Kaiqi Fan | Chemistry | Best Researcher Award

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Assoc Prof Dr. Kaiqi Fan | Chemistry | Best Researcher Award 

Assoc Prof Dr. Kaiqi Fan | Zhengzhou University of Light Industry | China

Assoc. Prof. Dr. Kaiqi Fan, a distinguished researcher at Zhengzhou University of Light Industry, China, specializes in polymers, supramolecular chemistry, co-crystalline gels, and hydrogels. He has led multiple provincial-level science and technology projects, secured several invention patents, and published impactful papers in leading journals such as Chemical Engineering Journal and Journal of Colloid and Interface Science. His pioneering work on asymmetric-adhesion Janus hydrogels has advanced medical interface technologies, enabling improved continuous ultrasound Doppler monitoring. Dr. Fan’s research integrates innovation, material design, and practical applications, significantly contributing to the development of advanced functional materials with biomedical and industrial relevance.

Author Profile

Scopus

Education

Assoc. Prof. Dr. Kaiqi Fan’s academic journey began with a strong foundation in chemistry and materials science, where his early education nurtured a passion for understanding molecular interactions and functional materials. His curiosity for polymers and supramolecular assemblies developed during his higher education years, leading him to focus on designing advanced materials with tailored properties. Driven by a desire to merge fundamental chemistry with practical applications, Dr. Fan excelled in both theoretical understanding and laboratory experimentation. This early dedication provided the groundwork for his later breakthroughs in hydrogels, ionic elastomers, and co-crystalline gels, ensuring that his career would be deeply rooted in innovation and scientific rigor.

Experience

Currently serving as an Associate Professor at Zhengzhou University of Light Industry, Dr. Fan plays a vital role in advancing polymer science research while mentoring the next generation of scientists. He has successfully led multiple provincial-level science and technology projects in Henan Province, each addressing real-world challenges through advanced material design. His expertise extends beyond academia into collaborative research with industrial partners, translating laboratory findings into practical solutions. Moreover, Dr. Fan has contributed significantly to scientific literature, with publications in prestigious journals such as Chemical Engineering Journal and Journal of Colloid and Interface Science. His academic and professional roles are characterized by a balance of teaching excellence, research leadership, and cross-disciplinary collaboration.

Research Focus

Dr. Fan’s research centers on polymers, supramolecular chemistry, and the design of functional gels with unique mechanical and interfacial properties. Among his most notable contributions is the development of chitosan-integrated asymmetric-adhesion Janus hydrogels via solid–gel interfacial engineering. This innovation addresses the challenge of programmable adhesion asymmetry by introducing a mold-directed solid–gel interface strategy, achieving an 18-fold difference in adhesion strength between the two sides of the hydrogel. The resulting materials not only exhibit exceptional acoustic impedance properties comparable to commercial ultrasound gels but also demonstrate dual-functionality—secure attachment for medical probes and a sliding interface for dynamic tissue interaction. His broader research portfolio includes eutectogel adhesives, self-healing conductive gels, underwater-sensing gels, and low-temperature-resistant hydrogel electrolytes, all contributing to advancements in biomedical devices, sensing technologies, and energy storage systems.

Award and Recognition

Dr. Fan’s pioneering work has been recognized through multiple avenues. He has secured several invention patents, demonstrating his capacity for translating scientific concepts into practical and commercially viable innovations. His research articles have been featured in high-impact journals indexed in SCI and Scopus, earning citations from scholars worldwide. By leading competitive provincial research grants, he has established himself as a trusted innovator in China’s scientific community. These accolades not only highlight his academic excellence but also validate the societal relevance of his research in areas such as medical diagnostics, wearable technology, and sustainable material design.

Impact and Influence

The influence of Dr. Fan’s research extends far beyond the laboratory. His innovations in hydrogel technology have the potential to transform biomedical imaging and monitoring, particularly in continuous ultrasound Doppler measurements, where his designs enhance signal quality and patient comfort. By advancing materials that combine stretchability, self-healing properties, and environmental resilience, his work supports the development of wearable electronics and energy devices that can withstand harsh operating conditions. His contributions are also shaping the next generation of researchers through mentorship, workshops, and collaborative projects, fostering a culture of creativity and scientific curiosity.

Publications 

Janus POSS-based hydrogel electrolytes with high-ionic conductivity and low-temperature-resistance for all-in-one flexible supercapacitors.

Author: Xiaojing Zhang, Luxin Cao, Xiaobo Wang, Zhen Liu, Jiwei Peng, Wentong Yang, Kaiqi Fan
Journal: Journal of Energy Storage
Year: 2025

Eutectogel adhesives with underwater-enhanced adhesion to hydrophilic surfaces and strong adhesion in harsh environments.

Author: Kaiqi Fan, Wentong Yang, Jiwei Peng, Xiaobo Wang, Luxin Cao, Xidong Guan, Haijun Sun, Xiaojing Zhang
Journal: Chemical Engineering Journal
Year: 2024

One-step preparation of highly conductive eutectogel for a flexible strain sensor.

Author: Kaiqi Fan, Jiwei Peng, Wentong Yang, Xiaobo Wang, Sen Liu, Luxin Cao, Haijun Sun, Xiaojing Zhang.
Journal: Applied Polymer Science
Year: 2024

Conclusion

Assoc. Prof. Dr. Kaiqi Fan exemplifies the ideal blend of scientific curiosity, technical mastery, and practical innovation. From his early academic foundation in polymer and supramolecular chemistry to his groundbreaking work on asymmetric-adhesion Janus hydrogels and advanced functional materials, he has consistently pushed the boundaries of materials science. His patents, publications, and leadership in provincial research projects demonstrate both academic excellence and societal impact. Beyond his personal achievements, Dr. Fan’s mentorship and collaborations are cultivating the next generation of researchers. With a vision firmly set on solving real-world challenges, his legacy will continue to inspire innovation and shape the future of advanced material technologies.

Liang Yang | Chemistry | Best Scholar Award | 13512

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Assoc Prof Dr. Liang Yang | Chemistry | Best Scholar Award

Assoc Prof Dr. Liang Yang, Xiamen University of Technology, China

Assoc. Prof. Dr. Liang Yang is a distinguished researcher in the School of Material Science and Engineering at Xiamen University of Technology, China. With a Ph.D. in Mechanical Manufacturing and Automation from Huazhong University of Science and Technology, his work spans cutting-edge innovations in optoelectronic device packaging, rare earth luminescent materials, quantum dots, and phosphor-in-glass systems. He has led several national and provincial research projects and published extensively in high-impact journals such as Materials Today Chemistry, Applied Optics, and Ceramics International. His contributions are advancing high-performance lighting technologies for next-generation LED and laser-based devices.

Author Profile

Scopus

🎓 Early Academic Pursuits

Dr. Liang Yang’s journey into the world of advanced materials and optoelectronics began with a strong academic foundation rooted in chemistry and materials science. He completed his Bachelor of Science in Materials Chemistry at the School of Chemistry and Material Science, Huaibei Normal University, China, in 2008. During this phase, he focused on biomolecular separation techniques, such as the separation of bovine and human serum proteins, which laid the groundwork for his analytical thinking and lab proficiency.

His academic momentum continued at the Huazhong University of Science and Technology, where he earned a Master’s degree in Materials Physics and Chemistry. Here, he engaged in the preparation and characterization of magnetic materials, working under Professor Caoshui Xiong. This period was crucial in shaping his understanding of functional materials and their practical applications.

His passion for innovation and research led him to pursue a Ph.D. in Mechanical Manufacturing and Automation at the prestigious Wuhan National Laboratory for Optoelectronics, also at Huazhong University of Science and Technology. Under the mentorship of Professor Sheng Liu, Dr. Yang explored the design and packaging of high-power LEDs and phosphor materials, which later became the cornerstone of his career.

👨‍🔬 Professional Endeavors

Dr. Yang currently serves as an Associate Professor at the School of Material Science and Engineering, Xiamen University of Technology. In this role, he has not only advanced his research but also mentored a new generation of engineers and material scientists.

He has led and collaborated on several national and provincial research projects, including those funded by the Natural Science Foundation of China (NSFC) and the Natural Science Foundation of Fujian Province. His leadership extends to roles as project leader and chief investigator, demonstrating his ability to guide complex, interdisciplinary research initiatives in the field of luminescent materials and photonic devices.

🔬 Contributions and Research Focus

Dr. Yang’s research is deeply embedded in the optoelectronic materials and devices domain. His interests span:

  • Phosphor materials for white LEDs

  • Rare earth doped luminescent materials

  • Laser lighting and display technologies

  • Quantum dot preparation and application

  • Transparent ceramics for high-power light sources

  • Advanced conformal coating and microfluidic control technologies for LED packaging

A hallmark of his research has been the development of full-spectrum solid-state lighting materials with ultra-high color rendering indices exceeding CRI 96. His work on low melting point tin-fluorophosphate glass matrices is particularly noted for enhancing the performance and thermal stability of LEDs.

Dr. Yang has published more than a dozen research papers in leading journals such as Materials Today Chemistry, Inorganic Chemistry Communications, Journal of Alloys and Compounds, Applied Optics, Optics Letters, and Ceramics International. His work bridges the gap between fundamental material chemistry and practical engineering applications.

🏆 Accolades and Recognition

Dr. Yang has received several recognitions for his scientific excellence, including project funding from prestigious bodies such as:

  • NSFC (Natural Science Foundation of China)

  • Fujian Provincial Research Funds

  • Xiamen University of Technology Research Initiatives

His pioneering work on phosphor-in-glass (PiG) techniques, quantum light-emitting diodes, and novel garnet phosphors has been acknowledged both nationally and internationally. He is frequently invited to contribute to leading research symposia and international conferences, including IEEE conferences on electronic packaging.

🌏 Impact and Influence

Dr. Yang’s research has had a significant impact on the LED and laser lighting industries, particularly in the realm of energy-efficient lighting and environmentally friendly phosphor materials. By optimizing the structural and optical properties of LED components, his contributions have supported the broader move toward sustainable and high-performance optoelectronic systems.

Moreover, his efforts in integrating simulation and experimental methods have empowered industries to better understand and deploy robust LED packaging technologies. His influence is also evident in the academic mentoring he provides to undergraduate and postgraduate students, shaping future innovators in material science.

🔮 Legacy and Future Contributions

Looking forward, Dr. Yang is poised to make even greater contributions to the field of advanced lighting and display technologies. His ongoing research on lead-free phosphor materials, high-efficiency quantum dot LEDs, and laser display systems aims to meet the growing demand for high-resolution, energy-saving, and eco-friendly optoelectronic solutions.

His commitment to scientific innovation, paired with his robust engineering knowledge, positions him as a key contributor to China’s material science advancements. With his extensive research background, forward-thinking approach, and collaborative mindset, Dr. Liang Yang continues to be a torchbearer for sustainable innovation in photonic materials and devices.

✍️Publication Top Notes

📘Novel near-UV-excitable Eu3+ doped K3Ca2(SO4)3× (X = F, Cl, Br) halosulphate phosphors for white LEDs

Author: Jianwei Dao , Liang Yang , Zhihao Jiang , Zihao Han , Tiqin Wei

Journal: Inorganic Chemistry Communications

Year: 2025

📘Novel green-emitting BaY2Al4SiO12:Ce3 + garnet phosphors with superior internal quantum efficiency for high color rendering white LEDs

Author: Yan Wang, Jianwei Dao, Zhihao Jiang, Zihao Han, Liang Yang, Tiqun Wei, An Xie , Zhicheng Lv

Journal: Alloys and Compounds

Year: 2025

📘Enhancement of luminescence properties and thermal stability of near-UV-excitable KSr1-x-yCayPO4:xEu3+ red phosphors by substituting Sr with Ca for white LEDs

Author: Jianwei Dao , Zihao Han , Zhihao Jiang , Tiqun Wei , Junlin Xue , Bin Wang , Sicheng Yi , Liang Yang

Journal: Ceramics International

Year: 2025

 

Avat Arman Taherpour | Medicinal Chemistry | Best Researcher Award

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Prof Dr. Avat Arman Taherpour | Medicinal Chemistry | Best Researcher Award

Professor at Al-Balqa Applied University, Jordan

Avat Arman Taherpour is a distinguished Professor of Organic Chemistry at Razi University, Kermanshah, Iran, and a respected researcher at the Medical Biology Research Center, Kermanshah University of Medical Sciences. With a Ph.D. in Organic Chemistry from Islamic Azad University, Tehran, and post-doctoral experience at The University of Queensland, Australia, under Professor Curt Wentrup, he specializes in computational chemistry, organic synthesis, and nano-chemistry. Avat’s research focuses on applying quantum mechanical methods to study molecular structures and interactions, essential for advancing medicinal chemistry and nano-materials. He has authored numerous publications and holds international recognition, listed among the top 2% researchers worldwide. Beyond academia, Avat has held significant managerial roles, including President of the Elites Foundation in Kermanshah Province, Iran, emphasizing his leadership in fostering scientific excellence and industry collaboration. His contributions continue to shape the fields of theoretical chemistry and organic synthesis globally.

Professional Profiles:

🎓 Education

Avat Arman Taherpour pursued his academic journey with a strong foundation in chemistry, earning a B.Sc. in Applied Chemistry from Islamic Azad University, Tehran, Iran in 1990. He continued his studies with an M.Sc. in Organic Chemistry from the same institution in 1992, further deepening his expertise in chemical sciences. Avat Arman Taherpour completed his academic trajectory with a Ph.D. in Organic Chemistry from the Islamic Azad University Science and Research Branch, Tehran, Iran, in 1998. His educational background provided him with a robust theoretical framework and practical skills essential for his subsequent research and professional endeavors in the field of organic chemistry.

 Professional Experience

Avat Arman Taherpour is a distinguished Professor of Organic Chemistry at Razi University, Kermanshah, Iran, where he also serves as an invited researcher at the Medical Biology Research Center, Kermanshah University of Medical Sciences. With a robust academic background, including a Ph.D. in Organic Chemistry and post-doctoral research at The University of Queensland, Australia, he specializes in Organic and Medicinal Chemistry, Quantum Mechanical and Computational Chemistry, and Nano-Chemistry. Avat has held significant administrative roles, such as President of the Elites Foundation for Kermanshah Province and Head of the Nano-Chemistry Department at Razi University. His career highlights include fostering industry-academia partnerships and contributing extensively to the advancement of scientific research and education in Iran.

Research Interest

Avat Arman Taherpour’s research interests encompass a wide array of fields within chemistry, focusing primarily on Organic and Medicinal Chemistry. His expertise extends to Quantum Mechanical and Computational Chemistry, Molecular Modeling, Theoretical Chemistry, and Physical Organic Chemistry. He is deeply engaged in Spectroscopic Studies of Organic Compounds and Nano-Chemistry, exploring innovative applications and theoretical frameworks. Avat’s research aims to bridge theoretical insights with practical applications, emphasizing the role of computational tools in enhancing experimental outcomes and understanding molecular interactions. His work underscores the importance of advancing chemical sciences through interdisciplinary approaches, particularly in areas like biochemistry, nano-systems, and medicinal chemistry, thereby contributing to both theoretical advancements and practical innovations in the field.

Award and Honors

Avat Arman Taherpour has been recognized internationally for his contributions to the field of chemistry, notably being listed among the top 2% researchers worldwide in all fields in 2019, 2020, and 2021. This prestigious recognition underscores his significant impact and scholarly contributions to scientific research. His achievements reflect his dedication to advancing knowledge in Organic and Medicinal Chemistry, Quantum Mechanical and Computational Chemistry, and Nano-Chemistry. Avat’s commitment to excellence in research and his innovative approaches have earned him acclaim within the global scientific community, highlighting his influential role in pushing the boundaries of chemical sciences

Research Skills

Avat Arman Taherpour is a distinguished researcher with a profound expertise in various domains of chemistry. His research skills encompass computational chemistry, where he applies advanced quantum mechanical methods to explore molecular structures and interactions, particularly in organic and medicinal chemistry. He is adept at organic synthesis, having designed and synthesized intricate compounds pivotal for drug development. Utilizing spectroscopic techniques such as NMR, IR, and UV spectroscopy, Avat characterizes organic and medicinal compounds with precision, elucidating their structural properties. His proficiency extends to nano-chemistry, where he investigates nano-scale materials for diverse applications in chemical sciences. Additionally, Avat’s knowledge in physical organic chemistry enables him to delve into reaction mechanisms and the physical properties of organic compounds, essential for enhancing synthetic strategies and understanding chemical behaviors. His comprehensive skill set integrates theoretical insights with practical applications, positioning him as a leading figure in advancing innovative research at the intersection of chemistry disciplines.

Publications

  1. Molecular modelling of fullerene C60 functionalized by nitric oxide for use in biological environment
    • Authors: Moztarzadeh, O., Jamshidi, M., Taherpour, A.A., Babuska, V.
    • Year: 2024
    • Journal: Scientific Reports
    • Volume: 14(1)
    • Pages: 2565
  2. Nitrile Imine Cyclizations and Rearrangements: N-Phenyl-C-styrylnitrile Imine and N-Phenyl-C-phenylethynylnitrile Imine
    • Authors: Miri, M., Taherpour, A.A., Wentrup, C.
    • Year: 2024
    • Journal: Journal of Organic Chemistry
    • Volume: 89(13)
    • Pages: 9360–9370
  3. Modeling of an efficient donor-π-acceptor-π organic solar cell: a first principle study of a hole–electron process by DFT and TD-DFT study
    • Authors: Hassani Daramroudi, A., Taherpour, A.A., Jamshidi, M.
    • Year: 2024
    • Journal: Journal of the Iranian Chemical Society
    • Volume: 21(5)
    • Pages: 1353–1368
  4. Ni0.5Co0.5WO4@f-MWCNTs/GO nanocomposite with improved supercapattery activity as the electrode for asymmetric supercapacitor device
    • Authors: Abdolahi, B., Gholivand, M.B., Shamsipur, M., Mirzaei, M., Daramroudi, A.H., Taherpour, A.A.
    • Year: 2023
    • Journal: Journal of Energy Storage
    • Volume: 73
    • Pages: 109181
    • Citations: 9
  5. Experimental and computational investigation of multi-walled carbon nanotubes decorated by Co–Ni–Se@MoSe2 core–shell as a sustainable counter electrode for dye-sensitized solar cells
    • Authors: Norouzibazaz, M., Gholivand, M.B., Taherpour, A.A., Mirzaei, M.
    • Year: 2023
    • Journal: Materials Today Energy
    • Volume: 38
    • Pages: 101447
    • Citations: 5
  6. Corrigendum to: Synthesis and Application of Nano Vanadium-Oxo Pyridiniumporphyrazinato Sulfonic Acid for Synthesizing Pyrazole and Dihydropyrano [2,3] pyrazole Derivatives
    • Authors: Moeinimehr, M., Safaiee, M., Zolfigol, M.A., Taherpour, A.A.
    • Year: 2023
    • Journal: ChemistrySelect
    • Volume: 8(16)
    • Pages: e202204422
  7. Zwitterionic hydrogen-bonded organic framework (ZHOF): a metal-free water oxidation proton relay in alkaline and neutral media
    • Authors: Azizi, R., Shamsipur, M., Taherpour, A., Pashabadi, A.
    • Year: 2023
    • Journal: Journal of Materials Chemistry A
    • Volume: 11(3)
    • Pages: 1491–1502
    • Citations: 7
  8. Catalytic synergism in Mn-heterostructured molybdenum oxysulfide hybridized with transition metal phosphides: A robust amorphous water oxidation catalyst
    • Authors: Ahanjan, K., Shamsipur, M., Taherpour, A., Pashabadi, A.
    • Year: 2022
    • Journal: Electrochimica Acta
    • Volume: 433
    • Pages: 141249
    • Citations: 4
  9. An ideal ratiometric fluorescent probe provided by the surface modification of carbon dots for the determination of Pb2+
    • Authors: Paydar, S., Feizi, F., Shamsipur, M., Taherpour, A.A., Jamshidi, M.
    • Year: 2022
    • Journal: Sensors and Actuators B: Chemical
    • Volume: 369
    • Pages: 132243
    • Citations: 23
  10. Retraction: Experimental and theoretical studies of the nanostructured {Fe3O4@SiO2@(CH2)3Im}C(CN)3 catalyst for 2-amino-3-cyanopyridine preparation via an anomeric based oxidation
    • Authors: Zolfigol, M.A., Kiafar, M., Yarie, M., Taherpour, A., Saeidi-Rad, M.
    • Year: 2022
    • Journal: RSC Advances
    • Volume: 12(42)
    • Pages: 27114

 

 

Bijo Mathew | Medicinal Chemistry | Best Researcher Award

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Prof Dr. Bijo Mathew | Medicinal Chemistry | Best Researcher Award

Professor at Amrita School of Pharmacy India.

Prof. Dr. Bijo Mathew is a distinguished academic in pharmaceutical sciences, currently serving as a Professor at Amrita School of Pharmacy, Amrita Vishwa Vidyapeetham, Kochi. With a robust background in molecular docking and drug design using AutoDock 4.2, Biovia, and Glide, he contributes significantly as Section Editor for Coronaviruses (BenthamScience) and Editorial Member for several prestigious journals. Dr. Mathew’s teaching career spans from Assistant Professor to his current role, imparting knowledge across various institutions in India. He is a sought-after speaker, delivering talks internationally and nationally on drug design and medicinal chemistry. Recognized as one of the Top 2% Scientists by Stanford, he has received multiple awards including the Amrita Publication Research Award and Best International Collaborator Award. Dr. Mathew holds patents for compositions addressing neurological disorders, underscoring his commitment to advancing pharmaceutical research and education.

Professional Profiles:

🎓 Education

Prof. Dr. Bijo Mathew boasts a distinguished academic journey in pharmaceutical sciences, culminating in a Ph.D. from Jawaharlal Nehru Technological University, Hyderabad, India, specializing in Pharmaceutical Science. Prior to his doctoral studies, he completed his Master’s in Pharmaceutical Chemistry and Bachelor’s in Pharmacy at The Tamilnadu Dr. M.G.R. Medical University, Chennai, and his pre-degree at Mahatma Gandhi University, Kottayam, India. His doctoral research under the guidance of Dr. A. Jerad Suresh focused on the synthesis, characterization, and pharmacological evaluation of heterocyclic derivatives, contributing significantly to the field. Prof. Mathew’s academic journey is marked by a commitment to advancing pharmaceutical knowledge, evident in his extensive expertise across various domains of pharmaceutical research, including molecular docking, dynamics, and pharmacophore mapping. His educational foundation and research acumen continue to drive innovative contributions in drug discovery and development, positioning him as a prominent figure in academia and pharmaceutical research.

Area of Interest and Expertise

Prof. Dr. Bijo Mathew’s research interests encompass a diverse array of fields within pharmaceutical chemistry and drug discovery. His expertise spans the chemistry and biological exploration of various classes of compounds such as chalcones and isatins. He is involved in the synthesis and pharmacological evaluation of heterocyclic nuclei including benzimidazole, thiadiazole, pyrimidine, furan, pyrazoline, and thiazole derivatives, focusing on their potential as CNS depressants, anticonvulsants, anticancer agents, antioxidants, and neuroprotective compounds. Dr. Mathew specializes in designing inhibitors for key enzymes like MAO, AChE, BACE1, and Hsp90, utilizing techniques such as monowave-assisted synthesis and structural elucidation through IR, NMR, and MASS spectroscopy. His research also extends to molecular docking, dynamics, pharmacophore mapping, and 3D-QSAR studies, as well as the isolation and computational analysis of natural secondary metabolites from medicinal plants.

Expertise in Software:

  • AutoDock 4.2, Biovia, Glide

Editorial Contributions:

  • Section Editor for Coronaviruses (BenthamScience)
  • Editorial Member for Brain Sciences (MDPI), Combinatorial Chemistry & High Throughput Screening (Bentham Science), Molecules (MDPI), Current Topics in Medicinal Chemistry (Bentham Science), Current Drug Targets (Bentham Science)

Teaching Experience:

  • Professor at Amrita School of Pharmacy, Amrita Vishwa Vidyapeetham, Kochi, India, since April 2022
  • Associate Professor and Assistant Professor at various institutions in India prior to current position

Invited Talks:

  • Presented internationally and nationally on topics related to drug design, molecular docking, and medicinal chemistry.

Awards and Recognition:

  • Recognized with multiple awards including Top 2% Scientists from Stanford, Amrita Publication Research Award, Best International Collaborator Award, Chancellor’s Publication Award, Publication Merit Award, and Best Resource Person Award at National College of Pharmacy.

Patents:

  • Granted patents on compositions for neurological disorders and therapeutic agents.

Publications

  1. Elucidating molecular mechanism and chemical space of chalcones through biological networks and machine learning approaches
    • Authors: Manaithiya, A., Bhowmik, R., Acharjee, S., Parkkila, S., Aspatwar, A., Mathew, B.
    • Year: 2024
    • Citations: 0
  2. Machine learning driven web-based app platform for the discovery of monoamine oxidase B inhibitors
    • Authors: Kumar, S., Bhowmik, R., Oh, J.M., Kim, H., Mathew, B.
    • Year: 2024
    • Citations: 3
  3. Development of morpholine ring-bearing halogenated α,β-unsaturated ketones as selective monoamine oxidase-B inhibitors
    • Authors: Lee, J., Parmbil, S.K., Pandit, N.K., Kim, H., Mathew, B.
    • Year: 2024
    • Citations: 0
  4. Isatin-tethered halogen-containing acylhydrazone derivatives as monoamine oxidase inhibitor with neuroprotective effect
    • Authors: Kumar, S., Oh, J.M., Prabhakaran, P., Kim, H., Mathew, B.
    • Year: 2024
    • Citations: 3
  5. MzDOCK: A free ready-to-use GUI-based pipeline for molecular docking simulations
    • Authors: Kabier, M., Gambacorta, N., Trisciuzzi, D., Nicolotti, O., Mathew, B.
    • Year: 2024
    • Citations: 0
  6. Design and Synthesis of the Linezolid Bioisosteres to Resolve the Serotonergic Toxicity Associated with Linezolid
    • Authors: Girase, R.T., Ahmad, I., Oh, J.M., Kim, H., Patel, H.M., Mathew, B.
    • Year: 2024
    • Citations: 0
  7. MAO-B Inhibitor (2E)-3-(4-Bromophenyl)-1-(1H-indol-3-yl) prop-2-en-1-one as a Neuroprotective Agent Against Alzheimer’s Disease
    • Authors: Sasidharan, R., Mohanan, R., Kukreti, N., Manju, S.L., Mathew, B.
    • Year: 2024
    • Citations: 0
  8. Correction to: Targeting cellular batteries for the therapy of neurological diseases (Environmental Science and Pollution Research)
    • Authors: Arora, A., Behl, T., Sehgal, A., Mathew, B., Bungau, S.
    • Year: 2024
    • Citations: 0
  9. Chalcones with N-Methylpiperazine Moiety: Synthesis, Monoamine Oxidase Inhibition, Neuroprotective Effect and Computer Simulation Study
    • Authors: Jayan, J., Trisciuzzi, D., Benny, F., Nicolotti, O., Mathew, B.
    • Year: 2024
    • Citations: 0
  10. A structure-based approach to explore novel COX-2 inhibitors using pharmacophore modelling, 3D-QSAR analysis, virtual screening and dynamics simulation study
    • Authors: Krishnendu, P.R., Benny, S., Kumar, S., Zachariah, S.M., Mathew, B.
    • Year: 2024
    • Citations: 3