Chandra Mohan | Medicinal Chemistry | Excellence in Research

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Chandra Mohan | Medicinal Chemistry | Excellence in Research

Assoc. Prof. Dr. Chandra Mohan at K R Mangalam University, Gurugram, India.

Assoc. Prof. Dr. Chandra Mohan is an accomplished researcher and educator in Inorganic Chemistry with a Ph.D. in chemical sensors 🧪. Currently serving at K.R. Mangalam University, he has over 12 years of academic experience 📚. His expertise spans green chemistry, nanomaterials, and environmental sustainability 🌱. With global collaborations 🌍, 12 authored/edited books 📘, and 15 book chapters, he is a driving force in sustainable science. Dr. Mohan has guided multiple Ph.D. scholars 🎓, led funded projects, and organized international conferences. His dynamic contributions continue to inspire innovation, education, and impactful research across borders.

Publication Profile 

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Education

Assoc. Prof. Dr. Chandra Mohan holds a Ph.D. in Inorganic Chemistry 🧪 from Guru Gobind Singh Indraprastha University, specializing in chemical sensors. He is currently a Post-Doctoral Scholar at Amity University, Dubai 🏙️. He also earned an MBA in HR + IT in 2024 📊. Dr. Mohan has completed an M.Phil. in acid catalysts from the University of Delhi 🧫 and an M.Sc. in Applied Chemistry from MDSU 🧬. His academic journey began with a B.Sc. in PCM 📘 and included a diploma in computer programming 💻. He also qualified GATE (Chemistry) in 2013 ✅, showcasing his scholarly depth.

Experience

Assoc. Prof. Dr. Chandra Mohan brings over 13 years of dedicated academic experience to the field of chemistry education 🧪. Since August 2023, he has served as an Associate Professor at K. R. Mangalam University, Gurugram 🏫. Prior to that, he held the position of Assistant Professor at the same university from 2013 to 2023, contributing a solid decade of teaching, research, and academic leadership 📚. His early academic journey began at HMRITM College, affiliated with GGSIPU, Delhi, where he served as Assistant Professor from January 2010 to February 2011 👨‍🔬, marking the foundation of his scholarly path.

Awards 

Assoc. Prof. Dr. Chandra Mohan has been widely recognized for his academic brilliance and social contributions 🎓🌍. He received the Advanced Materials Award from IAAM, Sweden 🇸🇪 in 2024 and the Best Researcher Award from ScienceFather in 2023 🔬. His passion for innovation earned him the Young Researcher Award by IARC, Kenya 🇰🇪 in 2022 and Best Paper Award at DAM2IC the same year 📄. With consecutive Legal Awareness Awards (2020–2022) and honors for Social Services and Youth Engagement 🇮🇳, he exemplifies academic excellence and civic responsibility. He also received the Young Faculty Award in 2016 & 2018.

Research Focus 

Assoc. Prof. Dr. Chandra Mohan specializes in Inorganic Chemistry, with a strong research focus on chemical sensors, coordination chemistry, nanocomposites, and sustainable environmental materials 🌱🧪. His expertise spans Schiff base metal complexes, clay mineral applications, and green chemistry approaches for drug design 💊 and water treatment 💧. He actively explores polymer composites, ion-selective electrodes, and biocompatible catalysts for eco-friendly industrial solutions 🌍. His interdisciplinary collaborations extend to bioplastics, AI in sustainability, and agricultural innovations 🌾, highlighting his dedication to solving real-world problems through chemistry and materials science.

Publication Top Notes

Haona Bao | Medicinal Chemistry | Best Researcher Award

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Haona Bao | Medicinal Chemistry | Best Researcher Award

Ms. Haona Bao, The Ohio State Univerisity, United States

Ms. Haona Bao is a dynamic Ph.D. candidate in Food Science and Technology at The Ohio State University 🎓. With academic roots at UC Davis and Tennessee State University, her research spans vibrational spectroscopy, food quality, and fibromyalgia diagnostics 🧪. She has published impactful studies on encapsulation, essential oils, and Raman-based detection in top journals 📚. As a teaching assistant, lab safety manager, and award-winning presenter 🏆, she excels in scientific communication and leadership. Haona combines analytical skills, regulatory expertise, and creativity to shape the future of food safety and health innovation 🌾🔬.

Publication Profile

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Education

Ms. Haona Bao is an accomplished scholar with a strong academic foundation in food science. She is currently pursuing her Ph.D. in Food Science and Technology at The Ohio State University (expected August 2025) 🧪. She earned her Master of Science in Food and Animal Science from Tennessee State University between 2019 and 2021 🐓🥼. Her academic journey began at the University of California, Davis, where she obtained her Bachelor of Science in Food Science and Technology in 2019 🍇🔬. Her diverse educational background reflects a deep commitment to advancing innovation in food systems and safety 🌱📘.

