Assoc. Prof. Dr. MeryemKalkan Erdoğan at Ankara University, Turkey

Dr. Meryem Kalkan Erdoğan is an Associate Professor in the Department of Physical Chemistry at Ankara University. With a strong background in polymer chemistry, she specializes in functional textiles, conductive polymers, and nanomaterials. She has contributed to numerous national and international research projects, focusing on sustainable materials and innovative polymer modifications. Dr. Erdoğan has supervised graduate students, authored multiple high-impact journal articles, and actively collaborates with leading scientists in her field. As a dedicated researcher and educator, she continues to explore novel applications of polymer-based materials, emphasizing their use in catalysis, textile engineering, and biomedical applications.

Publication Profile

Google Scholar

Academic Background📚🎓

Dr. Meryem Kalkan Erdoğan obtained her PhD in Chemistry from Ankara University in 2017, focusing on modifying polyester fabrics for improved dyeability. She completed her Master’s degree in Chemistry at Ankara University in 2011, researching conductive polymer composites for electromagnetic shielding. She earned her Bachelor’s degree in Chemistry from Gazi University in 2008. Her academic journey has been dedicated to polymer chemistry, surface modification, and functional textiles. Her research integrates materials science and applied chemistry, contributing to the development of advanced functional materials with enhanced physical and chemical properties for industrial and scientific applications.

Professional background🏫🔬

Dr. Meryem Kalkan Erdoğan has been an Associate Professor at Ankara University since 2021, previously serving as a Research Assistant from 2009 to 2021. She has been actively involved in scientific research projects on polymer modification, nanotechnology, and textile chemistry. As a principal investigator and researcher, she has contributed to projects funded by TÜBİTAK and other national institutions. Her work focuses on polymer-based composites, catalysis, and smart textiles. She also teaches undergraduate and graduate courses in polymer chemistry and physical chemistry, mentoring students in research and scientific publications while fostering innovation in her field.

Awards and Honors🏆🎖

Dr. Meryem Kalkan Erdoğan has been recognized for her outstanding contributions to polymer chemistry and materials science. She has received multiple research grants and fellowships, including TÜBİTAK-funded projects and institutional scientific research grants. Her work on sustainable and functional textiles has earned her recognition in international journals and conferences. She is an active member of The Fiber Society, contributing to global advancements in fiber and polymer sciences. With numerous publications in high-impact journals, she continues to make significant strides in materials chemistry, earning accolades for her pioneering research in polymer composites and nanomaterials.

Research Focus🔬⚛️

Dr. Meryem Kalkan Erdoğan’s research centers on polymer chemistry, nanomaterials, and functional textiles. She specializes in modifying textile fibers with conductive polymers, metal nanoparticles, and sustainable materials for applications in catalysis, electromagnetic shielding, and biomedical uses. Her work also explores the development of antimicrobial fabrics, biodegradable nanofibers, and electrospun polymer composites. She has led and contributed to several national and international projects, collaborating with multidisciplinary teams to advance the field of smart and high-performance materials. Her studies aim to bridge fundamental polymer science with industrial applications, promoting sustainable and innovative material solutions.

Publication Top Notes

1️⃣ Preparation, characterization and electromagnetic shielding effectiveness of conductive polythiophene/poly (ethylene terephthalate) composite fibers ⚡🧵
📅 Year: 2012 | 📖 Cited by: 56 | 📚 Journal: Journal of Macromolecular Science, Part A

2️⃣ Polypyrrole and silver particles coated poly (ethylene terephthalate) nonwoven composite for electromagnetic interference shielding 🛡️🔬
📅 Year: 2018 | 📖 Cited by: 49 | 📚 Journal: Journal of Composite Materials

3️⃣ Preparation and stabilization of Ag nanoparticles with N-vinyl-2-pyrrolidone grafted-poly (vinyl alcohol) in an organic medium and investigation of their usability in the … ⚛️🧪
📅 Year: 2020 | 📖 Cited by: 16 | 📚 Journal: Colloid and Interface Science Communications

4️⃣ Preparation of hydrophilic woven fabrics: Surface modification of poly(ethylene terephthalate) by grafting of poly(vinyl alcohol) and poly(vinyl alcohol)‐g‐(N‐vinyl … 💧👕
📅 Year: 2020 | 📖 Cited by: 15 | 📚 Journal: Journal of Applied Polymer Science

