Xin Tan – Advanced Spectral Technologies and Applications – Best Researcher Award  

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Prof. Tan Xin embarked on his academic journey at the University of Science and Technology of China, where he laid a strong foundation in optical sciences and engineering. His academic excellence and dedication to research enabled him to specialize in Advanced Spectral Technologies and Applications, setting the stage for his pioneering contributions to the field. With a keen interest in diffraction optics and spectral imaging, he developed a deep understanding of cutting-edge optical systems, which later became the core of his research endeavors.

💼 Professional Endeavors

With over 15 years of experience, Prof. Tan Xin has become a distinguished researcher and doctoral supervisor at the Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences. His career is marked by leadership in multiple high-profile roles, including serving as Director at Jilin Province Black Land Ecological Information Perception Analysis and Application Comprehensive Technology Engineering Research Center and as Deputy Secretary General for the National Intelligent Agricultural Equipment Industry Technology Innovation Strategic Alliance. His expertise in Advanced Spectral Technologies and Applications has enabled him to contribute significantly to both scientific advancements and industrial innovations.

🔬 Contributions and Research Focus

Prof. Tan Xin has made substantial contributions to Advanced Spectral Technologies and Applications, particularly in the development of hyperspectral imaging equipment, multi-spectral imaging devices, ultraviolet-enhanced spectrum detection tools, and Raman spectrum rapid detection equipment. His research has led to breakthroughs in areas such as forestry surveying, food safety assurance, water pollution assessment, soil heavy metal detection, pathogen identification, and medical diagnostics. He has led over 50 national, provincial, and municipal research projects, securing a total research fund of 200 million yuan, and his work has resulted in the publication of 49 academic papers, with 45 indexed in SCI and EI databases.

🌍 Impact and Influence

Prof. Tan Xin’s influence extends beyond academia into industrial applications and technological development. Recognized as a National Leading Talent in Science and Technology Innovation for Young and Middle-aged People, he has also been honored as an Outstanding Leading Talent of Jilin Province and a Distinguished Talent of the Chinese Academy of Sciences. His extensive research has led to the successful commercialization of multiple spectral imaging technologies, generating direct economic benefits of 228.65 million yuan. His role as a Guest Editor for Frontiers in Plant Science and a Senior Reviewer for OSA and Elsevier journals further solidifies his standing as a thought leader in the field.

🏆Academic Cites

Prof. Tan Xin’s work has been widely cited in authoritative scientific journals, reflecting the significance of his contributions to Advanced Spectral Technologies and Applications. His groundbreaking research on spectral imaging and diffraction optics has set new benchmarks for the scientific community, inspiring further studies in the domain. His numerous patents, including 30 invention applications with 20 already authorized, further showcase the practical impact of his work on both academia and industry.

🌟 Legacy and Future Contributions

Prof. Tan Xin’s legacy is firmly rooted in his ability to bridge theoretical advancements with practical industrial applications. He has played a critical role in establishing Guangdong Changguang Micro Nano Technology Co., Ltd., a company with a registered capital of 30 million yuan, where he serves as Director and Chief Technology Officer. Moving forward, he aims to continue driving innovation in Advanced Spectral Technologies and Applications, expanding their use in agriculture, environmental monitoring, healthcare, and other critical industries. His research will undoubtedly shape the future of spectral technology, ensuring continued advancements in industrial growth, agricultural sustainability, and scientific discovery.

📝Notable Publication

📝Experimental study of 1-octadecanol composite phase change materials for solar energy storage system

Authors: X. Tan, Xin; Y. Wang, Yunfei; M. Zhao, Maosen; P. Sun, Pengbo

Journal: Journal of Energy Storage

Year: 2025

Citations: 0

📝Identification of Age of Forest Sun-Dried Ginseng Based on Hyperspectral Imaging Technology

Authors: L. Han, Lusheng; Y. Wang, Yudan; Y. Li, Yuhang; X. Tan, Xin; E. Wang, Enpeng

Journal: Chinese Journal of Applied Chemistry

Year: 2025

Citations: 0

📝Structural and magnetic properties of Mn1.25Fe0.7P0.5Si0.5 alloys prepared by spark plasma sintering using raw materials milled with different lengths of time

Authors: G. Wang, Gaofeng; Y.Y. Ma, Y. Y.; X. Tan, Xin

Journal: Journal of Alloys and Compounds

Year: 2024

Citations: 0

📝Design of waveguide with double-layer diffractive optical elements for augmented reality displays (Open Access)