Experience

Ms. Haona Bao has extensive research experience in food science and technology. At The Ohio State University (2022–present), she serves as a Doctoral Research Assistant, applying vibrational spectroscopy and multivariate analysis for food quality, adulteration detection, and beer evaluation 🍺📊. She also explores metabolomics for fibromyalgia diagnosis 🧠🧬. As a Teaching Assistant, she supports lab-based courses and student learning 👩‍🏫📝. In her role as Lab Safety Manager, she ensures chemical safety and compliance 🧯⚗️. At Tennessee State University (2019–2021), she developed polymer-based encapsulation, led poultry trials, and contributed to novel packaging innovations.

Awards

Ms. Haona Bao has obtained key certifications that strengthen her expertise in food safety and regulatory compliance. In July 2020, she completed Advanced HACCP and Preventive Controls Training from the Food Safety Net Services (FSNS) 🧼🧪, equipping her with in-depth knowledge of hazard analysis and critical control points. Earlier, in October 2019, she earned certification in Preventive Controls for Human Food from the Food Safety Preventive Control Alliance (FSPCA) 🥫🔍. These credentials highlight her commitment to ensuring safe food production processes and maintaining high industry standards in quality assurance and public health 🏅🌍.

Research Focus

Ms. Haona Bao specializes in Food Science and Analytical Chemistry, with a strong research focus on vibrational spectroscopy, metabolomics, and encapsulation technologies 🧪🌿. Her work bridges food quality control, functional ingredient delivery, and health diagnostics. She applies advanced spectroscopic tools like FT-IR, FT-MIR, and SERS for rapid, non-invasive diagnosis of conditions like fibromyalgia and long COVID 🧠⚡. Additionally, she explores natural polymers and essential oils in encapsulation for food and health applications 🌰🧴. Her cross-disciplinary efforts connect food safety, health monitoring, and chemical fingerprinting, making impactful contributions to nutraceuticals, rheumatology, and food authentication 📊🍷.

Publication Top Notes

Application of yellow mustard mucilage in encapsulation of essential oils and polyphenols using spray drying

Rapid biomarker-based diagnosis of fibromyalgia syndrome and related rheumatologic disorders by portable FT-IR spectroscopic techniques

Metabolic fingerprinting for the diagnosis of clinically similar long COVID and Fibromyalgia using a portable FT-MIR spectroscopic combined with chemometrics

Early diagnosis of fibromyalgia using surface-enhanced raman spectroscopy combined with chemometrics

Portable mid-infrared spectroscopy combined with chemometrics to diagnose fibromyalgia and other rheumatologic syndromes using rapid volumetric absorptive microsampling

Authentication and Quality Control of Distilled Spirits by Vibrational Spectroscopy

Salih PAŞA | Pharmaceutical Chemistry | Best Researcher Award

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Salih PAŞA | Pharmaceutical Chemistry | Best Researcher Award

Assoc. Prof. Dr Salih PAŞA, Afyon Kocatepe University, Turkey

Assoc. Prof. Dr. Salih PAŞA is an esteemed inorganic chemist specializing in pharmaceutical chemistry, anticancer research, and catalytic investigations. He earned his BSc (2007), MSc (2010), and PhD (2014) in Inorganic Chemistry. With extensive expertise in boron compounds, biodegradable polymers, and spectroscopy techniques, he has significantly contributed to Schiff base ligand coordination chemistry and Suzuki coupling reactions. Currently, he serves at Afyon Kocatepe University, Turkey. His pioneering work on boron-based cancer therapeutics and water purification underscores his impactful research.

Publication Profile

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Education

Assoc. Prof. Dr. Salih Paşa 🎓 has built a strong academic foundation in chemistry, specializing in inorganic chemistry. He earned his Bachelor of Science (BSc) degree in Chemistry (2002-2007) 🧪, followed by a Master of Science (MSc) in Inorganic Chemistry (2007-2010) ⚗️. His passion for research and scientific exploration led him to pursue a PhD in Inorganic Chemistry (2010-2014) 🔬. Through years of dedication, he has contributed significantly to the field, advancing knowledge in chemical sciences. His academic journey reflects a commitment to excellence, making valuable contributions to research and education in inorganic chemistry. 📚✨