Conclusion

Dr. Meryem Kalkan Erdoğan is a distinguished researcher in polymer chemistry, textile science, and nanotechnology, with a PhD in Chemistry from Ankara University. She has made significant contributions to smart textiles, conductive polymers, and sustainability through numerous high-impact publications in international journals such as ACS Applied Energy Materials and Industrial & Engineering Chemistry Research. As a principal investigator in multiple national and international projects funded by TÜBİTAK and the Ministry of Science, Industry, and Technology, she has demonstrated strong research leadership. Her mentorship of young researchers, particularly women in STEM, and her active engagement in scientific organizations like The Fiber Society further highlight her commitment to advancing scientific knowledge and fostering innovation. Her extensive academic background, groundbreaking research, and dedication to women in science make her an outstanding candidate for the Women Researcher Award.

Marzieh Sadeghi | Chemistry | Women Researcher Award

Posted on 23/10/202423/10/2024 by ScienceFather

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.

Conclusion :

Marzieh Sadeghi is a highly qualified candidate for the Research for Women Researcher Award, exemplifying excellence in analytical chemistry through her robust academic and research background. Her contributions to the development of innovative optical and electrochemical sensors highlight her commitment to addressing significant environmental and health issues. As the head of the Analytical Chemistry Department at Razi University, she actively mentors future scientists while promoting women’s roles in research. Sadeghi’s extensive publication record, encompassing various cutting-edge topics, demonstrates her impact in the field. Her achievements make her a deserving recipient of this prestigious award, inspiring others in scientific communities.

Publication Top Notes :

Efficient fluorescence probe for detection of naproxen in pharmaceutical formulations and water samples using MPA-capped CdTe/ZnS core-shell nanocrystal-neutral red: Experimental and computational studies 🧪 | Cited by: 1 | Year: 2024
Label-free electrochemical immunosensor based on antibody-immobilized Fe-Cu layered double hydroxide nanosheet as an electrochemical probe for the detection of ultra-trace amount of prostate cancer biomarker (PSA) 🧬 | Cited by: 8 | Year: 2023
Countercurrent Salting-out Homogenous Liquid-Liquid Extraction and Dispersive Liquid-Liquid Microextraction Based on the Solidification of Floating Organic Drop Followed by High-Performance Liquid Chromatography for the Isolation and Preconcentration of Pesticides from Fruit Samples 🍏 | Cited by: 1 | Year: 2023
Magnetic molecular imprinted polymers for in vitro controlled release and solid-phase extraction of dextromethorphan: synthesis, characterization, and application 🔬 | Cited by: 7 | Year: 2022
Magnetic solid-phase extraction using metal–organic framework-based biosorbent followed by ligandless deep-eutectic solvent-ultrasounds-assisted dispersive liquid–liquid microextraction (DES-USA-DLLME) for preconcentration of mercury (II) 🌍 | Cited by: 39 | Year: 2021
SBA-15/Metformin as a novel sorbent combined with surfactant-assisted dispersive liquid–liquid microextraction (SA-DLLME) for highly sensitive determination of Pb, Cd, and Ni in food and environmental samples 🍽️ | Cited by: 10 | Year: 2018
Efficient photocatalytic decolorization of methylene blue and victoria blue using reusable TiO2 magnetic nanocomposite modified with zinc under UV irradiation: Optimization via response surface methodology (RSM) 💧 | Cited by: 1 | Year: 2018
Biosorption of Pb(II) using Gundelia tournefortii: Kinetics, equilibrium, and thermodynamics ⚗️ | Cited by: 16 | Year: 2017
Simultaneous determination of ultra-low traces of lead and cadmium in food and environmental samples using dispersive solid-phase extraction (DSPE) combined with ultrasound-assisted emulsification microextraction based on the solidification of floating organic drop (UAEME-SFO) followed by GFAAS 🥘 | Cited by: 20 | Year: 2017
Removal of Arsenic (III) from naturally contaminated water using magnetic nanocomposite: kinetics and isotherm studies 💧 | Cited by: 1 | Year: 2016

Wei Lai | Chemistry | Best Researcher Award

Posted on 12/10/202412/10/2024 by ScienceFather

Dr. Wei Lai | Chemistry |Best Researcher Award

lecturer, Hubei University of Automotive Technology, China

Wei Lai, currently affiliated with Hubei University of Automotive Technology, is a seasoned researcher with an impressive publication record spanning various high-impact fields. The question of suitability for the Research for Best Researcher Award can be addressed by evaluating key factors such as publication metrics, research impact, and overall contribution to the scientific community.

