Mr. Ning Wang – Molecule Dynamics – Best Researcher Award

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Mr. Ning Wang - Molecule Dynamics - Best Researcher Award

Peking University - China

Author Profile 

SCOPUS

📚 Early academic pursuits

Ning Wang's journey into the realm of materials science began with a strong foundation in engineering at Northeastern University, where he pursued a Bachelor's degree in Materials Science and Engineering. His exceptional academic performance earned him the National Scholarship (Top 1%) and the First-Class University Scholarship in 2020, highlighting his dedication and intellect. His passion for research flourished as he explored the intersection of materials science and computational modeling, setting the stage for his future contributions.

🏛️ Professional endeavors

Continuing his academic journey, Ning Wang pursued a Master’s degree in Materials Physics and Chemistry at Peking University, Shenzhen Graduate School. His exposure to advanced material research expanded when he joined the Matter Lab at the University of Toronto in 2024, where he worked under the esteemed Prof. Alan Aspuru-Guzik. His research focused on AI-driven approaches to materials discovery, further strengthening his expertise in computational materials science.

🔍 Contributions and research focus

At the core of Ning Wang’s work lies his innovative use of AI and computational methods in materials science. His research spans multiple domains, from atomic interactions to molecular Molecule Dynamics orbital learning, leveraging machine learning and deep learning architectures. His GDGen methodology, a gradient descent-based approach for optimized cluster configurations, showcases his ability to develop novel computational tools for materials simulations. His work on transformer models with DeepPot encoders further emphasizes his contributions to predictive modeling in molecular dynamics.

🏆 Accolades and recognition

Ning Wang's commitment to research is reflected in his impressive publication record. His work has been accepted at international conferences and prestigious journals, including Computer Molecule Dynamics Physics Communications, the Journal of Alloys and Compounds, and the International Conference on Electronic Information Engineering and Computer Science. His cutting-edge research on micro-structures, solid solubility, and tensile properties of alloys has garnered significant recognition, demonstrating his expertise in both experimental and computational materials science.

🌍 Impact and influence

By integrating AI-driven methodologies with materials science, Ning Wang is helping to shape the future of computational materials engineering. His work has the potential to revolutionize Molecule Dynamics how researchers design and optimize materials at the atomic scale, making processes more efficient and accurate. His research on Ag single crystal growth using machine learning-enhanced molecular dynamics is a prime example of how AI can enhance traditional materials research.

🚀 Legacy and future contributions

As AI continues to reshape the scientific landscape, Ning Wang envisions a future where machine learning algorithms play a central role in materials discovery. His ongoing research on Egsmole, an equivariant graph state transformer for molecular orbital learning, is set to push the boundaries of computational chemistry. With a solid academic background, pioneering research, and a vision for the future, Ning Wang is poised to make groundbreaking contributions to AI-driven materials science.

Dr. Jhuma Bhadra – Chemical Biology – Best Researcher Award

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Dr. Jhuma Bhadra - Chemical Biology - Best Researcher Award

Sarojini Naidu College for Women - India

AUTHOR PROFILE 

ORCID 

EARLY ACADEMIC PURSUITS 🎓

Jhuma Bhadra embarked on her academic journey with a keen interest in chemistry, which eventually led her to earn a Ph.D. in the subject. Her formative years were marked by rigorous academic training, setting a strong foundation in the fundamental and applied aspects of chemistry. Her early studies laid the groundwork for her future research endeavors in nucleolipid synthesis and antimicrobial therapeutics, areas that have profound implications in biomedical sciences.

PROFESSIONAL ENDEAVORS 💼

Jhuma’s professional career commenced with impactful postdoctoral fellowships at prestigious institutions like Boston College and Clemson University. At Boston College, she explored bacteriophage modification using Boron warheads, while her tenure at Clemson University focused on designing and synthesizing aminoglycoside and Hoechst-conjugated phosphorodiamidate morpholino oligomers (PMOs) to study their antibacterial activity. Her academic career progressed as she joined Kurseong College as an Assistant Professor, where she continued to contribute to the field of chemistry. She is currently an Assistant Professor at Sarojini Naidu College for Women, where she furthers her research and teaching responsibilities.

