Ayush Amod | Nanotechnology | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Ayush Amod | Nanotechnology | Best Researcher Award

Mr. Ayush Amod | Nanotechnology | Best Researcher Award

Indian Institute of Information Technology, India

👨‍🎓Profiles

🎓 Early Academic Pursuits

Ayush Amod began his academic journey with a strong foundation in Life Sciences, earning both his Bachelor's and Master's degrees from the University of Allahabad (UoA), India. His keen interest in interdisciplinary sciences led him to pursue a Master of Technology (M.Tech) in Bioinformatics from the Indian Institute of Information Technology, Allahabad (IIIT-A). With a passion for research, he secured a prestigious Junior Research Fellowship (JRF) by ICMR (All India Rank-18) and also qualified the National Eligibility Test (NET) by CSIR (All India Rank-50), showcasing his excellence in the field of medical and computational biology.

🏅 Professional Endeavors

Currently serving as an ICMR-SRF Research Scholar at IIIT-Allahabad, Ayush Amod is in the final phase of his doctoral studies at the Department of Applied Sciences. His research is primarily centered on understanding bacterial biofilm infections, nanobiotechnology, and bioinformatics. His collaborative efforts with Central Drug Research Institute (CDRI), Lucknow have further enhanced the translational impact of his work.

🔬 Contributions and Research Focus

Ayush Amod’s research contributions have been instrumental in advancing bioinformatics and computational biology, particularly in drug discovery and disease therapeutics. His work on strigolactone analogues focused on investigating the role of HDAC1 and HDAC2 inhibitors in hepatocellular carcinoma, leading to a significant publication in Biotechnology Letters (2022). During the COVID-19 pandemic, he contributed to drug discovery by evaluating the phytoconstituents of Tinospora cordifolia against SARS-CoV-2 K417N and N501Y mutant spike glycoprotein and its main protease, providing valuable insights into potential antiviral therapeutics. Additionally, he played a key role in the development of the Anti-Ebola Peptide Database (AEPDB), a specialized and comprehensive resource of antiviral peptides against the Ebola virus, making a meaningful impact on computational virology and peptide-based drug discovery.

📊 Impact and Influence

Ayush has made remarkable progress in the field of bioinformatics, contributing to 7 SCI-indexed research papers and maintaining an h-index of 4 and i10-index of 2, reflecting the significance of his work. His research bridges the gap between computational biology and medical sciences, aiding drug discovery and therapeutic development.

📚 Academic Citations & Publications

With a total of 7 SCI-indexed publications, his work is gaining widespread recognition in the scientific community. His research has been referenced by fellow scholars working in drug discovery, computational biology, and nanobiotechnology.

🛠 Technical Skills

Ayush possesses expertise in a diverse range of computational and laboratory techniques, enabling him to make significant contributions to bioinformatics and drug discovery. His proficiency in molecular docking and dynamics simulations allows for the detailed analysis of biomolecular interactions, crucial for understanding drug-target mechanisms. He is skilled in computational drug discovery, utilizing advanced algorithms and modeling techniques to identify potential therapeutic compounds. Additionally, his experience in bioinformatics database development has contributed to the creation of specialized resources for antiviral research. With a strong background in high-performance computing for biological data analysis, he efficiently processes large-scale genomic and proteomic datasets, enhancing the accuracy and speed of computational biology applications.

🎓 Teaching Experience & Knowledge Sharing

As a dedicated researcher, Ayush has mentored junior scholars in bioinformatics and computational biology. He has actively engaged in scientific discussions and workshops to help budding researchers develop skills in molecular modeling, drug discovery, and bioinformatics tools.

🌟 Legacy and Future Contributions

With an interdisciplinary research approach, Ayush Amod is poised to make groundbreaking contributions in computational biology and nanobiotechnology. His ongoing research on bacterial biofilm infections and drug resistance will play a crucial role in developing novel therapeutic strategies. Looking ahead, he aims to expand his work in AI-driven drug discovery and personalized medicine, contributing towards a better understanding of infectious diseases and their treatment.

