Sheng Bing Wang | Analytical Chemistry | Best Researcher Award

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Mr. Sheng Bing Wang | Analytical Chemistry | Best Researcher Award

Mr. Sheng Bing Wang, Gansu Agricultural University, China

Mr. Sheng-bing Wang is a dedicated researcher at Gansu Agricultural University, specializing in natural product separation and analytical chromatography. He earned his Bachelor’s degree in Applied Chemistry (2018) and Master’s degree in Chemistry (2022) from the same institution. Wang has contributed to high-impact journals with two notable publications: one on Glabridin separation using high-speed countercurrent chromatography and another on maslinic and oleanolic acids separation, highlighting their antibacterial activities. His work demonstrates proficiency in innovative chromatography techniques. Sheng-bing is committed to advancing analytical chemistry and separation science. 🌟🔬

Publication Profile

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Academic and Professional Background

Mr. Sheng-bing Wang is an accomplished researcher with a strong foundation in Applied Chemistry and Chemistry. He completed his Bachelor’s degree in Applied Chemistry from Gansu Agricultural University in 2018, followed by a Master’s degree in Chemistry from the same institution in 2022. Throughout his academic journey, Wang has focused on the separation and analysis of natural products and analytical chromatography. His research work has been published in prestigious journals, showcasing his expertise in innovative techniques for natural product separation. Wang’s academic background demonstrates his commitment to advancing analytical chemistry. 🌱📚

 

Areas of Research

Mr. Sheng-bing Wang’s research focuses on the separation and analysis of natural products, a field that combines his expertise in analytical chemistry and chromatography. His work primarily explores innovative techniques to separate valuable bioactive compounds from natural sources, which are essential for various applications in pharmaceuticals and natural product industries. Wang has applied advanced high-speed countercurrent chromatography to enhance the efficiency and selectivity of separation processes. His research is vital in advancing analytical methods for natural product isolation, contributing to a deeper understanding of bioactive substances and their potential benefits. 📊🧪

 

Publications

  • Comparison of Different High-Speed Countercurrent Chromatography Injection Modes for the Separation of Glabridin (2024) – Journal of Separation Science 🧪
  • Effective Separation of Maslinic Acid and Oleanolic Acid from Olive Pomace Using High-Speed Shear Off-line Coupled with High-Speed Countercurrent Chromatography and Their Antibacterial Activity Test (2024) – Journal of Chromatography B 🌿

 

Tunzeel Iqbal | Analytical chemistry | Women Researcher Award

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Dr. Tunzeel Iqbal | Analytical chemistry | Women Researcher Award

Dr. Tunzeel Iqbal, Rawalpindi women university, Pakistan

Dr. Tunzeel Iqbal is a dedicated academic and researcher in chemistry, currently serving as a Lecturer at The Rawalpindi Women University. She holds a PhD from the University of Sargodha and has previously taught at the University of Education and the school education department. Dr. Iqbal has organized multiple international conferences and workshops, emphasizing her leadership in the scientific community. She is also a reviewer for prestigious journals and has presented her research at various conferences. With a strong commitment to promoting innovative research, she continues to inspire future scientists. 📚🔬🌍

Publication profile

Google Scholar

Academic Qualification 🎓

Dr. Tunzeel Iqbal holds a PhD in Chemistry from the University of Sargodha (2021) with a GPA of 3.35/4. She earned her MS in Chemistry from the University of the Punjab (2011) with an impressive GPA of 3.85/4 and her BS in Chemistry from the same university (2009), securing a GPA of 3.86/4. Her solid academic background establishes her as a capable researcher in her field.

Professional Qualification 💼

In addition to her academic credentials, Dr. Tunzeel completed B.Ed in 2012 and M.Ed in 2013, further enhancing her teaching qualifications. These degrees have equipped her with both theoretical and practical knowledge to effectively engage in academia.

Research Work 🔬

Dr. Tunzeel’s research focuses on environmental remediation, particularly using biochar and hematite-based nanomaterials for removing toxic metals from industrial effluents. Her PhD research aligns with global environmental challenges, and she has demonstrated seven years of research experience, spanning BS, MS, and PhD projects, as well as mentoring BS and MPhil students.