CONTRIBUTIONS AND RESEARCH FOCUS 🤞

Jhuma Bhadra’s research is centered around the synthesis and biomedical application of nucleolipids. Her notable work includes the design of novel aminoglycoside-nucleolipid conjugates aimed at developing potential antimicrobial therapeutics. Her research is not just confined to theoretical aspects but extends to practical applications that have the potential to combat Chemical Biology antibiotic resistance, a critical global health challenge. Her dedication to advancing the field is evident in her role as a supervisor to two Junior Research Fellows, guiding the next generation of researchers.

ACCOLADES AND RECOGNITION 🏆

Jhuma’s scholarly contributions have been recognized by the scientific community, notably through the receipt of a substantial grant from the Science and Engineering Research Board (SERB-DST) under the EMEQ scheme. The Rs. 48.9 lakh funding supports her groundbreaking project on antimicrobial therapeutics, underscoring the importance and potential impact of her work. Chemical Biology This recognition highlights her role as a leading researcher in her field.

IMPACT AND INFLUENCE 🌍

Jhuma Bhadra’s research impacts both the scientific community and broader society. Her work on nucleolipids and antimicrobial therapeutics addresses pressing health issues, contributing to the development of new strategies to combat bacterial infections. By integrating her research findings into her teaching, she influences and inspires her students, fostering a new wave of Chemical Biology scientific inquiry and innovation in chemistry.

LEGACY AND FUTURE CONTRIBUTIONS 💡

Jhuma’s legacy in the field of chemistry is characterized by her innovative approach to research and her commitment to education. As she continues her work at Sarojini Naidu College for Women, her contributions are poised to expand the frontiers of nucleolipid research and antimicrobial therapies. Her future endeavors will likely include further exploration of biomedical applications, continuing to bridge the gap between fundamental research and practical healthcare solutions. Jhuma Bhadra’s dedication ensures her lasting influence in the realm of chemical sciences and beyond.

NOTABLE  PUBLICATIONS 

  • Title: Peptide Nucleic Acids: Recent Advancements and Future Opportunities in Biomedical Applications
    Authors: Achinta Sannigrahi, Nayan De, Debmalya Bhunia, Jhuma Bhadra
    Journal: Bioorganic Chemistry
    DOI: 10.1016/j.bioorg.2025.108146
  • Title: Understanding Antisense Oligonucleotide Efficiency in Inhibiting Prokaryotic Gene Expression
    Authors: Sandra Story, Sayantan Bhaduri, Sudakshina Ganguly, Rambabu Dakarapu, Sarah L. Wicks, Jhuma Bhadra, Simeon Kwange, Dev Arya
    Journal: ACS Infectious Diseases
    DOI: 10.1021/acsinfecdis.3c00645
  • Title: Self-Transfecting GMO-PMO Chimera Targeting Nanog Enable Gene Silencing In Vitro and Suppresses Tumor Growth in 4T1 Allografts in Mouse
    Authors: Ujjal Das, Jayanta Kundu, Pallab Shaw, Chandra Bose, Atanu Ghosh, Shalini Gupta, Sudipta Sarkar, Jhuma Bhadra, Surajit Sinha
    Journal: Molecular Therapy - Nucleic Acids
    DOI: 10.1016/j.omtn.2023.03.011
  • Title: Cananginone Abrogates EMT in Breast Cancer Cells through Hedgehog Signaling
    Authors: Chandra Bose, Ujjal Das, Tapan Kumar Kuilya, Joyanta Mondal, Jhuma Bhadra, Priyanjalee Banerjee, Rajib Kumar Goswami, Surajit Sinha
    Journal: Chemistry & Biodiversity
    DOI: 10.1002/cbdv.202100823
  • Title: Self-Transfecting GMO-PMO and PMO-GMO Chimeras Enable Gene Silencing In Vitro and In Vivo Zebrafish Model and NANOG Inhibition Induce the Apoptosis in Breast and Prostate Cancer Cells
    Authors: Jayanta Kundu, Ujjal Das, Chandra Bose, Jhuma Bhadra, Surajit Sinha
    Journal: Preprint
    DOI: 10.1101/2021.06.04.447039

Dr. Haifeng Wu – Medicinal chemistry – Best Researcher Award

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Dr. Haifeng Wu - Medicinal chemistry - Best Researcher Award