Publication Profile

Scopus

Educational Background

Wei Lai completed his undergraduate studies at a prestigious institution, where he earned a Bachelor’s degree in Chemistry. He furthered his education by obtaining a Master’s degree in Chemical Engineering, focusing on nanotechnology applications. To deepen his expertise, he pursued a Ph.D. in Chemistry, specializing in nucleic acid-based biosensing systems. This strong educational foundation has equipped him with the necessary skills and knowledge to conduct innovative research in various interdisciplinary fields, contributing significantly to advancements in science and technology.

Professional Experience

Wei Lai has cultivated an impressive academic and research career at Hubei University of Automotive Technology since 2011. He has served in various capacities, including leading research projects focused on biosensing and DNA nanotechnology. His work has resulted in numerous high-impact publications in renowned journals, reflecting his commitment to advancing scientific knowledge. Additionally, Lai actively collaborates with interdisciplinary teams, enhancing research outcomes and fostering innovation in chemical engineering and biotechnology. His contributions have positioned him as a prominent figure in his field.

Research Contributions

Wei Lai’s research has been published in prestigious journals like Nature Communications, Chemical Reviews, Journal of the American Chemical Society, and Angewandte Chemie International Edition. His papers, such as “Rationally Engineered Nucleic Acid Architectures for Biosensing Applications,” have received significant attention, with 199 citations, indicating a high level of influence within the scientific community. His expertise in DNA nanotechnology and biosensing has practical applications in fields like drug delivery and diagnostics.

Recognition and Awards

Wei Lai has received numerous accolades for his exceptional contributions to the field of biosensing and DNA nanotechnology. His research has been recognized by prestigious journals and institutions, leading to awards that honor innovation and impact. With an H-index of 14 and over 800 citations in the last five years, Lai’s work demonstrates significant influence in the scientific community. His dedication to advancing knowledge has earned him respect among peers, establishing him as a leading researcher in his field.

Conclusion

Wei Lai is highly suitable for the Research for Best Researcher Award. His strong publication record, significant citation count, and contributions to high-impact, multidisciplinary research position him as a standout candidate. His work not only advances scientific understanding but also has practical implications, making him a deserving nominee for this prestigious award.

Publication Top Notes

Rapid Identification of Drug Mechanisms with Deep Learning-Based Multichannel Surface-Enhanced Raman Spectroscopy
- Authors: Sun, J., Lai, W., Zhao, J., Pei, H., Li, L.
- Year: 2024
- Citations: 0
Self-charging V2CTx/CNT-based zinc ion micro-supercapacitor for wearable electronics
- Authors: Wu, D., Zhao, S., Huang, T., Zhang, C., Ma, Y.
- Year: 2024
- Citations: 3
Cathode-Free Aqueous Micro-battery for an All-in-One Wearable System with Ultralong Stability
- Authors: Huang, T., Gao, B., Li, M., Ma, Y., Gao, Y.
- Year: 2024
- Citations: 0
Ensemble Modified Aptamer Based Pattern Recognition for Adaptive Target Identification
- Authors: Chen, J., Xiang, Y., Wang, P., Fan, C., Li, L.
- Year: 2022
- Citations: 3
DNA origami–based artificial antigen-presenting cells for adoptive T cell therapy
- Authors: Sun, Y., Sun, J., Xiao, M., Fan, C., Pei, H.
- Year: 2022
- Citations: 31
Nanoscale organization of two-dimensional multimeric pMHC reagents with DNA origami for CD8+ T cell detection
- Authors: Sun, Y., Yan, L., Sun, J., Fan, C., Pei, H.
- Year: 2022
- Citations: 23
Perovskite Mediated Vibronic Coupling of Semiconducting SERS for Biosensing
- Authors: Man, T., Lai, W., Zhu, C., Pei, H., Li, L.
- Year: 2022
- Citations: 21
Programming Receptor Clustering with DNA Probabilistic Circuits for Enhanced Natural Killer Cell Recognition
- Authors: Xiao, M., Lai, W., Yao, X., Fan, C., Li, L.
- Year: 2022
- Citations: 11
Nucleic Acid-Based Cell Surface Engineering Strategies and Their Applications
- Authors: Wu, Z., Xiao, M., Lai, W., Hu, Z., Pei, H.
- Year: 2022
- Citations: 12
Multi-Mode Reconfigurable DNA-Based Chemical Reaction Circuits for Soft Matter Computing and Control
- Authors: Tang, Q., Lai, W., Wang, P., Fan, C., Pei, H.
- Year: 2021
- Citations: Not specified in the provided information.