 

Work Experience 🏫

Dr. Tunzeel is currently a Lecturer in Chemistry at The Rawalpindi Women University, with experience as an Assistant Professor on a visiting basis and a decade-long teaching background. Her experience in both secondary and higher education underscores her dedication to teaching and mentoring young researchers.

Publication Top Notes  

  • Removal of Chromium on Polyalthia longifolia Leaves Biomass – Cited by 34 – 2011 🌿
  • Utilization of a newly developed nanomaterial based on loading of biochar with hematite for the removal of cadmium ions from aqueous media – Cited by 8 – 2021 ⚗️
  • Development of Ion Character Property Relationship (IC-PR) for Removal of 13-Metal Ions by Employing a Novel Green Adsorbent Aerva javanica – Cited by 3 – 2022 📊
  • Artificial neural network (ANN) approach for modeling of methyl orange adsorption by Syzygium cumini seed coat – Cited by 2 – 2021 🤖
  • Exploration of haematite-loaded rice husk biochar as a low-cost nanosorbent to remove Cr (III) from the aqueous media – Cited by 1 – 2023 🌾
  • Determination of Iodide, Iodate, Dichromate, Bismuth (III) and Hydrogen Peroxide Through Spot Tests Quantification by Computational Image Scanning Densitometry – Cited by 1 – 2015 🧪
  • Metal adsorption equilibrium response of iron oxide nanoparticles embedded on Acacia (Vachellia nilotica) wood waste under different parametric conditions  2024 🌍
  • Error Analysis Based on Isothermal Study Performed for Adsorption of Cr (III) with Hematite Nanosorbent Loaded on Rice Husk Biochar2023 📉
  • SACCHARUM MUNJA DERIVED BIOCHAR LOADED WITH HEMATITE NANOMATERIAL FOR REMEDIATION OF CHROMIUM (III) FROM AQUEOUS ENVIRONMENT: ISOTHERMAL, ERROR ANALYSIS, KINETIC AND …  2023 🧬


Conclusion

Dr. Tunzeel Iqbal is a highly qualified and experienced researcher, making significant contributions to environmental chemistry, particularly in metal remediation. Her academic achievements, research output, and leadership roles make her a strong candidate for the Research for Women Researcher Award.

 

 

 

Chryslaine Rodríguez-Tanty | Chemistry Award | Best Researcher Award

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Mrs. Chryslaine Rodríguez-Tanty | Chemistry Award | Best Researcher Award

Mrs. Chryslaine Rodríguez-Tanty, Centro de Neurociencias de Cuba, Cuba

Mrs. Chryslaine Rodríguez-Tanty is a prominent researcher focused on Alzheimer’s disease and neurodegeneration. She is known for her work on Amylovis-201, a dual-target ligand that acts as an anti-amyloidogenic compound and a potent σ1 receptor agonist. Her research demonstrates Amylovis-201’s effectiveness in inhibiting Aβ peptide aggregation and its neuroprotective effects through σ1 receptor activation. Chryslaine’s contributions are pivotal in developing innovative therapies for neurodegenerative diseases. 🧠💊🔬

Publication profile

Scopus

Google Scholar

Research Focus

Chryslaine Rodríguez-Tanty is primarily focused on the development of therapeutic agents targeting neurodegenerative diseases and other conformational disorders. Her work includes the study of amyloid structures, drug discovery for Alzheimer’s disease, and the development of chemical chaperones. She has also contributed to research on polymorphic amyloid structures in diabetes and the synthesis of peptide-oligonucleotide hybrids. Chryslaine’s research spans organic chemistry, biochemistry, and pharmacology, aiming to create innovative treatments for complex diseases. 🧬🧠💊🔬

