Marzieh Sadeghi | Chemistry | Women Researcher Award

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Dr. Marzieh Sadeghi | Chemistry | Women Researcher Award

Assistant professor , Razi University,  Iran

Dr. Marzieh Sadeghi, an Assistant Professor in the Department of Analytical Chemistry at Razi University, has made significant contributions to the field of chemistry. Her research focuses on the development of sensors and nanomaterials for environmental and pharmaceutical applications, including the detection and removal of toxic metals and organic compounds. With numerous publications in high-impact journals, Dr. Sadeghi’s expertise spans optical and electrochemical sensors, nanoparticle synthesis, and solid-phase extraction techniques. She also holds leadership roles, such as Head of the Analytical Chemistry Department and advisor to the Iranian Chemical Society, showcasing her dedication to advancing the scientific community.

Publications Profile :

Scopus

Educational Records :

Dr. Sadeghi holds a Ph.D. in Analytical Chemistry from Razi University, where she focused on the preparation and characterization of sensors for metal ions and pharmaceutical compounds. She also completed her MSc in Analytical Chemistry from Shiraz University, where she specialized in designing optodes for pH measurement and metal detection. Her academic training is solid, with a strong foundation in chemistry, positioning her to make innovative research contributions.

Professional Experience :

Marzieh Sadeghi is an accomplished Assistant Professor in the Department of Analytical Chemistry at Razi University, where she has served as the Head of the Analytical Chemistry Department since January 2016. Her extensive teaching portfolio includes courses in General Chemistry, Physical Chemistry, and various Analytical Chemistry subjects at Razi University and Shiraz University. She has significantly contributed to research in optical and electrochemical sensors, nanotechnology, and environmental applications, resulting in numerous published papers. Her leadership roles in the Iranian Chemical Society further underscore her commitment to advancing the field of analytical chemistry and mentoring the next generation of scientists.

Research Contributions :

Marzieh Sadeghi’s research contributions in the field of analytical chemistry are distinguished by her innovative work in the development of advanced sensors and extraction techniques. Her pioneering studies on optical and electrochemical sensors for detecting heavy metals and pharmaceuticals have led to significant advancements in environmental monitoring and public health. Sadeghi’s extensive research on solid-phase extraction methods, coupled with nanotechnology applications, has facilitated the efficient removal of toxic metal ions from various matrices. Additionally, her numerous publications in reputable journals highlight her commitment to addressing critical challenges in analytical chemistry, reinforcing her status as a leading figure in her field.

 

Award And Recognition :

Dr. Marzieh Sadeghi has made significant contributions to the field of analytical chemistry, particularly in developing optical and electrochemical sensors. Her innovative research has garnered recognition in prestigious journals, including Talanta and Analytica Chimica Acta. As the Head of the Analytical Chemistry Department at Razi University, she has inspired countless students and fellow researchers. Her dedication to advancing the discipline and her role as an advisor for the Iranian Chemical Society exemplify her leadership within the scientific community. Dr. Sadeghi’s work has not only advanced scientific knowledge but has also positively impacted environmental sustainability and public health.

Hui-Qing Peng | Chemistry | Best Researcher Award

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Hui-Qing Peng | Chemistry | Best Researcher Award

Prof Hui-Qing Peng, Beijing University of Chemical Technology, China

Prof. Hui-Qing Peng’s extensive experience and research contributions, he appears to be a suitable candidate for the Best Researcher Award. Below is a detailed overview highlighting his qualifications, research fields, and notable publications.

Publication profile

google scholar

Education

  • Ph.D. in Organic Chemistry
    Supramolecular Photochemistry Research Group, Technical Institute of Physics and Chemistry (TIPC), Chinese Academy of Sciences (CAS), Beijing, China (Sept. 2012 – Jul. 2015)
  • Joint M.S. Student at TIPC, CAS (Aug. 2010 – Jul. 2012)
  • M.S. in Chemistry, Shantou University, Guangdong, China (Sept. 2009 – Jul. 2010)
  • B.S. in Chemistry, Qilu University of Technology, Jinan, China (Sept. 2005 – Jul. 2009)

Research Field

  • Supramolecular Photochemistry
  • Aerobic Photocatalysis
  • Photodynamic Therapy

Prof. Peng’s research focuses on innovative approaches in supramolecular photochemistry and photocatalysis, addressing critical issues in energy conversion and medical applications. His expertise in developing light-harvesting systems and exploring their biological applications demonstrates his commitment to advancing the field.

Publication top notes

Nickel–cobalt diselenide 3D mesoporous nanosheet networks supported on Ni foam: an all‐pH highly efficient integrated electrocatalyst for hydrogen evolution

Biological applications of supramolecular assemblies designed for excitation energy transfer

Iron vacancies induced bifunctionality in ultrathin feroxyhyte nanosheets for overall water splitting

Unconventional nickel nitride enriched with nitrogen vacancies as a high‐efficiency electrocatalyst for hydrogen evolution

Bioinspired simultaneous changes in fluorescence color, brightness, and shape of hydrogels enabled by AIEgens

Dramatic differences in aggregation-induced emission and supramolecular polymerizability of tetraphenylethene-based stereoisomers

Artificial light‐harvesting system based on multifunctional surface‐cross‐linked micelles

Conclusion

Prof. Hui-Qing Peng’s significant contributions to supramolecular photochemistry and photocatalysis, along with his strong publication record, establish him as a formidable candidate for the Best Researcher Award. His research not only pushes the boundaries of chemistry but also has meaningful implications for energy sustainability and medical applications.

 

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) 🧠🔍