Zhuan Zhang | Chemistry | Best Researcher Award

Posted on 07/10/202408/10/2024 by ScienceFather

Zhuan Zhang | Chemistry | Best Researcher Award

Dr Zhuan Zhang ,Guangxi University, China

Dr. Zhuan Zhang’s research portfolio positions him as a strong contender for the Best Researcher Award.

Publication profile

orcid

Academic Background

Dr. Zhuan Zhang was born in Hunan, China, and received his Ph.D. from the University of Rennes in 2020. Under the mentorship of professors Pierre H. Dixneuf and Jean-François Soulé, he focused on the C–H functionalization of phosphine ligands. His rigorous training laid a solid foundation for his subsequent research endeavors. Notably, he also gained valuable international research experience during a visiting tenure at the Leibniz Institute for Catalysis, enriching his understanding of catalysis and synthesis.

Research Career

Dr. Zhuan Zhang was born in Hunan, China, and earned his Ph.D. from the University of Rennes in 2020, working under the esteemed guidance of Professors Pierre H. Dixneuf and Jean-François Soulé. His doctoral research focused on the C–H functionalization of phosphine ligands, a crucial area in organometallic chemistry. This foundational work set the stage for his subsequent contributions to green chemistry. Dr. Zhang also gained valuable international research experience at the Leibniz Institute for Catalysis, enriching his perspective on catalysis and sustainable practices.

Current Position and Research Focus

In 2021, Dr. Zhang commenced his independent research career at Guangxi University, where he has concentrated on green organic synthesis and catalysis. His commitment to sustainable practices in chemical synthesis aligns well with global efforts toward environmentally friendly chemistry. This focus not only highlights his innovative approach but also positions him as a leader in the field of catalysis.

Publication Record

To date, Dr. Zhang has published over 40 research papers and contributed a chapter to Wiley’s monograph, underscoring his prolific output and impact on the scientific community. His publications demonstrate a range of advanced research topics, reflecting his expertise and creativity in addressing complex chemical challenges.

Publication Top Notes

Ruthenium(II)-Catalyzed Remote C-H Sulfonylation of 2-Pyridones

Late-Stage Diversification of Biarylphosphines through Rhodium(I)-Catalyzed C–H Bond Alkenylation with Internal Alkynes

RhI -Catalyzed PIII -Directed C−H Bond Alkylation: Design of Multifunctional Phosphines for Carboxylation of Aryl Bromides with Carbon Dioxide

Iron-catalyzed carbonylative alkyl-acylation of heteroarenes

Metathesis Strategy for the Immobilization of Copper(II) onto Carboxymethylcellulose/Fe3O4 Nanohybrid Supports: Efficient and Recoverable Magnetic Catalyst for the CuAAC Reaction

Conclusion

Dr. Zhuan Zhang’s impressive academic trajectory, innovative research contributions, and extensive publication record position him as an exceptional candidate for the Best Researcher Award. His dedication to advancing green organic synthesis and catalysis reflects his commitment to addressing contemporary challenges in chemistry, making a significant impact in his field.

Hutaf Baker | Chemistry | Women Researcher Award

Posted on 08/08/202408/08/2024 by ScienceFather

Hutaf Baker | Chemistry | Women Researcher Award

Prof Hutaf Baker, al al-Bayt university, Jordan

Based on the extensive academic and research background provided, Prof. Hutaf Baker appears highly suitable for the Women Researcher Award.

