Bengang XING | Chemistry | Best Researcher Award

Bengang XING | Chemistry | Best Researcher Award

Prof Bengang XING ,Nanyang Technological university,Singapore

Dr. Bengang Xing, FRSC, is a distinguished Full Professor at Nanyang Technological University (NTU), Singapore, renowned for his pioneering work in Chemical Biology and Nano-theranostics. With a Ph.D. from Nanjing University, China, he held research positions at prestigious institutions globally before joining NTU. Dr. Xing’s expertise spans molecular probe design, biomedical imaging, and medicinal chemistry, reflected in over 100 selective publications and numerous patents. A Fellow of the Royal Society of Chemistry, he has received multiple awards, including the Reaxys PhD Prize and Young Innovator Award. Dr. Xing’s impactful research continues to advance interdisciplinary frontiers in science. 🌟🔬

Publication profile

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Research focus

Dr. Bengang Xing’s research encompasses a broad spectrum of interdisciplinary fields, primarily focusing on Chemical Biology, Molecular Probe Design, Biomedical Fluorescent Imaging, Medicinal Chemistry, and Nano-theranostics. Through his pioneering work, he leverages molecular engineering to develop innovative probes and nanomaterials for visualizing and understanding biological processes at the molecular level. His expertise lies in designing advanced imaging agents and therapeutic platforms, facilitating precise diagnosis and targeted treatment of diseases. Dr. Xing’s contributions have significant implications for both fundamental research and clinical applications, promising breakthroughs in personalized medicine and precision healthcare. 🧪🔬🩺

Publication top notes

Real-time monitoring of cell apoptosis and drug screening using fluorescent light-up probe with aggregation-induced emission characteristics

In vitro and in vivo uncaging and bioluminescence imaging by using photocaged upconversion nanoparticles

Recent advances in functional nanomaterials for light–triggered cancer therapy

Hydrophobic interaction and hydrogen bonding cooperatively confer a vancomycin hydrogel: a potential candidate for biomaterials

In vivo covalent cross-linking of photon-converted rare-earth nanostructures for tumour localization and theranostics

Near‐infrared light‐mediated photoactivation of a platinum antitumor prodrug and simultaneous cellular apoptosis imaging by upconversion‐luminescent nanoparticles

Multifunctional mesoporous silica nanoparticles for cancer‐targeted and controlled drug delivery

Synthesis and Optimization of MoS2@Fe3O4‐ICG/Pt(IV) Nanoflowers for MR/IR/PA Bioimaging and Combined PTT/PDT/Chemotherapy Triggered by 808 nm Laser

Recent advances in near-infrared emitting lanthanide-doped nanoconstructs: Mechanism, design and application for bioimaging

Design of coordination polymer gels as stable catalytic systems

Recent progress in near infrared light triggered photodynamic therapy

Au2Pt-PEG-Ce6 nanoformulation with dual nanozyme activities for synergistic chemodynamic therapy/phototherapy

Novel fluorogenic substrates for imaging β-lactamase gene expression

NIR light controlled photorelease of siRNA and its targeted intracellular delivery based on upconversion nanoparticles

Simple and rapid synthesis of ultrathin gold nanowires, their self-assembly and application in surface-enhanced Raman scattering

NIR photoresponsive crosslinked upconverting nanocarriers toward selective intracellular drug release

Recent advances of light-mediated theranostics

Gold and hairpin DNA functionalization of upconversion nanocrystals for imaging and in vivo drug delivery

A light-up probe with aggregationhttps://scholar.google.com/citations?view_op=view_citation&hl=en&user=Zv-X4JEAAAAJ&citation_for_view=Zv-X4JEAAAAJ:4OULZ7Gr8RgC-induced emission characteristics (AIE) for selective imaging, naked-eye detection and photodynamic killing of Gram-positive bacteria

Semiconducting photothermal nanoagonist for remote-cohttps://scholar.google.com/citations?view_op=view_citation&hl=en&user=Zv-X4JEAAAAJ&citation_for_view=Zv-X4JEAAAAJ:eJXPG6dFmWUCntrolled specific cancer therapy

Tairan Yuwen | Chemistry | Best Researcher Award

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:

Hamideh Hosseini | Chemistry | Best Researcher Award

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. 🧪⚡🔬

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