Research Interest

Assoc. Prof. Dr. Salih Paşa 🔬 focuses his research on the coordination chemistry of polydentate ligands, particularly thio Schiff bases and their transition metal complexes. His work explores their analytical applications, synthetic utility, and biological activity 🧪. He is especially interested in palladium complexes of (N,O,S) and (N,O,P) type ligands, known for their catalytic role in Suzuki coupling reactions ⚗️. Additionally, he investigates boronic acids, unique boron-based compounds that act as Lewis acids, forming reversible covalent bonds with sugars, amino acids, and other Lewis base donors. His studies contribute significantly to advancing inorganic and organometallic chemistry. 🌟

Instrumental Expertise

Assoc. Prof. Dr. Salih Paşa 🎓 possesses extensive expertise in advanced analytical instrumentation, crucial for modern chemical research. He is highly skilled in techniques such as LC-MS/MS, NMR (¹³C & ¹H), XRD, SEM, FTIR, UV-Vis, AAS, GC, and thermal analysis 🔬⚗️. His proficiency in single-crystal X-ray diffraction studies allows for precise molecular structure determination, enhancing the understanding of complex chemical compounds 🧪. With a strong command of these instrumental techniques, he contributes significantly to inorganic and materials chemistry, facilitating groundbreaking research in coordination chemistry, catalysis, and boron-based compounds. His expertise ensures high precision in chemical analysis.

Future Potential

Assoc. Prof. Dr. Salih Paşa 🌱🔬 is actively exploring innovative research in sustainable chemistry and materials science. His recent work focuses on developing biodegradable polymer materials from waste potato starch, contributing to green chemistry and environmental sustainability 🌍♻️. Additionally, his research on the polymerization of Schiff base ligands opens new possibilities in advanced materials, with potential applications in catalysis, drug delivery, and nanotechnology ⚗️. Through his dedication to eco-friendly solutions and cutting-edge polymer research, he aims to revolutionize materials science, creating sustainable alternatives that benefit both industry and the environment. His work paves the way for a greener future. 🌟

Scientific Recognition

Assoc. Prof. Dr. Salih Paşa 📚🔬 has earned significant scientific recognition through multiple publications in high-impact SCI journals, including Chinese Chemical Letters, Inorganica Chimica Acta, Polyhedron, Applied Catalysis A, Applied Organometallic Chemistry, and Tetrahedron: Asymmetry 🏆. His collaborations with international researchers, particularly from Kazakh-British Technical University, highlight his global academic influence 🌍🤝. His contributions to catalysis, drug discovery, and polymer chemistry reinforce the importance of his research, driving advancements in these fields. Through his dedication and impactful studies, he continues to shape the future of inorganic and organometallic chemistry. ⚗️✨

Research Focus

Assoc. Prof. Dr. Salih Paşa’s research primarily focuses on green chemistry 🌱, nanotechnology 🧪, and materials science 🏗️. His work includes the green synthesis of nanoparticles ⚛️, biodegradable materials for eco-friendly applications 🌍, and catalysis in organic synthesis 🔬. He has contributed significantly to biodegradable food packaging 🍽️, anticancer drug discovery 🏥, and advanced polymer materials 🏭. His studies on Schiff bases 🧬, metal complexes ⚗️, and biocompatible materials 🔄 highlight his expertise in designing sustainable and functional materials with industrial and biomedical applications. His work aligns with pharmaceutical chemistry 💊, material engineering 🏢, and green nanotechnology 🌿.

Publication Top Notes

Green synthesis of silver nanoparticles via Cynara scolymus leaf extracts: The characterization, anticancer potential with photodynamic therapy in MCF7 cells

The fabrication of bilayer polylactic acid films from cross-linked starch as eco-friendly biodegradable materials: synthesis, characterization, mechanical and physical properties

Silane doped biodegradable starch-PLA bilayer films for food packaging applications: Mechanical, thermal, barrier and biodegradability properties

Synthesis, characterization and catalytic behavior in the Suzuki reaction of Schiff base and its complexes and the optical properties of nickel complex used in the fabrication …

Flavonoids from Sideritis Species: Human Monoamine Oxidase (hMAO) Inhibitory Activities, Molecular Docking Studies and Crystal Structure of Xanthomicrol

Synthesis, characterization, electrochemical behaviors and applications in the Suzuki–Miyaura cross-coupling reactions of N2S2O2 thio Schiff base ligand and its Cu (II), Co …

Physicochemical properties for food packaging and toxicity behaviors against healthy cells of environmentally friendly biocompatible starch/citric acid/polyvinyl alcohol …

The synthesis of boronic-imine structured compounds and identification of their anticancer, antimicrobial and antioxidant activities

Structural investigation of raw clinoptilolite over the Pb2+ adsorption process from phosphoric acid