Publication profile

google scholar

Education Background

Prof. Baker holds a Ph.D. in Analytical/Environmental Chemistry from the University of Jordan, with a focus on heavy metal ion complexation with humic acid—a significant environmental chemistry topic. Her academic foundation is solid, with both her M.Sc. and B.Sc. degrees also in Chemistry from the University of Jordan.

Research Experience

Prof. Baker’s research covers critical areas in environmental chemistry, particularly related to waste water treatment, adsorption properties of pollutants, and the interaction of heavy metals with natural minerals. Her work has led to numerous publications in respected journals, including studies on the thermodynamics and kinetics of metal ion binding, which are highly relevant to environmental protection and sustainability.

Teaching and Mentoring

Prof. Baker has extensive teaching experience, having developed and taught a wide range of undergraduate and graduate courses in analytical chemistry. Her contribution to course development, particularly in laboratory manuals, demonstrates her commitment to education and training future chemists.

Administrative Roles

Her leadership roles, including Head of the Chemistry Department and various committee memberships, showcase her ability to contribute to academic administration and governance, which is crucial for advancing research environments.

Publications and Recognitions

Prof. Baker’s publications in high-impact journals like Analytica Chimica Acta and Desalination, and her receipt of the Elsevier-Scopus Award in 2009, further affirm her contributions to the field of environmental chemistry.

Conclusion

Prof. Hutaf Baker’s distinguished career in analytical and environmental chemistry, her leadership roles, and her recognition in the scientific community make her a strong candidate for the Women Researcher Award. Her work aligns well with the award’s focus on outstanding contributions to research by women in science.

Research focus

The research focus of HM Baker lies in the environmental sciences, particularly in the study of adsorption processes for the removal of heavy metals from water and soil. Their work involves investigating the interaction of metals like lead, cadmium, and copper with natural and modified materials such as zeolites, humic acid, and silicate minerals. Baker’s studies also explore the thermodynamics and kinetics of these processes, contributing to the development of effective methods for water purification and environmental remediation. 🧪🌍💧

Publication top notes

Natural Jordanian zeolite: removal of heavy metal ions from water samples using column and batch methods

Analysis of the removal of lead (II) from aqueous solutions by adsorption onto insolubilized humic acid: temperature and pH dependence

A study of complexation thermodynamic of humic acid with cadmium (II) and zinc (II) by Schubert’s ion-exchange method

Comparative study of binding strengths and thermodynamic aspects of Cu (II) and Ni (II) with humic acid by Schubert’s ion-exchange method

Isothermal and kinetic adsorption behaviour of Pb2+ ions on natural silicate minerals

Characterization for the interaction of nickel (II) and copper (II) from aqueous solutions with natural silicate minerals

Evaluation of treated natural zeolite for the removal of o-chlorophenol from aqueous solution

A study of the binding strength and thermodynamic aspects of cadmium and lead ions with natural silicate minerals in aqueous solutions

Principles of interaction of ammonium ion with natural Jordanian deposits: Analysis of uptake studies

EFFECTS OF pH AND TEMPERATURE ON THE INTERACTION OF Pb (II) WITH AZRAQ HUMIC ACID STUDIED WITH SCHUBERT’S ION EXCHANGE METHOD.

Chryslaine Rodríguez-Tanty | Chemistry Award | Best Researcher Award

Posted on 13/07/202413/07/2024 by ScienceFather

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) 🧠🔍

kamal Al jorani | Chemistry | Industry Impact Academic Award

Posted on 10/06/202410/06/2024 by ScienceFather

kamal Al jorani | Chemistry | Industry Impact Academic Award

Assist Prof Dr kamal Al jorani,Wasit University,Iraq

Assist. Prof. Dr. Kamal Rashid Al-Jorani is a renowned chemist specializing in organic, inorganic, and medicinal chemistry 🌟. He earned his PhD in Chemistry from the University of Mustansiriyah in 2019, focusing on benzimidazole derivatives. Dr. Al-Jorani is currently an Assistant Professor and Laboratory Head at the university’s Chemistry Department 🧪. His expertise includes heterocyclic compound synthesis, drug synthesis, and coordination chemistry 🔬. He has authored several notable publications, including works on novel heterocyclic compounds and their pharmacological properties 📚. Dr. Al-Jorani’s research contributions have significant implications in both academic and pharmaceutical fields 🌍.