📖Notable Publications

  1. A Specialized and Comprehensive Resource of Antiviral Peptides against Ebola Virus
    • Authors: Mondal, R.K., Anand, A.A., Amod, A., Pal, O., Samanta, S.K.
    • Journal: International Journal of Peptide Research and Therapeutics
    • Year: 2025
  2. A comprehensive guide on screening and selection of a suitable AMP against biofilm-forming bacteria
    • Authors: Anurag Anand, A., Amod, A., Anwar, S., Sethi, G., Samanta, S.K.
    • Journal: Critical Reviews in Microbiology
    • Year: 2024
  3. Finding Novel AMPs Secreted from the Human Microbiome as Potent Antibacterial and Antibiofilm Agents and Studying Their Synergistic Activity with Ag NCs
    • Authors: Singh, A., Amod, A., Mulpuru, V., Sahoo, A.K., Samanta, S.K.
    • Journal: ACS Applied Bio Materials
    • Year: 2023
  4. Evaluation of phytoconstituents of Tinospora cordifolia against K417N and N501Y mutant spike glycoprotein and main protease of SARS-CoV-2- an in silico study
    • Authors: Choudhary, P., Singh, T., Amod, A., Singh, S.
    • Journal: Journal of Biomolecular Structure and Dynamics
    • Year: 2023
  5. Network pharmacological evaluation of strigolactones efficacy as potential inhibitors against therapeutic targets of hepatocellular carcinoma
    • Authors: Amod, A., Pahal, S., Choudhary, P., Gupta, A., Singh, S.
    • Journal: Biotechnology Letters
    • Year: 2022
  6. Bacterial biofilm infections, their resistance to antibiotics therapy and current treatment strategies
    • Authors: Singh, A., Amod, A., Pandey, P., Sahoo, A.K., Samanta, S.K.
    • Journal: Biomedical Materials (Bristol)
    • Year: 2022

Halil Ibrahim Efkere | Photochemistry | Best Researcher Award -1666

Posted on by sciencefatherLeave a Comment on Halil Ibrahim Efkere | Photochemistry | Best Researcher Award -1666

Mr. Halil Ibrahim Efkere | Photochemistry | Best Researcher Award

Gazi University, Turkey

👨‍🎓Profiles

🎓 Early Academic Pursuits

Halil Ibrahim Efkere’s academic journey began with a Bachelor's degree in Physics from Selçuk University in 2009. His passion for materials science and physics led him to pursue a Master's degree in Physics (with thesis) from Erciyes University, which he completed on January 7, 2014. Demonstrating exceptional dedication to research and innovation, he further advanced his studies with a Ph.D. in Metallurgical and Materials Engineering at Gazi University, completing his thesis in 2013. His doctoral research, supervised by Süleyman Özçelik and Tuncay Karaaslan, focused on the growth and characterization of InGaAs/GaAs superlattice structures using the Molecular Beam Epitaxy (MBE) technique, showcasing his expertise in advanced material synthesis.

🏢 Professional Endeavors

In 2020, Mr. Efkere was appointed as a Lecturer at the Gazi University Photonics Application and Research Center, where he significantly contributed to cutting-edge advancements in photonics and materials engineering. He has also played a key role in multiple research projects, such as: Leading the study on CeO2 thin films produced via RF Magnetron Sputtering for photocatalytic water purification applications. Collaborating on a project investigating TiO2 films produced using ultrasonic chemical spray methods for photocatalytic water splitting and cleaning applications. These endeavors reflect his commitment to addressing real-world challenges in water purification and renewable energy using innovative material solutions.

🧪 Contributions and Research Focus

Mr. Efkere’s research centers on thin-film materials and their application in photocatalysis, water purification, and photonics. His contributions include: Developing CeO2 and TiO2 thin films with enhanced photocatalytic activity for environmental applications. Utilizing advanced deposition techniques like RF Magnetron Sputtering and ultrasonic chemical spray to optimize material properties for energy and water treatment applications. Investigating the interaction of thin-film structures for practical industrial and scientific applications. His groundbreaking research not only contributes to the scientific community but also has significant environmental and technological implications.

🌍 Impact and Influence

Mr. Efkere’s work on molecular beam epitaxy, thin films, and photocatalytic applications has created a profound impact in the fields of materials science and photonics. His projects aim to advance sustainable energy solutions and water purification technologies, addressing some of the most pressing global challenges. His leadership in national-level projects further establishes him as a key figure in Turkey's scientific landscape.

📚 Academic Citations

Mr. Efkere’s research outputs are gaining traction in the academic community, with his published works being widely cited in areas such as thin-film technology, photocatalysis, and renewable energy materials. His meticulous approach to experimentation and publication ensures the reliability and reproducibility of his findings.

🛠️ Technical Skills

Mr. Efkere has honed several advanced technical skills, including: Material Synthesis Techniques: Molecular Beam Epitaxy (MBE), RF Magnetron Sputtering, Ultrasonic Chemical Spray. Characterization Methods: Scanning Electron Microscopy (SEM), X-ray Diffraction (XRD), Atomic Force Microscopy (AFM), and UV-Vis Spectroscopy. Data Analysis and Optimization: Utilizing software and modeling techniques to analyze experimental results. These skills enable him to design, implement, and analyze complex experiments effectively.

🧑‍🏫 Teaching Experience

As a lecturer at Gazi University, Mr. Efkere is actively involved in mentoring students and training young researchers in advanced material synthesis and photonics. His approachable teaching style and expertise in state-of-the-art techniques inspire his students to pursue excellence in their academic and professional careers.

🌟 Legacy and Future Contributions

Looking forward, Mr. Efkere is poised to make significant contributions in sustainable materials for environmental and energy applications. His commitment to advancing photocatalytic technologies holds the potential to revolutionize water purification and clean energy generation. Through his ongoing research, teaching, and collaborations, he continues to build a legacy of innovation and scientific excellence.

📖Notable Publications

Effect of TiO2-Surfactant Interface on the Electrical and Dielectric Properties of a Metal–Insulator–Semiconductor (MIS) Structure
Authors: Azizian-Kalandaragh, Y.; Efkere, H.I.; Barkhordari, A.; Pirgholi-Givi, G.R.; Altındal, Ş.
Journal: Journal of Electronic Materials
Year: 2025

Analysis of Nb-doped and undoped TiO2 nanocoatings with varying dopant concentrations
Authors: Arslan, Ö.; Efkere, H.İ.; Çokduygulular, E.; İldeş, C.; Kınacı, B.
Journal: Journal of Materials Science: Materials in Electronics
Year: 2025

Structural, morphological, optical and electrical characterization of MgO thin films grown by sputtering technique on different substrates
Authors: Toprak, B.Ç.; Efkere, H.İ.; Aydın, S.Ş.; Tataroğlu, A.; Özçelik, S.
Journal: Journal of Materials Science: Materials in Electronics
Year: 2024

Electrical and dielectric behaviors of Al/SiO2-surfactant/n-Si Schottky structure in wide range of voltage and frequency
Authors: Efkere, H.İ.; Barkhordari, A.; Marmiroli, B.; Altındal, Ş.; Azizian-Kalandaragh, Y.
Journal: Physica Scripta
Year: 2024

Detailed analysis of the structural, morphological, optical, electrical, and dielectric properties of the reactively produced WO3 nanostructure
Authors: Efkere, H.İ.; Özçelik, S.
Journal: Journal of Materials Science: Materials in Electronics
Year: 2023

Evaluation of dielectric properties of Au/TZO/n–Si structure depending on frequency and voltage
Authors: Kınacı, B.; Bairam, C.; Yalçın, Y.; Efkere, H.İ.; Özçelik, S.
Journal: Journal of Materials Science: Materials in Electronics
Year: 2022

Arnab Banerjee | Quantum Computation of Materials | Best Researcher Award

Posted on by sciencefatherLeave a Comment on Arnab Banerjee | Quantum Computation of Materials | Best Researcher Award

Assist. Prof. Dr. Arnab Banerjee | Quantum Computation of Materials | Best Researcher Award

Purdue University, United States

👨‍🎓Profiles

🏫 Early Academic Pursuits

He began his academic journey with a passion for material science and technology. His foundational studies emphasized materials synthesis and analytical properties, laying the groundwork for his later groundbreaking contributions to solid-state quantum computing. His academic curiosity drove him to explore quantum magnetism, fostering an interdisciplinary approach that bridges chemistry, physics, and computational sciences.

💼 Professional Endeavors

Currently an Assistant Professor at Purdue University, Dr. Banerjee is an esteemed researcher and faculty member specializing in quantum materials and computing. He actively manages five funded projects supported by the DOE, Keck Foundation, and NSF-IUCRC/Industry, involving advanced quantum chemistry, crystallography, and quantum Hamiltonian modeling using cutting-edge quantum computers. His collaborations with Los Alamos and Oak Ridge National Laboratories and industry leaders like IBM-Q and D-Wave highlight his integration into global research ecosystems.

🌟 Contributions and Research Focus

His research has revolutionized our understanding of quantum materials. Notably, his discovery of the Kitaev candidate material RuCl₃ and the first evidence of magnetic Majorana fermions earned recognition as one of 2016's top science achievements by Discover Magazine. His innovative work links magnetic material modeling, neutron scattering experiments, and quantum computation, published in leading journals such as Physical Review B (Editor's Suggestion), npj Quantum Information, and Nature Communications.

🌍 Impact and Influence

Dr. Banerjee's contributions to quantum computing and magnetism have a global impact. By collaborating with institutions like Caltech and DOE National Labs, he fosters cross-disciplinary innovation. His efforts to integrate quantum computing into material sciences pave the way for achieving higher quantum coherence, driving advancements in both theoretical and applied sciences.

📈 Academic Citations and Recognitions

With 41 peer-reviewed journal articles and a citation index of 28, He is a highly regarded figure in his field. As a guest editor for MDPI's special issue, he contributes to the scientific community by curating cutting-edge research. His expertise and influence are recognized through memberships in the American Physical Society and the Materials Research Society.

🛠 Technical Skills

His technical repertoire includes quantum chemistry, spin density of state measurements, phonon analysis, and advanced neutron scattering techniques. He excels in quantum Hamiltonian modeling using quantum computers, bridging experimental observations with theoretical predictions to accelerate material discoveries.

👩‍🏫 Teaching and Mentorship

As an educator, Dr. Banerjee is dedicated to cross-training students and staff in quantum materials and computing. He collaborates with national laboratories and industries to create immersive learning experiences that prepare the next generation of researchers to tackle forefront scientific challenges.

🌱 Legacy and Future Contributions

He envisions a future where quantum computing and material sciences converge seamlessly. His ongoing research aims to uncover novel materials and phenomena that enhance quantum coherence, bringing quantum computing closer to practical applications. His commitment to mentoring and collaboration ensures a lasting legacy in advancing science and nurturing innovation.

📖Notable Publications

  1. Gibbs state sampling via cluster expansions
  2. Authors: Eassa, N.M.; Moustafa, M.M.; Banerjee, A.; Cohn, J.
    Journal: npj Quantum Information, 2024.
  3. High-fidelity dimer excitations using quantum hardware
  4. Authors: Eassa, N.M.; Gibbs, J.; Holmes, Z.; Cohn, J.; Banerjee, A.
    Journal: Physical Review B, 2024.
  5. Magnetic interactions and excitations in SrMnSb₂
  6. Authors: Ning, Z.; Li, B.; Tang, W.; McQueeney, R.J.; Ke, L.
    Journal: Physical Review B, 2024.
  7. Experimental evidence for nonspherical magnetic form factor in Ru³⁺
  8. Authors: Sarkis, C.L.; Villanova, J.W.; Eichstaedt, C.; Berlijn, T.; Nagler, S.E.
    Journal: Physical Review B, 2024.
  9. Purely antiferromagnetic frustrated Heisenberg model in the spin-ladder compound
  10. Authors: Roll, A.; Petit, S.; Forget, A.; Foury-Leleykian, P.; Balédent, V.
    Journal: Physical Review B, 2023.
  11. Dynamic Asset Allocation with Expected Shortfall via Quantum Annealing
  12. Authors: Xu, H.; Dasgupta, S.; Pothen, A.; Banerjee, A.
    Journal: Entropy, 2023.
  13. Simulations of frustrated Ising Hamiltonians using quantum approximate optimization
  14. Authors: Lotshaw, P.C.; Xu, H.; Khalid, B.; Humble, T.S.; Banerjee, A.
    Journal: Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 2023.
  15. Planar thermal Hall effect of topological bosons in the Kitaev magnet α-RuCl₃
  16. Authors: Czajka, P.; Gao, T.; Hirschberger, M.; Nagler, S.E.; Ong, N.P.
    Journal: Nature Materials, 2023.
  17. Distinct Acoustic and Optical Phonon Dependences on Particle Size, Oxidation, and Temperature in Silicon Nanocrystals
  18. Authors: Chen, S.; Coleman, D.; Abernathy, D.L.; Mangolini, L.; Li, C.
    Journal: Journal of Physical Chemistry C, 2022.
  19. Extraction of interaction parameters for α-RuCl₃ from neutron data using machine learning
  20. Authors: Samarakoon, A.M.; Laurell, P.; Balz, C.; Okamoto, S.; Tennant, D.A.
    Journal: Physical Review Research, 2022.