Author Profile

Summary

Chellapandi is a dedicated researcher in the field of nanomaterial synthesis, characterization, and applications in environmental remediation and energy. with a strong academic foundation from sbk college, vhn sn college, and vellore institute of technology, his journey reflects consistent growth and commitment to impactful research. his work ranges from schiff base metal complexes to advanced montmorillonite frameworks and biocompatible nanomaterials for pathogen deactivation. through teaching, research guidance, and active participation in scientific forums, he has contributed to both knowledge creation and newcomer socialization in academic and research communities.

Early academic pursuits

Chellapandi’s academic journey began with a bachelor of science in chemistry from sbk college, tamil nadu, where he laid a strong foundation in chemical sciences. he pursued his master of science in chemistry at vhn sn college, completing a dissertation on the synthesis, characterization, and biological activities of schiff base metal complexes under the guidance of dr. n. raman, he earned his ph.d. in chemistry from the vellore institute of technology, working on the dissertation titled “montmorillonite k30/metal oxide framework for organic pollutants degradation” under the supervision of dr. g. madhumitha. these formative years were crucial in shaping his passion for nanomaterials, photocatalysis, and environmental remediation, as well as building the resilience and adaptability required for newcomer socialization in academia.

Professional endeavors

Chellapandi has gained diverse professional experience, starting as a lecturer in chemistry at v.s.v.n. polytechnique college, where he focused on teaching and laboratory instruction. he later served as a teaching and research assistant at vellore institute of technology, engaging in laboratory teaching, guiding projects, and participating in institutional responsibilities such as naac verification. currently, he holds the position of assistant professor (research) at the chennai institute of technology, centre for applied nanomaterials, where his work bridges innovative research and mentorship. these experiences reflect his ability to balance teaching, administration, and cutting-edge research while navigating newcomer socialization within academic and research communities.

Contributions and research focus

Chellapandi’s primary research interests lie in nanomaterial synthesis, characterization, and their applications in environmental remediation and energy. his doctoral work on montmorillonite-based metal oxide frameworks addressed the pressing issue of organic pollutant degradation. he has also contributed significantly to the field of pathogen deactivation through biocompatible nanomaterial-fabricated personal protective equipment using 3d printing technology. his expertise spans advanced characterization techniques such as xrd, uv-vis drs, sem, tem, pl, and ftir. beyond technical skills, he excels in experimental design, data analysis, and scientific communication, making him an impactful contributor to materials science and nanotechnology.

Impact and influence

Chellapandi’s research has advanced the fields of photocatalysis and environmental nanotechnology by providing innovative approaches to pollutant degradation and pathogen control. his publications in reputable journals and presentations at scientific conferences have expanded the visibility of his work while inspiring collaborative initiatives. he has also influenced young researchers and students through his teaching and mentorship, ensuring the transfer of knowledge and research culture to the next generation.

Academic cites

With research published in respected journals, chellapandi has established a credible academic footprint. his citations reflect recognition of his contributions to nanomaterial-based environmental remediation and pathogen deactivation. by engaging in national and international conferences, he has fostered scholarly dialogues that enhance both the academic community and industrial applications.

Legacy and future contributions

Chellapandi is dedicated to continuous learning and innovation, with a vision of contributing to sustainable environmental solutions and energy applications through advanced nanomaterials. his ongoing research aims to expand the utility of nanomaterials for societal benefit, including health protection and energy conservation. as he continues to mentor students and contribute to academic development, his legacy will be marked by impactful discoveries, collaborative spirit, and commitment to translating laboratory findings into real-world applications.