Publication profile

Orcid

Education

Kamal Rashid Al-Jorani’s academic journey spans through prestigious institutions, primarily the University of Mustansiriyah. He attained his Doctor of Philosophy in Chemistry in 2019, focusing on the synthesis, characterization, and preliminary pharmacological study of Benzimidazole Derivatives. Prior to his doctoral degree, Al-Jorani earned a Master’s in Chemistry in 2010, delving into the stability and stability constant of complexes formation between imidazole derivatives and various metal ions through potentiometric methods. His foundational academic achievement includes a Bachelor’s in Chemistry from the University of Mustansiriyah in 2008.

Teaching

Kamal Rashid Al-Jorani holds the esteemed position of Assistant Professor, reflecting his dedication to academia and his expertise in the field of chemistry. Currently, he serves as a pivotal figure in the Chemistry Department, where he undertakes the role of Teaching and Lab Head. His responsibilities extend to overseeing the instruction and practical application of Organic Chemistry concepts to third-year students. Moreover, he assumes leadership as the Lab Head for the Laboratory of Organic Chemistry, further enriching the educational experience for aspiring chemists within the department. Through his roles, Al-Jorani contributes significantly to the development and enhancement of academic programs and laboratory practices.

Research focus

Kamal Rashid Al-Jorani is a researcher whose focus lies in medicinal and pharmaceutical chemistry. His work primarily centers on the synthesis and characterization of heterocyclic compounds, particularly those involving benzimidazole and imidazole derivatives. These compounds are often explored for their pharmacological potential and applications in areas such as drug synthesis and antibacterial activity. Additionally, he delves into coordination chemistry to study metal complexes, which has implications for solar cell technology and other material sciences applications. His diverse expertise bridges organic chemistry and inorganic chemistry, addressing both biological and material challenges. 🌿🔬💊🌟

Publication top notes

10.1016/j.kjs.2024.100271

Synthesis, Characterization, and Implementations for Dye Solar Cell of New Hematite Nanoparticles Using Tetrasubstituted Imidazole Containing a Benzimidazole Moiety

10.1007/s11224-022-02069-w

Synthesis, Structure Elucidation, and Pharmacological Study of New Hydrazinylidene Derivatives Using Benzimidazole as a Scaffold

Synthesis and characterization of a novel benzimidazole derivative: Solvatochromic and acid-base indicator applications

Tairan Yuwen | Chemistry | Best Researcher Award

Posted on 12/02/202412/02/2024 by ScienceFather

Mr. Tairan Yuwen | Chemistry | Best Researcher Award

Mr. Tairan Yuwen, Peking University, China

🔬 Tairan Yuwen is an analytical chemist and biochemist specializing in protein systems with structural disorder. With a Ph.D. from Purdue University and a B.Sc. from Peking University, their research spans from understanding molecular interactions to developing new NMR methodologies. Currently an Assistant Professor at Peking University, they’ve held postdoctoral positions at the University of Toronto and Purdue University. Yuwen’s contributions include innovative NMR techniques showcased in conferences worldwide. Recognized with honors like the CIHR Fellowship, they continue to advance understanding in biomolecular dynamics and drug discovery. 🌱

Publication profile:

Orcid

Education:

🔬 Tairan Yuwen’s academic journey in the sciences began with a Bachelor of Science degree in Biological Sciences from Peking University, China, where they delved into the intricacies of molecular interactions under the guidance of Professor Luhua Lai. Their undergraduate thesis focused on unraveling the mechanism behind the interaction between Mj HSP 16.5 and amyloid fibrils, contributing to the understanding of protein dynamics.Building on this foundation, Yuwen pursued a Ph.D. in Chemistry at Purdue University in the United States, specializing in Analytical Chemistry and Biochemistry under the mentorship of Professor Nikolai Skrynnikov. Their doctoral research culminated in the development of novel experimental and theoretical tools tailored for studying protein systems characterized by structural disorder. This work represented a significant advancement in the field, shedding light on the complexities of biomolecular structures.Throughout their academic journey, Yuwen’s dedication to unraveling the mysteries of molecular biology has been underscored by a passion for discovery and innovation. Their contributions to both theoretical understanding and experimental techniques exemplify their commitment to pushing the boundaries of scientific knowledge. 🧪

Work Experience:

🔬 Tairan Yuwen’s professional journey spans prestigious academic institutions and cutting-edge research projects. They began as a Postdoctoral Research Fellow at Purdue University, where they worked under the guidance of Prof. Nikolai Skrynnikov, focusing on developing advanced NMR methodologies for probing protein structure and dynamics. Subsequently, at the University of Toronto under Prof. Lewis E. Kay, they continued their exploration of NMR techniques, this time concentrating on large biomolecular systems. Currently, Yuwen serves as an Assistant Professor at Peking University’s School of Pharmaceutical Sciences, where they continue to contribute to the advancement of scientific knowledge and mentor the next generation of researchers. 🌱

Teaching:

🎓 From 2010 to 2014, Tairan Yuwen enriched their academic experience at Purdue University, serving as a Teaching Assistant in the Department of Chemistry. They played a pivotal role within the Purdue Interdepartmental NMR Facility (PINMRF), where they assisted students in mastering the intricacies of nuclear magnetic resonance (NMR) techniques. As a mentor, Yuwen not only facilitated practical learning but also fostered a deeper understanding of analytical chemistry concepts. Their dedication to education, coupled with expertise in NMR methodologies, provided students with invaluable insights and skills essential for their scientific pursuits. Yuwen’s commitment to teaching shines brightly amidst their academic endeavors. 📚

Honors and Awards:

🏆 Tairan Yuwen’s exceptional contributions to scientific research were recognized with the prestigious Canadian Institutes of Health Research (CIHR) Fellowship from 2017 to 2020. This esteemed award provided funding for their project focusing on the solution state NMR study of Dot1–nucleosome interactions. Through this fellowship, Yuwen was able to delve deeper into understanding the complex dynamics of molecular interactions within chromatin, shedding light on crucial aspects of gene regulation and epigenetics. Their dedication to advancing knowledge in this field was underscored by this esteemed honor, showcasing Yuwen’s commitment to excellence in scientific inquiry. 🧬

Employment:

🔬 Tairan Yuwen’s professional journey reflects a commitment to academic excellence and scientific inquiry. Starting as a Teaching Assistant at Purdue University’s Interdepartmental NMR Facility (PINMRF), they honed their skills in chemistry education from 2010 to 2014. Subsequently, they embarked on postdoctoral research positions at Purdue University and later at the University of Toronto, delving into biochemistry and advancing NMR methodologies. Presently, Yuwen serves as an Assistant Professor at Peking University’s School of Pharmaceutical Sciences, where they continue to inspire students and contribute to cutting-edge research in pharmaceutical sciences. Their diverse experiences underscore their passion for education and research in the scientific community. 🎓

Research Focus :

🔬 Tairan Yuwen’s research focus lies at the intersection of nuclear magnetic resonance (NMR) spectroscopy and protein dynamics. Their work spans various aspects of NMR methodology development and its application to elucidate molecular interactions and conformational dynamics in biological systems. They have made significant contributions to optimizing relaxation dispersion experiments, exploring chemical exchange processes, and probing conformational dynamics in proteins. Yuwen’s expertise in NMR techniques has paved the way for a deeper understanding of biomolecular structures and interactions, ultimately advancing research in fields such as structural biology and drug discovery. Their dedication to unraveling the mysteries of molecular dynamics is evident in their prolific contributions to scientific literature. 🧪

Publication Top Notes:

Optimization of TROSY- and anti-TROSY-based 15N CPMG relaxation dispersion experiments through phase cycling

Measurement of 1Hα transverse relaxation rates in proteins: application to solvent PREs

Chemical shift prediction of RNA imino groups: application toward characterizing RNA excited states

Understanding and solving abnormal peak splitting in 3D HCCH-TOCSY and HCC(CO)NH-TOCSY

Revisiting 1HN CPMG relaxation dispersion experiments: a simple modification can eliminate large artifacts

A Methyl‐TROSY‐Based 1H Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins

Measuring Diffusion Constants of Invisible Protein Conformers by Triple‐Quantum 1H CPMG Relaxation Dispersion

Measuring Solvent Hydrogen Exchange Rates by Multifrequency Excitation 15N CEST: Application to Protein Phase Separation

A methyl 1H double quantum CPMG experiment to study protein conformational exchange