Authors: J. Zhang, Jiahang; S. Liu, Siqi; W. Zhang, Wei; Q. Jiao, Qingbin; X. Tan, Xin

Journal: Scientific Reports

Year: 2024

Citations: 1

📝Enhanced temperature regulation in compound heating systems: Leveraging guided policy search and model predictive control

Authors: G. Sun, Guoxin; Y. Yu, Yongheng; Q. Yu, Qihui; R. Qin, Ripeng; Y. Wang, Yahui

Journal: Renewable Energy

Year: 2024

Citations: 1

📝Preparation of high-purity dispersed single-crystal diamond particles

Authors: X. Tan, Xin; Z. He, Zhanqing; Q. Yang, Qiao; Y. Du, Yanlong; H. Qi, Hui

Journal: Indian Journal of Physics

Year: 2024

Citations: 0

Jinxiao Zhang – Protein Spectroscopy – Best Researcher Award

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Assist. Prof. Dr. Jinxiao Zhang - Protein Spectroscopy - Best Researcher Award 

Guilin University of Technology - China

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🎓 Early Academic Pursuits

Assistant Professor Dr. Jinxiao Zhang embarked on her academic journey with a strong foundation in chemistry, earning a B.Sc. in Chemistry from Guangxi Normal University, China, in July 2015. Her passion for scientific exploration and innovation led her to pursue a Ph.D. in Physical Chemistry at the prestigious University of Science and Technology of China, where she focused on theoretical simulations and molecular spectroscopy. Her early academic endeavors were driven by a keen interest in understanding complex molecular structures and their interactions, laying the groundwork for her groundbreaking research in protein spectroscopy.

💼 Professional Endeavors

Since July 2020, Dr. Jinxiao Zhang has been serving as an Associate Professor at the College of Chemistry and Bioengineering, Guilin University of Technology. Her academic career is characterized by a strong commitment to cutting-edge research and interdisciplinary studies, particularly in the integration of artificial intelligence with molecular spectroscopy. Her role as an educator and mentor has also allowed her to contribute significantly to the development of future researchers in the field.

🔬 Contributions and Research Focus

Dr. Zhang’s research is at the intersection of artificial intelligence, quantum chemistry, and molecular spectroscopy, with a particular emphasis on protein spectroscopy. Her studies have explored how computational simulations and AI-driven methodologies can enhance and accelerate molecular spectroscopy analyses. Additionally, her work delves into proteins and disease diagnosis, focusing on how molecular interactions influence disease mechanisms. Through advanced mechanism and structural design, her contributions have improved the accuracy and efficiency of spectroscopic simulations, making significant strides in the field.

🌍 Impact and Influence

Dr. Jinxiao Zhang’s pioneering research has had a profound impact on both theoretical and applied spectroscopy, particularly in protein spectroscopy. Her innovative approaches have led to advancements in disease diagnosis through AI-powered molecular analyses. Her influence extends beyond her institution, as she actively collaborates with global researchers in the fields of quantum chemistry and molecular dynamics, enhancing international scientific exchanges. Her contributions have made her a well-respected figure in computational chemistry and AI-driven spectroscopy.

🏆Academic Cites

Dr. Zhang’s work has been widely cited in top-tier journals, reflecting the significance of her contributions to protein spectroscopy and artificial intelligence in chemistry. Her studies serve as foundational references for researchers exploring AI-driven approaches to molecular spectroscopy and disease diagnosis. The growing number of citations she receives is a testament to the impact and relevance of her research in advancing modern spectroscopy techniques.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Jinxiao Zhang aims to push the boundaries of protein spectroscopy by further integrating artificial intelligence with molecular simulations. Her future contributions will likely revolutionize the field by enhancing diagnostic precision in disease-related protein studies. As an educator, she is committed to training the next generation of computational chemists and AI researchers, ensuring that her innovative approaches continue to shape the scientific landscape. Her legacy will be one of groundbreaking advancements in molecular spectroscopy, AI-driven diagnostics, and quantum chemistry applications.

📝Protein Spectroscopy

Dr. Jinxiao Zhang’s extensive research and expertise in protein spectroscopy have significantly advanced the field, particularly through AI-driven methodologies. Her work in protein spectroscopy has improved molecular diagnostics and enhanced the efficiency of computational simulations. The integration of artificial intelligence with protein spectroscopy continues to be a transformative force under her leadership, promising groundbreaking developments in molecular analysis and disease detection.