Publications

Title: Optimization strategies for norfloxacin photocatalytic degradation using response surface methodology and artificial neural network: a review
Author(s): Thangapandi Chellapandi, S. Sudharsan, Muthukani Elamathi
Journal: Chemical Papers

Title: Zeolitic imidazolate framework-8 microcrystals as photocatalysts for acid red 27 food dye and tetracycline drug degradation
Author(s): Thangapandi Chellapandi, Nandhakumar Eswaramoorthy, N. Dineshbabu, Senthilkumar Nallusamy, Krzysztof Pikon, Mahesh Ganesapillai
Journal: Vacuum

Title: Ultrathin g-C₃N₅ nanosheets: A sustainable metal-free photocatalyst for efficient ciprofloxacin degradation
Author(s): Thangapandi Chellapandi, Muthukani Elamathi
Journal: Vacuum

Title: Interface engineering of 1D/2D FeVO₄/MoS₂ hetero-structured nanocomposite with effective interfacial charge transfer: Facile synthesis and antibiotic drug degradation
Author(s): Thangapandi Chellapandi, Aishwarya Subramanian, Gunabalan Madhumitha, Muthukani Elamathi, Selvaraj Mohana Roopan
Journal: Materials Letters

Title: Ultrasonication-assisted synthesis of CuO-decorated montmorillonite K30 nanocomposites for photocatalytic removal of emerging contaminants: A response surface methodology approach
Author(s): Thangapandi Chellapandi, Gunabalan Madhumitha, Jayaprakash Avinash
Journal: Environmental Research

Conclusion

Driven by innovation and continuous learning, chellapandi has built a career that merges academic excellence, research breakthroughs, and mentorship. his contributions in photocatalysis, pollutant degradation, and nanotechnology applications highlight his commitment to sustainable solutions. as he continues advancing in materials science, his legacy will be defined by impactful discoveries, collaborative research, and support for the next generation of scientists, while promoting values of adaptability and newcomer socialization in the evolving research landscape.

Prof. Hari Babu Bollikolla – chemistry – Best Researcher Award

Posted on 27/06/202527/06/2025 by Innovator Awards

Prof. Hari Babu Bollikolla - chemistry - Best Researcher Award

Acharya Nagarjuna University - India

Author Profile

ORCID

SCOPUS

🎓 Early academic pursuits

Dr. Hari Babu Bollikolla began his academic journey in andhra pradesh, india, demonstrating exceptional commitment from a young age. after securing 76% in ssc in 1993, he advanced with 81.2% in his intermediate studies specializing in mpc. he pursued a b.sc. degree in mpc, completing it in 1999 with 67.4%, followed by an m.sc. in organic chemistry in 2001. his research-oriented mindset led him to complete a ph.d. in physical sciences from acharya nagarjuna university in 2006. showcasing a multidimensional approach, he also earned an mba in hr & finance in 2011. his strong foundational knowledge in both science and management shaped his academic outlook and future contributions.

👨‍🏫 Professional endeavors

Dr. Bollikolla’s academic career spans over two decades, rooted in acharya nagarjuna university. he started as a lecturer in triveni degree college (2001-2003) and grew steadily through group-b faculty to assistant professor in 2006. he was promoted to associate professor in 2018 and became a full professor in 2021. currently, he serves as the registrar of andhra kesari university and continues to contribute as a professor in the department of chemistry at anu. he has held key roles such as dean of the faculty of sciences, head of departments, and convener of state-level entrance exams, reflecting his dynamic administrative capabilities and commitment to higher education.

🧪 Contributions and research focus

Dr. Bollikolla’s research portfolio spans a wide array of synthetic chemistry themes, including anticancer agents, heterocyclic flavonoids, and nutraceuticals. his ph.d. thesis explored the chemistry conformational analysis of 2-aryl-trans-decahydroquinolin-4-ols using kinetics and proton nmr spectroscopy. with 36 ph.d. and 11 m.phil scholars guided under his supervision, he has fostered a strong research culture. he has completed and managed multiple research projects funded by prestigious agencies like serb, ugc, csir, dst-fist, and even international institutions like king saud university and university malaysia sabah. his notable projects involve synthesis of polyhydroxy flavonoids, benzylimidazolyl carbamates, and cutting-edge computational work on hiv-integrase inhibitors—pioneering applications often integrated with power electronics in advanced drug modeling systems.

