology, 2023, 108(2), pp. 325ā€“338
Abstract: The study presents the solā€“gel synthesis and characterization of heterogeneous Fenton catalysts aimed at enhancing carbamazepine degradation. The research contributes to the development of advanced catalysts for efficient pharmaceutical degradation in water treatment processes.

Author Metrics:

Citations: 6,329

Documents: 200

h-index: 43

Research Timeline:

2007: Started as an Associate Professor at Xinjiang University

2011: Promoted to Professor at Xinjiang University

2018: Temporary position as Professor at Zhejiang Sci-Tech University

2018: Joined South China University of Technology as a Professor

2009-2010: Post Doctoral Research at Seoul National University, Korea

2014-2015: Senior Visiting Scholar at Griffith University, Australia

Mohammad Ahmadi | Cardiovascular diseases | Best Researcher Award

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šŸŒŸDr. Mohammad Ahmadi, Tehran University of Medical Sciences, Iran: Cardiovascular diseasesšŸ†
Professional Profiles:
Bio Summary:

Dr. Mohammad Ahmadi is a dedicated and accomplished professional holding an MD-MPH degree from the School of Medicine at Tehran University of Medical Sciences (TUMS). With a background in Bioelectrical Engineering from Sharif University of Technology (SUT), Dr. Ahmadi has seamlessly merged his skills in medicine and engineering to contribute significantly to the field.

Education:
  • MD-MPH, School of Medicine, Tehran University of Medical Sciences, 2016ā€“2022
  • BSc in Bioelectrical Engineering, Sharif University of Technology, 2012ā€“2016
  • High School Diploma in Experimental Sciences, Physics, and Mathematics, 2008ā€“2012
Languages & Skills:

Dr. Ahmadi is proficient in Persian and English. His skills include leadership, team management, statistical analysis using Python, MATLAB, C, SPSS, scientific and grant writing, and expertise in clinical trials.

Research Focus:

Dr. Ahmadi is currently serving as a Research Fellow at the Osteoporosis Research Center, Endocrinology and Metabolism Research Institute, TUMS. His research interests span various domains, including osteoporosis, public health, and cardiovascular health. Notably, he has been involved in national cohort studies and has made significant contributions to bio-signal processing and image processing.

Professional Journey:
  • 2022ā€“Present: Research Fellow, Osteoporosis Research Center, TUMS
  • 2018ā€“2021: Researcher, Studentsā€™ Scientific Research Center, TUMS
  • 2014ā€“2016: Researcher, Advanced Communication Research Institute (ACRI), SUT
  • 2014ā€“2016: Research Assistant, Sharif University of Technology (SUT)
Honors & Awards:
  • Ranked 1st in the National University Entrance Exam (Konkour) in Experimental and Medical Sciences, 2016
  • Membership in the National Elites Foundation, Iran, 2016
  • Selected as a Doctoral Student Exceptional Talent, Ministry of Health and Medical Education, Iran, 2016
  • Top Rank in the International Signal Processing Competition, Australia, 2015
Publications Top Noted & Contributions:

Dr. Ahmadi has made notable contributions to scientific literature with several published and under-review papers. His research covers topics ranging from cardiovascular health to liver fibrosis and stress-related conditions. His work reflects a broad spectrum of interests and a commitment to advancing medical knowledge.

Title: Burden of Ischemic Heart Disease in the Middle East and North Africa (MENA) and Attributable Risk Factors: An Epidemiological Analysis from 1990 to 2019

Title: Liver Fibrosis in Pars Cohort Study: A Large-Scale Study on the Prevalence and Correlated Factors

Title: An Improved Algorithm for Heart Rate Tracking During Physical Exercise Using Simultaneous Wrist-Type Photoplethysmographic (PPG) and Acceleration Signals

  • Conference: 2016 23rd Iranian Conference on Biomedical Engineering and 2016 1st International Iranian Conference on Biomedical Engineering (ICBME)
  • Year: 2016
  • DOI: 10.1109/icbme.2016.7890946
  • Source: Mohammad Ahmadi
Author Metrics:

Dr. Ahmadi’s research output is reflected in his authorship of numerous peer-reviewed papers. His work demonstrates a commitment to rigorous scientific inquiry and a breadth of expertise in various medical and engineering disciplines.