Notable Publication

📝Machine Learning-Based Two-Dimensional Ultraviolet Spectroscopy for Monitoring Protein Structures and Dynamics

Authors: S. Jiang, Songnan; J. Jiang, Jiale; T. Yan, Tong; L. Wang, Lu; J. Zhang, Jinxiao

Journal: Processes

Year: 2025

Citations: 0

📝DFT-based ¹¹B solid-state NMR calculations for guiding fine local structure identification and phase-property modulation in ZnxY₁−xBO₃-0.5x borate oxide ion conductors

Authors: Y. Gou, Yuan; X. Li, Xiaohui; X. Wang, Xiaoge; X. Xing, Xianran; X. Kuang, Xiaojun

Journal: Dalton Transactions

Year: 2024

Citations: 0

Marilena Carbone – Femtosecond Lasers – Excellence in Research

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Prof. Dr. Marilena Carbone - Femtosecond Lasers - Excellence in Research 

University of Rome Tor Vergata - Italy

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🎓 Early Academic Pursuits

Prof. Dr. Marilena Carbone’s academic journey began with a strong foundation in chemistry, where she developed a deep interest in material science and its applications. Her early academic pursuits were focused on understanding the synthesis and characterization of complex materials, leading her to explore hybrid organic-inorganic materials, nanoparticles, and nanomaterials. She pursued advanced studies in this field, ultimately shaping her research interests towards the synthesis, functionalization, and characterization of various nanomaterials, including carbon quantum dots and metal oxide nanoparticles.

💼 Professional Endeavors

Prof. Dr. Carbone’s professional endeavors have spanned multiple facets of academia and research. As a faculty member at the University of Tor Vergata, she has contributed significantly to the advancement of material science. She has played pivotal roles in various financed projects, including serving as the Principal Investigator for PRIN2022 GREEN3, a project focused on the synthesis of sustainable materials. Additionally, she led SPECTRAFOOD (2020-2022), a project focusing on food quality control and contaminants detection via fluorescence. Her expertise in advanced laser treatments and spectroscopic analysis has driven her to explore cutting-edge applications in catalysis, biomedical fields, and environmental detection.

🔬 Contributions and Research Focus

Prof. Dr. Carbone’s contributions to material science are vast, with a specific focus on the synthesis and functionalization of hybrid organic-inorganic materials, metal oxide nanoparticles, and carbon nanomaterials. Her research has explored the interaction between carbon quantum dots and metal oxide nanoparticles and their application in catalysis, biomedical diagnostics, and environmental detection, particularly in food safety and heavy metal detection. She has also contributed to the application of femtosecond lasers in ink treatments and surface manipulation of semiconductors. Her work in utilizing femtosecond lasers has led to significant advancements in high-resolution surface spectroscopy and microscopy, especially in photoemission and scanning tunneling microscopy (STM) of silicon surfaces.

🌍 Impact and Influence

Prof. Dr. Carbone’s impact and influence in the scientific community are demonstrated by her substantial contributions to various research areas, particularly in nanomaterials, spectroscopy, and femtosecond laser applications. Her work has been widely cited, and her research continues to influence both academic and industrial applications in catalysis, biomedical diagnostics, and food quality control. As a member of multiple institutional commissions and an active educator, she has shaped the curriculum in chemistry and pharmacy at the University of Tor Vergata. Her leadership in various projects and committees has had a lasting impact on the development of new research pathways and teaching methodologies in material science.

🏆Academic Cites

With 136 published papers and an h-index of 35, Prof. Dr. Carbone’s work has received over 3,200 citations on Scopus. Her contributions to the fields of nanomaterials, spectroscopy, and femtosecond lasers have been recognized globally, placing her among the top 2% of scientists in 2021, 2022, and 2023. The widespread citation of her work underscores the significance of her research and its broad application in multiple industries.

🌟 Legacy and Future Contributions

Looking to the future, Prof. Dr. Carbone aims to continue her pioneering work in the synthesis of advanced materials and their applications in various fields, including catalysis, biomedicine, and environmental monitoring. Her future contributions are expected to expand the scope of femtosecond laser applications in material science and technology, particularly in the precision treatment of surfaces and the development of new diagnostic tools. She will continue to mentor young researchers and drive innovative research, further cementing her legacy as a leader in her field.

📝Femtosecond Lasers

Prof. Dr. Carbone’s innovative use of femtosecond lasers in material synthesis and surface manipulation has been a key focus of her research. Her application of femtosecond lasers in ink treatments and semiconductor surface manipulation has led to breakthroughs in material characterization and the development of new technologies. As femtosecond lasers continue to shape the future of material science, Prof. Dr. Carbone’s research is poised to further advance the field, creating new possibilities for diagnostics, environmental monitoring, and catalysis.

Notable Publication

📝Heck reaction between free base 2-Br-porphyrin and vinyl-ferrocene derivatives. Electrochemical and spectroscopic characterization of β-functionalised alpha and trans-vinyl-ferrocene porphyrin derivatives. A comparative study

Authors: Demingo, M., Lembo, A., Petrella, G., Cicero, D.O., Tagliatesta, P.

Journal: New Journal of Chemistry

Year: 2024

Citations: 0

📝Voronoi Tessellation as a Tool for Predicting the Formation of Deep Eutectic Solvents

Authors: Cappelluti, F., Gontrani, L., Mariani, A., Carbone, M., Bonomo, M.

Journal: Journal of Chemical Information and Modeling

Year: 2024

Citations: 0

📝Ionic Twin Nanostructural Comparison: Propylammonium Butanoate vs. Butylammonium Propanoate and Their Interactions with Water

Authors: Salma, U., Plechkova, N.V., Gontrani, L., Carbone, M.

Journal: Materials

Year: 2024

Citations: 0

📝Metal Ion Microwave-Assisted Depolymerization of Poly(Ethylene Terephthalate): A Zinc Salts-Based Deep Eutectic Solvent as Case Study

Authors: Ricci, C., Gontrani, L., Bauer, E.M., Casoli, L., Carbone, M.

Journal: Crystals

Year: 2024

Citations: 0

📝Green zinc/galactomannan-based hydrogels push up the photovoltage of quasi-solid aqueous dye-sensitized solar cells

Authors: Segura Zarate, A.Y., Gontrani, L., Galliano, S., Bonomo, M., Carbone, M.

Journal: Solar Energy

Year: 2024

Citations: 4

📝Inulin-Coated ZnO Nanoparticles: A Correlation between Preparation and Properties for Biostimulation Purposes

Authors: Gontrani, L., Bauer, E.M., Casoli, L., Quaranta, S., Carbone, M.

Journal: International Journal of Molecular Sciences

Year: 2024

Citations: 3

Jiebo Li – Ultrafast Spectroscopy – Best Researcher Award 

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Assoc. Prof. Dr. Jiebo Li - Ultrafast Spectroscopy - Best Researcher Award 

Beihang University - China

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🎓 Early Academic Pursuits

Associate Professor Dr. Jiebo Li's academic journey began at Peking University, where he earned his B.S. (2002–2006) and M.S. (2006–2008) degrees, excelling in foundational and advanced scientific disciplines. Driven by an innate curiosity and passion for research, he pursued a Ph.D. at Rice University (2009–2014), where he gained deep expertise in advanced spectroscopy techniques. His doctoral studies laid the groundwork for his innovative research in ultrafast spectroscopy and photochemistry manufacturing.

💼 Professional Endeavors

Following the completion of his Ph.D., Dr. Jiebo Li served as a Postdoctoral Researcher at Rice University (2014–2017), where he expanded his research portfolio and contributed to significant advancements in the field of spectroscopy. Since 2018, he has been a Principal Investigator and Associate Professor in the Department of Biomedical Engineering at Beihang University. In this role, he has established a world-class research lab and mentored numerous students, fostering innovation and interdisciplinary collaboration.

🔬 Contributions and Research Focus

Dr. Jiebo Li’s research is centered on two primary areas: ultrafast spectroscopy and photochemistry manufacturing. He employs cutting-edge ultrafast techniques to investigate fundamental electron-vibration coupling and thermal flow at the interfaces of advanced materials. This research has unveiled critical insights into the behavior of materials under extreme conditions. Leveraging these findings, his lab develops innovative medical devices, including antibacterial tools, implantable devices, and smart electronics, showcasing a seamless integration of scientific understanding with practical applications.

🌍 Impact and Influence

Dr. Li's pioneering work in ultrafast spectroscopy has had a profound impact on both academia and industry. His research has significantly advanced the understanding of material behavior at microscopic scales, influencing fields such as materials science, photonics, and biomedical engineering. He actively collaborates with leading institutions and contributes to global research initiatives, amplifying his influence in shaping the future of spectroscopy and its applications.

🏆Academic Cites

Dr. Jiebo Li’s research has been widely published and cited in top-tier scientific journals, reflecting the depth and originality of his work. His contributions in ultrafast spectroscopy are frequently referenced by peers, underscoring the relevance of his findings to ongoing advancements in the field. His high citation count highlights his standing as a leading expert in spectroscopy and photochemistry manufacturing.

🌟 Legacy and Future Contributions

As a trailblazer in ultrafast spectroscopy and photochemistry manufacturing, Dr. Jiebo Li’s legacy is defined by his ability to bridge fundamental research and practical innovation. Looking ahead, he aims to continue exploring new frontiers in spectroscopy while developing transformative medical devices. His dedication to mentoring young researchers and driving interdisciplinary collaboration ensures that his influence will resonate across generations, leaving a lasting impact on science and engineering.

📝Ultrafast Spectroscopy

Dr. Jiebo Li's expertise in ultrafast spectroscopy has redefined the understanding of electron-vibration interactions and thermal dynamics at material interfaces. His innovative application of ultrafast spectroscopy techniques has directly informed the development of advanced medical devices and smart electronics. As a leader in the field, Dr. Li’s ongoing contributions to ultrafast spectroscopy promise to drive future breakthroughs in science and technology.

Notable Publication

📝Real-time Observation of Two Distinctive Non-Thermalized Hot Electron Dynamics at MXene/Molecule Interfaces

Authors: Zhang, Q., Li, W., Zhao, R., Li, J., Yang, X.

Journal: Nature Communications

Year: 2024

Citations: 3

📝A Bio-Feedback-Mimicking Electrode Combining Real-Time Monitoring and Drug Delivery

Authors: Liu, S., Ning, T., Chen, J., Niu, X., Fan, Y.

Journal: Innovation

Year: 2024

Citations: 0

📝Single-Step and Parallel High-Speed Fabrication for Au Micro-/Nanostructures

Authors: Fu, Y., Wang, B., Wei, J., Ding, X., Li, J.

Journal: Optics Letters

Year: 2024

Citations: 0

📝Polar-Coordinate Line-Projection Light-Curing Continuous 3D Printing for Tubular Structures

Authors: Wang, H., Liu, S., Yin, X., Fan, Y., Li, J.

Journal: International Journal of Extreme Manufacturing

Year: 2024

Citations: 2

📝Molten Salt Corrosion Behavior of Laser Remelted PS-PVD YSZ Thermal Barrier Coatings

Authors: Zhou, Q., Wen, J., Li, Y., Li, J., He, J.

Journal: Journal of Materials Research and Technology

Year: 2024

Citations: 0

📝Wireless Measurement of Orthodontic Forces in Invisible Aligners

Authors: Wang, S., Xu, B., Wang, X., Fan, Y., Li, J.

Journal: Medicine in Novel Technology and Devices

Year: 2024

Citations: 1

Atazaz Ahsin – Molecular Reaction Dynamics – Best Researcher Award

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Mr. Atazaz Ahsin - Molecular Reaction Dynamics - Best Researcher Award 

Institute of Chemistry Chinese Academy of Sciences - China

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🎓 Early Academic Pursuits

Mr. Atazaz Ahsin's academic journey began with a strong foundation in physical chemistry, which led him to pursue a Master of Philosophy (M.Phil) in Physical Chemistry at COMSATS University Islamabad, Abbottabad Campus, Pakistan. During his M.Phil., he specialized in computational and theoretical chemistry, focusing on molecular reaction dynamics, excess electron systems, and nonlinear optical (NLO) properties of superatom clusters. His passion for physical chemistry and computational methods became apparent through his high academic achievements, including securing a gold medal in his B.Sc. and an excellent CGPA in his M.Phil. studies.

💼 Professional Endeavors

Throughout his academic career, Mr. Atazaz Ahsin has made significant strides in the field of theoretical and computational chemistry. His professional endeavors have been centered around the design and study of molecular systems, including superalkali clusters, electride complexes, and sensing materials for toxic reagents. As a researcher, he has collaborated on projects focused on molecular dynamics, quantum chemical design, and the exploration of non-covalent interactions. His ability to apply advanced computational methods such as DFT, ab-initio theory, and QTAIM analysis has enabled him to contribute to cutting-edge research in molecular reaction dynamics.