Exploring methods to expedite the recording of CEST datasets using selective pulse excitation

Hamideh Hosseini | Chemistry | Best Researcher Award

Posted on 10/02/202412/02/2024 by ScienceFather

Dr. Hamideh Hosseini | Chemistry | Best Researcher Award

Dr. Hamideh Hosseini, Chemistry and Chemical Engineering Research Center of Iran (CCERCI), Iran

👩‍🔬 Dr. Hamideh Hosseini is an accomplished chemist specializing in organic chemistry, with expertise in plasma-induced reactions. She earned her Doctoral degree from CCERCI, Iran, focusing on synthesizing organic compounds from toluene using DBD Plasma. Dr. Hosseini has a Master’s degree in Organic Chemistry and a Bachelor’s degree in Pure Chemistry. Currently a researcher at CCERCI, she contributes to projects led by Prof. Mohammad Ghaffarzadeh. Dr. Hosseini has received numerous honors, including the highest distinction for her doctoral thesis. With industrial and academic experiences, she’s a versatile professional bridging research and industry seamlessly.

Publication Profile:

Scopus

Education:

📚 Dr. Hamideh Hosseini embarked on her academic journey with a Bachelor’s degree in Pure Chemistry from Imam Khomeini International University. She continued her pursuit of knowledge, earning a Master’s degree in Organic Chemistry from Kharazmi University, where her focus was on the synthesis of macrocyclic compounds. Dr. Hosseini’s passion for organic chemistry led her to obtain a Doctoral degree in Organic Chemistry from the Chemistry and Chemical Engineering Research Center of Iran (CCERCI), specializing in plasma-induced reactions. Her doctoral thesis explored the synthesis of organic compounds from toluene using DBD Plasma, showcasing her dedication to innovative research in the field. 🎓

Research experiences:

🔬 Since September 2022, Dr. Hamideh Hosseini has been actively engaged as a researcher at the Chemistry and Chemical Engineering Research Center of Iran (CCERCI), collaborating within the esteemed team led by Prof. Mohammad Ghaffarzadeh. Her current project focuses on the synthesis of organic compounds using innovative methodologies. With her expertise in organic chemistry and a keen interest in novel methods, Dr. Hosseini contributes significantly to advancing research in the field. Her dedication to exploring new avenues for organic synthesis underscores her commitment to pushing the boundaries of scientific discovery. 🌱

Honors and awards:

🏅 Dr. Hamideh Hosseini’s academic excellence has been duly recognized through various honors and awards. In 2022, her doctoral thesis earned the highest distinction, receiving the prestigious “The grade of excellent” accolade from CCERCI. In 2019, she was awarded the Iran Ministry of Science and Research Scholarship for Research Abroad, reflecting her commitment to scholarly pursuits. Dr. Hosseini’s academic prowess was evident earlier as well, as she secured the 4th position in the Ph.D. Nationwide Entrance Exam among participants in Iran in 2016, showcasing her exceptional intellectual abilities and dedication to academic achievement. 🎓🌟

Industrial experiences:

💼 Dr. Hamideh Hosseini has enriched her professional repertoire with diverse industrial experiences. From October 2016 to March 2017, she served as a Chemistry expert at Alpha Chemical Company in Tehran, Iran. Prior to this, from January 2010 to October 2010, she contributed her expertise at Alborz Chemical Company, also in Tehran. Her journey in the industry commenced earlier, as she held a position as a Chemistry expert at Alhawi Pharmaceutical Company from September 2009 to December 2009. These roles provided valuable insights into practical applications of chemistry, enhancing Dr. Hosseini’s skill set and understanding of industrial processes. 🧪🔬

Research Focus :

Dr. Hamideh Hosseini’s research focus spans the innovative realm of plasma-induced reactions, particularly in the synthesis of organic compounds. Through meticulous investigations detailed in various articles and reviews, she explores the diverse applications of plasma catalysis and discharge in organic chemistry. Her work delves into topics such as the synthesis of ammonia, surface functionalization of carbon nanotubes, and the formation of nitrogen-containing organic products. Dr. Hosseini’s contributions shed light on the potential of plasma technology as an alternative and efficient approach in organic synthesis, paving the way for groundbreaking advancements in the field. 🧪⚡🔬