🌍 Impact and influence

Dr. Bollikolla’s work has had a notable impact across academia and the pharmaceutical research sector. by blending traditional synthetic methodologies with advanced catalysis and molecular chemistry modeling, he has positioned his research at the intersection of theoretical and applied sciences. his collaborations span both national and international borders, including multiple memoranda of understanding (mou) with research labs and industries. these partnerships have led to innovations in anticancer drug discovery and nutraceutical development—domains increasingly empowered by computational simulations often enhanced by power electronics for lab automation and data acquisition.

📈 Academic citations and digital presence

Dr. Bollikolla maintains a strong presence in the academic world through his digital identifiers. his orcid (0000-0003-1308-391x), scopus (24070474800), and web of science researcher id (n-7076-2018) reflect his wide-reaching contributions. his citation impact is reflected through numerous peer-reviewed publications, with increasing relevance in interdisciplinary studies that align chemistry chemistry, computational biology, and device-aided spectroscopy—areas where power electronics aids precision and efficiency in experimental chemistry.

🏛️ Legacy and future contributions

As registrar and senior academician, dr. bollikolla continues to mentor the next generation of chemists and researchers. his leadership at andhra kesari university and acharya nagarjuna university sets the tone for curriculum innovation, research excellence, and institutional development. his future endeavors are likely to deepen transdisciplinary research, particularly integrating chemical synthesis with data-driven, sensor-based lab frameworks. these systems, when harmonized with power electronics, promise to revolutionize modern chemistry labs, making them more responsive, automated, and accurate.

Notable Publications

Title: An efficient Cu catalyzed regioselective ortho-nitration approach for the synthesis of 2-nitroarylcyanamides: Molecular docking and ADME studies
Author(s): Boddapati, S. N. Murthy; Tamminana, Ramana; Senapathi, Hari Jyothi; Kola, A. Emmanuel; Ansari, Siddique Akber; Kapavarapu, Ravi Kumar; Bollikolla, Hari Babu; Jonnalagadda, Sreekantha Babu
Journal: Journal of Molecular Structure
Title: (±)-10-Camphorsulfonic acid catalyzed effective synthesis of α,β-unsaturated β-aminoketones from enaminone
Author(s): Hari Babu Bollikolla; V. B. R. Krishnan Kambhampati; Srihari Chennuboyina; Baby Ramana Mutchu
Journal: Monatshefte für Chemie - Chemical Monthly
Title: Zn(OAc)₂•2H₂O-Catalyzed Betti Base Synthesis under Solvent-free Conditions
Author(s): M. Mujahid Alam; Hari B. Bollikolla; Ravi Varala
Journal: Letters in Organic Chemistry
Title: A mini review on emerging targets and approaches for the synthesis of anti-viral compounds: In perspective to COVID-19
Author(s): Maheswara Rao Gokada; Visweswara Rao Pasupuleti; Hari Babu Bollikolla
Journal: Mini-Reviews in Medicinal Chemistry
Title: Catalyst-free facile and efficient one-pot synthesis of densely functionalized pyrroles and α-amino ketones
Author(s): Hari Babu Bollikolla
Journal: Journal of Heterocyclic Chemistry

Dr. MD. Zohurul Islam – Molecular Modelling – Best Researcher Award

Posted on 03/03/202503/03/2025 by Innovator Awards

Dr. MD. Zohurul Islam - Molecular Modelling - Best Researcher Award

Jashore University of Science and Technology - Bangladesh

Author Profile

SCOPUS

ORCID

🎓 Early academic pursuits

MD. Zohurul Islam embarked on his academic journey with a strong foundation in mathematics, earning his bachelor of science (honors) in mathematics from khulna university, bangladesh, with distinction and ranking fourth in his class. his passion for applied mathematics led him to pursue his master's degree at the same institution, where he achieved a remarkable cgpa of 3.96 out of 4.00 and secured the second rank. during his master's studies, he focused on complex topics like pressure-driven flow instability and convective heat transfer through rotating curved channels. his academic excellence and curiosity in mathematical modeling and fluid mechanics set the stage for his future research ambitions. to further broaden his expertise, he completed his phd in engineering from the university of technology sydney, australia, where his thesis focused on the interaction of glucocorticoid drugs with model lung surfactant monolayers using molecular dynamics simulations.

💼 Professional endeavors

Dr. Islam has built a distinguished career as an associate professor in the department of mathematics at jashore university of science and technology in bangladesh. his professional work revolves around advanced computational techniques, including molecular dynamics and biomolecular modeling, applying his deep knowledge of mathematics to tackle biological and physical systems. he is actively involved in high-performance computing (hpc) environments using both cpu and gpu platforms and collaborates on multi-institutional projects that combine computational biophysics with fluid dynamics. his proficiency in programming languages such as c and fortran and tools like gromacs, ucsf chimera, and matlab makes him a versatile researcher, bridging the gap between theoretical mathematics and applied computational science.

🧪 Contributions and research focus

Dr. Islam’s research contributions are multifaceted, focusing on understanding nanoplastic interactions, corticosteroid interactions, and the molecular dynamics of complex biological systems. his pioneering work investigates the behavior of drugs and nanoparticles at the molecular level, particularly their interactions with lung surfactant monolayers, which has implications for Molecular Modelling respiratory health. beyond biophysics, he also explores numerical simulations, heat and mass transfer, fluid mechanics, and thermodynamics, showcasing his ability to apply mathematical principles to real-world scientific challenges. his research not only enhances the understanding of molecular interactions but also contributes to the development of predictive models in both biological and industrial applications.

🏆 Accolades and recognition

Throughout his academic and professional journey, dr. islam has been honored with numerous awards and scholarships that reflect his dedication and talent. from receiving undergraduate merit scholarships every year during his bachelor's studies to earning the prestigious dean award for his outstanding academic performance, his early promise was clear. his research Molecular Modelling endeavors have been supported by competitive fellowships, such as the national science and technology (nst) research fellowship and development project awards in bangladesh. his excellence was further recognized internationally with phd scholarships, including the feit hdr scholarship and the uts international research scholarship, as well as a travel award from the bangladesh-sweden trust fund, which enabled him to share his research on global platforms.

🌍 Impact and influence

Dr. Islam’s interdisciplinary research has had a meaningful impact on the fields of computational biophysics and fluid dynamics, contributing to a better understanding of how drugs and nanoparticles behave within biological systems. his work has influenced both academic and applied sciences, offering insights that can be used in pharmaceutical development and Molecular Modelling environmental studies, particularly concerning nanoplastic toxicity. through his participation in collaborative projects and international conferences, he has helped bridge research efforts between bangladesh and other countries, fostering scientific exchange and innovation. as a member of esteemed organizations like the royal society of chemistry and the australian society for biophysics, he continues to contribute to global scientific discussions and developments.

🧠 Legacy and future contributions

With a strong academic background and a dynamic research portfolio, dr. islam is poised to leave a lasting legacy in the fields of computational mathematics and molecular biophysics. his future research aims to further unravel the complexities of drug and nanoparticle interactions at the nanoscale, potentially influencing therapeutic strategies and environmental health policies. through his role as an educator and mentor at jashore university of science and technology, he is also dedicated to cultivating the next generation of scientists and mathematicians, ensuring that his knowledge and innovative approaches continue to inspire and advance scientific discovery.

Notable Publications

1️⃣ Title: In vitro and in silico studies of the interaction between glucocorticoid drug mometasone furoate and model lung surfactant monolayer
Authors: Md. Zohurul Islam, Martyna Krajewska, Krystyna Prochaska, Suvash C. Saha
Journal: RSC Advances

2️⃣ Title: Heat transfer intensification in a horizontal tube utilizing hexagonal perforated tube inserts
Authors: Md. Zohurul Islam
Journal: Journal of Naval Architecture and Marine Engineering

3️⃣ Title: Numerical Investigation of MHD Mixed Convection in an Octagonal Heat Exchanger Containing Hybrid Nanofluid
Authors: Md. Yousuf Ali, Saiful Islam, M.A. Alim, Rejowan Ahmed Biplob, Md. Zohurul Islam
Journal: Heliyon

4️⃣ Title: Identification of genetic biomarkers, drug targets and agents for respiratory diseases utilising integrated bioinformatics approaches
Authors: Fee Faysal Ahmed, Arnob Dip Das, Mst. Joynab Sumi, Md. Zohurul Islam, Md. Shahedur Rahman, Md. Harun Rashid, Salem A. Alyami, Naif Alotaibi, A. K. M. Azad, Mohammad Ali Moni
Journal: Scientific Reports

5️⃣ Title: The concentration-dependent effect of hydrocortisone on the structure of model lung surfactant monolayer by using an in silico approach
Authors: Mohammad Zohurul Islam, Sheikh I. Hossain, E. Deplazes, Zhen Luo, Suvash C. Saha
Journal: RSC Advances

Mr. Ning Wang – Molecule Dynamics – Best Researcher Award

Posted on 03/02/202503/02/2025 by Innovator Awards

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.

Mr. Shoukat Hussain – Quantum Mechanics – Best Researcher Award

Posted on 04/06/202404/06/2024 by Innovator Awards

Mr. Shoukat Hussain - Quantum Mechanics - Best Researcher Award

KFUEIT, Rahim Yar Khan, Punjab, Pakistan - Pakistan

Professional Profile

SCOPUS

Early Academic Pursuits

Shoukat Hussain embarked on his academic journey with a Bachelor of Science degree in 2016, followed by a Master of Science in Physics in 2018 from Islamia University Bahawalpur. His quest for knowledge led him to obtain another Master of Science, this time in Optomechanics Physics in 2020, from Khwaja Fareed University of Engineering and Information Technology (KFUEIT), Rahim Yar Khan, Punjab, Pakistan. His strong foundation in physics and optomechanics set the stage for his doctoral studies, which he is currently completing with a focus on computational-based material science.

Professional Endeavors

Shoukat Hussain has been an integral part of the academic community at KFUEIT, where he serves as a Senior Researcher. His role extends to teaching, Quantum Mechanics having worked as a visiting lecturer at the same institution. His commitment to education and research has been evident through his active participation in academia and his contribution to the institution's growth.

Contributions and Research Focus

Hussain's research interests are centered on Density Functional Theory, Computational Physics, and Chemistry. Over the past two years, Quantum Mechanics he has authored nine research articles published in various esteemed journals, reflecting his significant contributions to the field. Additionally, he has served as a peer reviewer for RSC Advances, underscoring his expertise and dedication to advancing scientific knowledge.

Accolades and Recognition

Although specific awards are not listed, Shoukat Hussain's publication record and role as a peer reviewer highlight his recognition within the scientific community. His nine published research articles and active involvement in the peer review process are testaments to his expertise and the respect he commands among his peers.

Impact and Influence

Hussain's work has significantly impacted the field of computational material science. His research contributions have advanced the understanding of material properties and their computational analysis. His role as an educator has also allowed him to influence and mentor the next generation Quantum Mechanics of scientists and researchers, thereby extending his impact beyond his direct research outputs.

Legacy and Future Contributions

Shoukat Hussain's legacy is built on his dedication to research and education. As he continues his doctoral studies and ongoing research projects, his future contributions are poised to further enhance the fields of density functional theory and computational physics. His ongoing commitment to publishing and peer reviewing ensures that he remains at the forefront of scientific advancements. Hussain's work not only advances current scientific understanding but also sets a foundation for future innovations in material science and computational methodologies.

NOTABLE PUBLICATIONS

Investigation of ultra wide bandgap Flouro-perovskite materials RBeF₃ (R[bond, double bond]K and Li) 2024(1)