🔬 Contributions and Research Focus

Mr. Ahsin's research contributions are focused on the computational investigation of various molecular systems with emphasis on their electronic, thermodynamic, and nonlinear optical properties. His MS thesis titled "Nonlinear optical response of alkali-like superatom clusters" is a prime example of his expertise in molecular reaction dynamics. His research also delves into the role of non-covalent interactions in enhancing electronic properties and designing materials for sensing volatile organic compounds. Additionally, his work on metal-free catalysis and solar cell applications showcases his commitment to advancing molecular reaction dynamics and their practical applications in green chemistry and renewable energy.

🌍 Impact and Influence

Mr. Ahsin's work in molecular reaction dynamics has garnered attention within the academic community, and his research continues to influence studies on non-covalent interactions, electron systems, and catalysis. His contributions to computational chemistry have led to multiple research projects that apply theoretical methods to real-world applications. As a result, his work has the potential to impact industries such as material science, energy storage, and environmental monitoring. His role as a member of the Comsian Chemical Society and his active involvement in academic services reflect his growing influence in the scientific community.

🏆Academic Cites

Mr. Ahsin's research has gained recognition within the field of molecular reaction dynamics, with several of his publications being cited by peers in the fields of physical chemistry, computational chemistry, and materials science. His work is often referenced for its innovative approach to the theoretical study of complex molecular systems, particularly in areas such as NLO properties, non-covalent interactions, and catalytic reactions. His scholarly output continues to grow, and his research is positioned to make lasting contributions to the academic literature on molecular reaction dynamics.

🌟 Legacy and Future Contributions

Mr. Ahsin's future contributions are poised to push the boundaries of theoretical and computational chemistry. His ongoing work in molecular reaction dynamics, particularly in the study of non-covalent interactions and catalysis, will continue to shape the future of material design and green chemistry. His research on molecular dynamics simulations and the development of organic molecules for solar applications are particularly promising, and his work will likely have a lasting impact on both theoretical chemistry and practical applications. As he progresses in his career, Mr. Ahsin is positioned to make significant advancements in the field, leaving a lasting legacy of innovation and academic excellence.

📝Molecular Reaction Dynamics

Mr. Atazaz Ahsin's research in molecular reaction dynamics has greatly contributed to the understanding of complex molecular systems and their applications. His exploration of molecular reaction dynamics through computational techniques like DFT and ab-initio theory has advanced the study of electron interactions and nonlinear optical properties. Furthermore, his work in molecular reaction dynamics is poised to influence the design of catalytic materials and energy-efficient systems, making him a key contributor to this field of research.

Notable Publication

📝Adsorption Mechanism of p-Aminophenol over Silver-Graphene Composite: A First Principles Study

Authors: T. Jadoon, A. Ahsin, F. Ullah, T. Mahmood, K. Ayub

Journal: Journal of Molecular Liquids

Year: 2021

Volume: 341

📝Superalkali-based Alkalides Li₃O@[12-crown-4] M (where M = Li, Na, and K) with Remarkable Static and Dynamic NLO Properties: A DFT Study

Authors: A. Ahsin, K. Ayub

Journal: Materials Science in Semiconductor Processing

Year: 2022

📝Remarkable Electronic and NLO Properties of Bimetallic Superalkali Clusters: A DFT Study

Authors: A. Ahsin, K. Ayub

Journal: Journal of Nanostructure in Chemistry

Year: 2021

📝Theoretical Investigation of Superalkali Clusters M₂OCN and M₂NCO (where M = Li, Na, K) as Excess Electron System with Significant Static and Dynamic NLO Response

Authors: A. Ahsin, K. Ayub

Journal: Optik

Year: 2021

📝Alkaline Earth Metals Serving as Source of Excess Electron for Alkaline Earth Metals to Impart Large Second and Third Order Nonlinear Optical Response: A DFT Study

Authors: A. Ahsin, A. Ali, K. Ayub

Journal: Journal of Molecular Graphics and Modelling

Year: 2020

📝Oxacarbon Superalkali C₃X₃Y₃ (X = O, S and Y = Li, Na, K) Clusters as Excess Electron Compounds for Remarkable Static and Dynamic NLO Response

Authors: A. Ahsin, K. Ayub

Journal: Journal of Molecular Graphics and Modelling

Year: 2021