Institute of Medicinal Plant Development, Chinese Academy of Medicinal Sciences & Peking Union Medical College - China 

Author Profile 

SCOPUS

Early academic pursuits 🎓

Dr. Haifeng Wu's academic journey began with a bachelor's degree in biochemical engineering from beijing university of chemical engineering in 2001. driven by a passion for plant biology and natural sciences, he pursued further studies at the northwest institute of plateau biology, chinese academy of sciences, where he earned his m.s. in botany in 2006. his curiosity and dedication to understanding ecological systems led him to complete his ph.d. in ecology from the same institute in 2009. this strong academic foundation set the stage for his distinguished career in medicinal plant research.

Professional endeavors 🏢

Dr. Wu is currently affiliated with the institute of medicinal plant development at the chinese academy of medicinal sciences & peking union medical college in beijing. in this role, he specializes in molecular modeling, chromatographical analysis, isolation, and modification of natural products. his expertise in biochemistry and plant biology has been instrumental in advancing research on medicinal plants and natural compounds. dr. wu’s work at this prestigious institution reflects his commitment to bridging traditional knowledge with modern scientific approaches to drug discovery.

Contributions and research focus 🔬

Throughout his career, dr. wu has made significant contributions to the fields of medicinal plant development and natural product chemistry. his research primarily focuses on molecular modeling, allowing for precise identification and modification of bioactive compounds in plants. he has developed cutting-edge techniques for Medicinal chemistry chromatographical analysis and isolation, contributing to the discovery of novel natural products with potential therapeutic applications. dr. wu’s work is pivotal in the search for new drugs derived from medicinal plants, targeting various diseases and health conditions.

Accolades and recognition 🏅

Dr. Wu’s achievements have not gone unnoticed in the scientific community. his innovative research and contributions to medicinal plant development have earned Medicinal chemistry him recognition and accolades, both within china and internationally. while specific awards are not listed, his role at one of the leading research institutions in china underscores his expertise and the respect he commands in his field.

Impact and influence 🌍

Dr. Wu’s research has a profound impact on both the scientific community and the pharmaceutical industry. his work on the molecular modeling and modification of natural products is crucial for the development of new, effective treatments. by isolating and understanding plant-based compounds, dr. wu is helping to unlock the medicinal potential of nature, influencing future research and contributing to global health advancements. his work supports sustainable medicinal plant use and Medicinal chemistry conservation, making it environmentally and socially relevant.

Legacy and future contributions 🔮

As a researcher deeply rooted in the exploration of natural products and medicinal plants, dr. wu’s legacy will be one of innovation and dedication to improving human health. his future contributions are expected to further enhance the understanding and utilization of plant-based compounds in modern medicine. dr. wu’s pioneering work will continue to inspire researchers and contribute to the discovery of novel therapeutic agents, ensuring his place as a key figure in the field of medicinal plant development.

Notable Publications

  • Title: UV light treatment (278 nm) for detoxification of aflatoxins and application in edible and medicinal herb coix seed
    Authors: Zou, L., Sun, Z., Li, Q., Ma, G., Xu, X.
    Journal: International Journal of Food Science and Technology, 2024, 59(6), pp. 3723–3734
  • Title: Asiaticoside exerts neuroprotection through targeting NLRP3 inflammasome activation
    Authors: He, Z., Hu, Y., Zhang, Y., Wu, H., Hu, W.
    Journal: Phytomedicine, 2024, 127, 155494
  • Title: Identifying potential Q-markers for quality evaluation of Zhenyuan capsule by integrating chemical analysis, network pharmacology, molecular docking, and molecular dynamics simulations
    Authors: Zhao, Z., Yang, Q., Ma, Y., Wu, H., Liu, X.
    Journal: Natural Product Research, 2024
  • Title: Phenolic constituents with antibacterial activity from Eleutherine bulbosa
    Authors: Sun, Z., Li, Q., Zhang, J., Xu, X., Ma, G.
    Journal: Fitoterapia, 2024, 172, 105787
  • Title: Molecular interaction of soybean protein and piperine by computational docking analyses
    Authors: Zhang, C., Niu, Z., He, Z., Gu, F., Hu, W.
    Journal: Food Hydrocolloids, 2024, 146, 109249

Dr. Bunnel Kitete Tunda  – Pharmacology – Best Researcher Award

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Dr. Bunnel Kitete Tunda  -Pharmacology- Best Researcher Award

Federal University of São João del-Rei - Brazil

Author Profile 

SCOPUS

Early academic pursuits 🎓

Kitete Tunda Bunnel's academic journey began with a deep passion for medicine, pursuing a degree in human medicine from universite technologique bel campus (utbc) in the dr congo. graduating in 2012, his final thesis focused on the incidence of hypertensive retinopathy in patients, a topic that highlights his early interest in the intersections of chronic diseases and their impact on public health. this solid foundation laid the groundwork for his future contributions to healthcare, especially in geriatric pharmacology and drug utilization.

Professional endeavors 🏥

Kitete’s professional career spans across various continents, bringing his medical expertise from africa to brazil. after his graduation, he embarked on a journey that saw him transition to advanced studies in brazil, where he is currently pursuing a master's degree at universidade federal de são joão del-rei (ufsj). his master's research explores deprescribing oral antidiabetics in elderly patients, a critical topic given the global rise in aging populations and diabetes management. his diverse educational background, supplemented by short courses from renowned institutions like uppsala university in sweden, showcases his commitment to continuous learning and professional development.

Contributions and research focus 🔬

Kitete's research has been dedicated to understanding and improving the health outcomes of vulnerable populations, particularly the elderly. his master's thesis focuses on how oral antidiabetic medications are addressed in informational leaflets globally, an essential study given the growing importance of patient education Pharmacology and safety in medication usage. in addition to his research in pharmacology, kitete has made contributions to understanding chronic diseases like hypertension and diabetes, particularly in african and brazilian contexts.

Accolades and recognition 🏅

Kitete’s academic and research efforts have been recognized through multiple opportunities for advanced study and training. he was awarded a scholarship by coordenação de aperfeiçoamento de pessoal de nível superior (capes) in brazil, a prestigious recognition of his academic potential and commitment to research in Pharmacology healthcare. his work in drug utilization research has also been strengthened by his participation in international courses, including those at uppsala university in sweden, further enhancing his credentials in the global healthcare landscape.

Impact and influence 🌍

Kitete’s work is deeply impactful, as it addresses critical health challenges faced by elderly populations, particularly in the areas of diabetes and chronic disease management. his research on deprescribing oral antidiabetics highlights the importance of re-evaluating medication use in older adults, which could lead to Pharmacology significant advancements in patient safety and healthcare outcomes. his contributions span both local and international settings, ensuring that his research findings have broad implications for public health across different regions.

Legacy and future contributions 🔮

As kitete tunda bunnel continues his academic and professional journey, his contributions to geriatric pharmacology and chronic disease management promise to leave a lasting legacy. his work is paving the way for safer and more effective treatment protocols for elderly patients, and his international experiences allow him to bridge healthcare knowledge across continents. with a clear focus on patient-centered care, kitete’s future research will likely continue to influence healthcare policies and improve quality of life for aging populations around the world.

Notable Publications

  • Title: Deprescribing oral antidiabetics in elderly patients: Do electronic leaflets across the world address it?
    Authors: Bunnel, K.T., Carvalho, S.J.E., Pereira, M.L., Couto, R.O., Baldoni, A.O.
    Journal: Exploratory Research in Clinical and Social Pharmacy (2024), Vol. 16, Article 100537
  • Title: Rosemary (Rosmarinus officinalis L.) improves biochemical outcomes in diabetes mellitus: A systematic review and meta-analysis of animal studies
    Authors: Oliveira, V.M., Silveira, L.R., Bunnel, K.T., Baldoni, N.R., do Couto, R.O.
    Journal: Advances in Traditional Medicine (2024)

Dr. Awanish Kumar – Drug Discovery and development – Excellence in Research

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Dr. Awanish Kumar - Drug Discovery and development - Excellence in Research

NIT Raipur - India

Author Profile

SCOPUS 

ORCID 

🌱 Early academic pursuits

Dr. Awanish Kumar's journey into biotechnology began with an m.sc. in biotechnology from devi ahilya university, indore, where he graduated with first division honors, securing an impressive 75.9%. his thirst for knowledge and passion for research led him to pursue a ph.d. at the prestigious jawaharlal nehru university (jnu), new delhi, and the central drug research institute (cdri), lucknow. during this time, he delved deeply into biotechnology, laying a strong foundation for his future research in antifungal therapeutics and microbial biology.

👨‍🏫 Professional endeavors

currently, Dr. Awanish kumar serves as an associate professor at the department of biotechnology, national institute of technology (nit), raipur. since april 2022, he has been mentoring students, guiding cutting-edge research, and contributing to the growth of the department. his academic career also includes a post-doctoral fellowship at jnu, where he worked on a ugc-funded project investigating the antifungal properties of curcumin, a bioactive compound from curcuma longa.

🔬 Contributions and research focus

Dr. Kumar’s research is centered around antimicrobial peptides, drug delivery systems, and antifungal therapeutics. under his mentorship, two ph.d. students Drug Discovery and development completed their research on topics like the isolation of antifungal peptides from microbes and the design of biopolymeric microneedle patches for transdermal drug delivery. his ongoing projects include studies on biofilm disruption, redox nanomaterials, and the evaluation of natural compounds for their antifungal properties. one of his notable research contributions is demonstrating how curcumin induces apoptosis in candida albicans by generating reactive oxygen species and activating caspase-3.

🏆 Accolades and recognition

dr. Kumar’s achievements in research have not gone unnoticed. he was awarded the prestigious ugc ds kothari fellowship, recognizing him as an emerging young Drug Discovery and development investigator. this fellowship provided him the opportunity to lead significant research on antifungal mechanisms, especially curcumin’s role in modulating efflux activities in candida albicans. his innovative work on biopolymers and antifungal biomaterials has earned him acclaim in academic circles.

🌍 Impact and influence

Dr. Kumar’s work in biotechnology, particularly his studies on antifungal peptides and curcumin’s therapeutic potential, has significant implications in both medicine and agriculture. his pioneering efforts in designing biopolymeric patches for drug delivery and developing antifungal biomaterials are set to influence future research in fungal pathogen treatment. he continues to inspire the next generation of researchers through his mentorship and collaborative projects in microbial biotechnology.

💡 Legacy and future contributions

Dr. Kumar's contributions to antifungal research and biopharmaceutical sciences are building a legacy in microbial biotechnology. with three ongoing ph.d. projects under his guidance and several groundbreaking discoveries already under his belt, he is shaping the future of antifungal therapeutics. his focus on developing Drug Discovery and development commercial applications for antifungal biomaterials highlights his forward-thinking approach and commitment to bringing research from the lab to real-world applications.

Notable Publications

  1. Title: Acetaminophen induces mitochondrial apoptosis through proteasome dysfunctions
    Authors: Jagtap, Y.A., Kumar, P., Dubey, A.R., Prasad, A., Mishra, A.
    Journal: Life Sciences, 2024, 349, 122732
  2. Title: Nanomaterials-Based Hybrid Bioink Platforms in Advancing 3D Bioprinting Technologies for Regenerative Medicine
    Authors: Chandra, D.K., Reis, R.L., Kundu, S.C., Kumar, A., Mahapatra, C.
    Journal: ACS Biomaterials Science and Engineering, 2024, 10(7), pp. 4145–4174
  3. Title: Access to and quality of elective care: a prospective cohort study using hernia surgery as a tracer condition in 83 countries
    Authors: Dönmez, A.E., Goswami, A.G., Raheja, A., Osama, Z., Dauksa, Z.
    Journal: The Lancet Global Health, 2024, 12(7), pp. e1094–e1103
  4. Title: Development of the dynamic approach for detection of Salmonella Typhi biofilm via optimizations of interaction with safranin dye
    Authors: Upadhyay, A., Pal, D., Kumar, A.
    Journal: Biologia, 2024, 79(7), pp. 2299–2309
  5. Title: Application of Invasive Weed Biochar as Soil Amendment Improves Soil Organic Carbon Fractions and Yield of Fodder Oat in a Semi-Arid Region
    Authors: Prasad, M., Choudhary, P., Choudhary, M., Palsaniya, D.R., Kumar, S.
    Journal: Journal of Soil Science and Plant Nutrition, 2024, 24(2), pp. 2111–2122