Research Timeline:
  • Ongoing Main Projects:
    1. Burden of Osteoarthritis in Iran: A Thirty-Year Epidemiological Analysis
    2. Quality of Life Evaluation of Elderly Individuals with Type 2 Diabetes: A Nationwide Cohort Study
    3. Prevalence of Sarcopenia and Its Components in the Population Over 50: A Cross-Sectional Study

Bhawna Verma | Electrochemical Processes | Best Researcher Award

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šŸŒŸ Dr. Bhawna Verma, IIT(BHU) Varanasi : Electrochemical ProcessesšŸ†

šŸ‘Øā€šŸ«Dr.Bhawna Verma an Lecturer at IIT(BHU), Department of Nanotechnology , stands as a distinguished academic and researcher in the domain of EngineeringĀ . Holding a PhDĀ  from IIT(BHU) Varanasi, their professional journey exemplifies dedication and expertise. šŸ“š

Professional Profiles:

Employment :

Associate Professor atĀ  IIT BHU) Varanasi

Education :

PhDĀ  in IIT(BHU) Varanasi 2013,Ā  M.Tech. inĀ  IT BHU 2004, B.E. in NIT Raipur 2000

Journal Publications šŸ“‘

Her journal publications showcase a remarkable range of research, including studies on microbial cellulase production, graphene-based materials for supercapacitors, nanocomposites for heavy metal removal, and biohydrogen production strategies. These contributions span various prestigious journals and cover diverse aspects of materials science, energy, and environmental applications.

Conference Presentations šŸ—£ļø

Her presentations at international conferences reflect your expertise in biodiesel production, eco-friendly synthesis of graphene-based materials, and advancements in supercapacitor technologies. These presentations demonstrate her commitment to sharing knowledge and collaborating within your field.

Books Published/Chapters Contributed šŸ“š

Her contributions to books and chapters highlight your expertise in nanomaterials for supercapacitors, waste biomass utilization for energy production, and innovative materials for catalysis. These contributions showcase her breadth of knowledge and dedication to sharing insights within the academic community.

Sponsored Research Projects šŸ’”

Her involvement in various research projects funded by different organizations demonstrates a wide range of contributions to heat transfer studies, hydrogen production, materials synthesis, and the development of energy storage devices. These projects showcase Her multidisciplinary approach and substantial contributions to scientific advancements.

Dr. Bhawna Verma ā€˜s citation metrics and indices from Google Scholar are as follows:

šŸ“ŠĀ Citation Metrics (Google Scholar):

  • Cited by: All ā€“ 760, Since 2018 ā€“658
  • h-index: All ā€“ 15, Since 2018 ā€“ 15
  • i10-index : All -21 Since 2018 -21

Publication Top Noted:

Electrocoagulation study for the removal of arsenic and chromium from aqueous solutionĀ  Ā Paper Published in 2008Ā  Ā Cited by 100

Biodiesel production from hybrid non-edible oil using bio-support beads immobilized with lipase from Pseudomonas cepaciaĀ Ā  Ā Paper Published in 2019Ā  Ā  Cited by 58

Preparation and characterization of novel hybrid bio-support material immobilized from Pseudomonas cepacia lipase and its application to enhance biodiesel productionĀ  Ā Paper Published inĀ  2020Ā  Cited by 46

Experimental studies on thermal performance of a pulsating heat pipe with methanol/DI water Ā Paper Published inĀ  2013Ā  Cited byĀ  45

Antifouling behaviour of PVDF/TiO2Ā composite membrane: a quantitative and qualitative assessment Paper Published inĀ  2019Ā  Cited by 38

Synthesis of polymer composite based on polyaniline-acetylene black-copper ferrite for supercapacitor electrodes Paper Published in 2019 Cited by 34

Optimization of biodiesel synthesis from nonedible oil using immobilized bio-support catalysts in jacketed packed bed bioreactor by response surface methodology Paper Published inĀ  2020Ā  Cited by 33

Nanoarchitectonics of GO/PANI/CoFe2O4 (Graphene Oxide/polyaniline/Cobalt Ferrite) based hybrid composite and its use in fabricating symmetric supercapacitor devices Paper Published in 2022Ā  Cited by 31

Facile synthesis of graphene oxide-polyaniline-copper cobaltite (GO/PANI/CuCo2O4) hybrid nanocomposite for supercapacitor applications Paper Published in 2022Ā  Cited by 30

Polyaniline based ternary composite with enhanced electrochemical properties and its use as supercapacitor electrodesĀ  Paper Published inĀ  2019 Cited by 29

Bhawna VermaĀ  vast experience, expertise, and contributions to the field of ElectrochemicalĀ  ProcessesĀ , emphasizing a robust academic background and a strong commitment to research, education, and practical applications. šŸŒ±šŸŽ“