Publication Top Notes

  • Drug development in conformational diseases: A novel family of chemical chaperones that bind and stabilise several polymorphic amyloid structures – PLoS One 10 (9), e0135292, 2015 (Cited by: 30) 🧬💊
  • Diabetes Drug Discovery: hIAPP1–37 Polymorphic Amyloid Structures as Novel Therapeutic Targets – Molecules 23 (3), 686, 2018 (Cited by: 27) 🩺🍬
  • [18F] Amylovis as a Potential PET Probe for β-Amyloid Plaque: Synthesis, in Silico, in vitro and in vivo Evaluations – Current Radiopharmaceuticals 12 (1), 58-71, 2019 (Cited by: 17) 🧠🔬
  • Alternative Procedures for the Synthesis of Methionine‐Containing Peptide− Oligonucleotide Hybrids – European Journal of Organic Chemistry 2000 (13), 2495-2500, 2000 (Cited by: 16) 🧬🧪
  • A new naphthalene derivative with anti-amyloidogenic activity as potential therapeutic agent for Alzheimer’s disease – Bioorganic & Medicinal Chemistry 28 (20), 115700, 2020 (Cited by: 14) 🧠💊
  • Use of a chimeric synthetic peptide from the core p19 protein and the envelope gp46 glycoprotein in the immunodiagnosis of HTLV-II virus infection – Preparative Biochemistry and Biotechnology 33 (1), 29-38, 2003 (Cited by: 10) 🦠🧬
  • Introduction of an immunochemical label in a cytidine analogue – Nucleosides, Nucleotides & Nucleic Acids 14 (1-2), 219-228, 1995 (Cited by: 10) 🧪🔬
  • 2′, 3′-Didehydro-3′-deoxythymidine N-methyl-2-pyrrolidone solvate (D4T· NMPO) – Acta Crystallographica Section C: Crystal Structure Communications 56 (5), 2000 (Cited by: 9) 🔬🧬
  • Synthesis of 5-Methyl-2′-O-Deoxycytidine Analogs to Determine Monoclonal Antibody Specificity in the Recognition of the 6-(p-Bromobenzoylamino) Caproyl – Nucleosides & Nucleotides 16 (4), 455-467, 1997 (Cited by: 8) 🧪🔬
  • Identificación y caracterización in silico de la zona de interacción entre el péptido beta-amiloide y compuestos derivados del naftaleno – Revista CENIC. Ciencias Químicas 43, 2012 (Cited by: 7) 🧠🔍

Najmeh Nowrouzi | Organic Chemistry Award | Best Researcher Award

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Assoc Prof Dr. Najmeh Nowrouzi | Organic Chemistry Award | Best Researcher Award

Assoc Prof Dr. Najmeh Nowrouzi, Persian Gulf University, Iran

Dr. Najmeh Nowrouzi is an accomplished associate professor at Persian Gulf University, specializing in Organic Chemistry. She earned her Ph.D. from Shiraz University in 2008. With notable achievements including the Top Researcher awards in 2014 and 2016, her research spans phosphorus compounds, ionic liquids, and nanocompounds. Dr. Nowrouzi has a prolific publication record, contributing to numerous high-impact journals and conferences. Her work focuses on innovative chemical syntheses and catalysis, particularly involving organometallic chemistry and green chemistry approaches.

Publication profile:

Google scholar

Educational Background:

Dr. Najmeh Nowrouzi has had an extensive and rigorous academic journey. She completed her high school education at Tohid High School in Shiraz, Iran, in 1997. Following this, she pursued a Bachelor of Science in Chemistry at Shiraz University from 1998 to 2002, then continued at the same institution to earn her Master’s in Organic Chemistry between 2002 and 2004. Dr. Nowrouzi’s commitment to her field culminated in a Ph.D. in Organic Chemistry from Shiraz University, which she completed in 2008. 🎓🔬

Awards and Honors:

Dr. Nowrouzi has been recognized for her outstanding contributions to science. She was named the top researcher of the Faculty of Sciences at Persian Gulf University in 2014 and subsequently received the prestigious accolade of being the top researcher in Bushehr Province in 2016. 🏆🏅

Research Focus:

The research focus of N. Nowrouzi primarily lies in organic synthesis and catalysis, with a strong emphasis on green chemistry. 🧪🌿 The work involves developing novel methodologies for converting various functional groups, such as alcohols, thiols, and ethers, into valuable compounds like alkyl cyanides, azides, and nitriles using triphenylphosphine/2,3-dichloro-5,6-dicyanobenzoquinone systems. 🔄🔬 The research also explores efficient nitration techniques under neutral conditions, novel catalysts for cross-coupling reactions, and the use of ionic liquids and biodegradable polymers for sustainable chemical processes. 🌍🔋 This work aims to advance environmentally friendly practices in chemical synthesis and catalysis. ♻️🌟

Publication Top Notes: