Dr. Samim Khan | Crystallography | Young Scientist Award

Dr. Samim Khan, École Normale Supérieure – PSL University, France

🎓 Dr. Samim Khan is a postdoctoral fellow at the Institut des Matériaux Poreux de Paris (IMAP), Ecole Normale Supérieure, ESPCI Paris, PSL University, where he focuses on Metal-Organic Frameworks (MOFs) for energy and environmental applications. He earned his PhD in Chemistry from Jadavpur University, India, specializing in copper complexes and crystallography. His research spans MOFs, gas sorption, smart materials, and photochemistry. Dr. Khan’s work has garnered international recognition, including awards for his innovative contributions to crystal engineering and MOFs. An avid researcher, he blends synthesis, crystallography, and functional applications to create groundbreaking materials. 🌟

Professional Profile:

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Suitability for the Young Scientist Award:

Dr. Samim Khan stands out as an exemplary candidate for the Young Scientist Award due to his significant contributions to the field of material science, particularly in Metal-Organic Frameworks (MOFs) and Porous Coordination Polymers (PCPs). His work focuses on addressing global challenges related to energy and environmental sustainability, making him highly relevant for this award.

Education and Experience

🎓 PhD in Chemistry: Jadavpur University, India (2015–2019)
Thesis on Copper Complexes and Crystallography
🎓 Integrated MSc in Chemistry: Aliah University, India (2010–2015)
Thesis on Copper Complexes with Schiff Base Ligands
👨‍🔬 Postdoctoral Fellow: IMAP, ENS Paris, France (2023–ongoing)
Research on MOFs, Water Harvesting, Gas Adsorption, Energy Applications
🧪 CSIR Research Associate: Aliah University, India (2019–2022)
Flexible MOFs, On-Demand Gas Storage, Photoactuators

Professional Development

🌍 Dr. Khan’s professional journey reflects a deep commitment to advancing material science. His expertise includes MOF synthesis, gas adsorption studies, and photoactuators. He has honed his crystallography skills through advanced synchrotron techniques 🕵️‍♂️ and proficiency in software like SHELXTL and Diamond 💻. Skilled in diverse instrumentation, he excels in Single Crystal XRD, SEM, and FTIR 📊. With experience in laboratory management and Schlenk techniques, Dr. Khan ensures safety and quality control ⚙️. His dedication to MOF applications in energy, sensing, and catalysis highlights his forward-looking approach to addressing global challenges. 🌱

Research Focus

🔬 Dr. Khan’s research centers on Metal-Organic Frameworks (MOFs) and Porous Coordination Polymers (PCPs). His work explores MOFs for water harvesting, gas sorption, and catalysis 🌫️, with applications in energy and environmental sustainability 🌍. He is passionate about bioMOFs and cocrystals for sensing and smart material innovation 💡. With a focus on photochemistry, he investigates light-driven mechanical motion and photoactuators 🌞. His expertise extends to supramolecular chemistry, enabling cutting-edge designs in electrical conductivity and dynamic materials ⚡. Dr. Khan’s multidisciplinary approach drives impactful discoveries in crystal engineering and advanced materials. 🧩

Awards and Honors

🏅 Postdoctoral Fellowship: IMAP, ENS Paris, France (2023)
🎖️ Research Associate Fellowship: SERB, India (2023)
🥇 Best Poster Award: 16th AsCA Conference, Singapore (2019)
✈️ CSIR Travel Grant: To attend AsCA 2019, Singapore (2019)
📜 PhD Research Fellowship: UGC, India (2015)
🌟 Swami Vivekananda Merit Scholarship: Govt. of West Bengal (2013)
📚 School Merit Award: Top rank in 10th Standard, Narayanpur High School (2008)

Publication Top Notes:

“A semiconducting copper (II) coordination polymer with (4, 4) square grid topology: Synthesis, characterization, and application in the formation of a photoswitch” – Cited by: 60 🧑‍🔬🔬
“Observation of π-hole interactions in the solid-state structures of three new copper (II) complexes with a tetradentate N4 donor Schiff base: Exploration of their cytotoxicity” – Cited by: 45 🔬🧪
“Impact of solid-state photochemical [2+ 2] cycloaddition on coordination polymers for diverse applications” – Cited by: 44 ⚛️📘
“Mechanical motion in crystals triggered by solid state photochemical [2+ 2] cycloaddition reaction” – Cited by: 39 🏗️💡
“Photodimerization of a 1D ladder polymer through single-crystal to single-crystal transformation has an effect on electrical conductivity” – Cited by: 37 📐🔌

Assoc. Prof. Dr. Olga Yakubovich, Moscow M.V .Lomonosov State University, Russia

Professor Nikolai V. Belov (1891–1982) was a pioneering crystallographer and mineralogist from Russia. 🎓 He completed his education at Moscow State University, specializing in crystallography and mineral physics. Belov’s groundbreaking research advanced structural crystallography and mineral chemistry, earning him international acclaim. 🌍 He served as a professor and head of the Department of Crystallography at Moscow State University for decades, mentoring generations of scientists, including Olga V. Yakubovich. 🏛️ His work on complex mineral structures and symmetry principles remains influential. 🏆 A member of several academies, Belov received numerous honors for his scientific contributions. 📚✨

Suitability for the Best Researcher Award

Professor Nikolai V. Belov is highly suitable for the Best Researcher Award due to his groundbreaking contributions to crystallography and mineralogy. His research has profoundly influenced the scientific understanding of structural crystallography, mineral chemistry, and symmetry principles, areas critical to both theoretical advancements and practical applications in material sciences. Belov’s lifelong dedication to education and mentorship produced a legacy of scientific excellence, evident through his role as a professor and head of the Department of Crystallography at Moscow State University.

Education and Experience

🎓 Education:

Studied at Moscow State University, specializing in Crystallography and Mineralogy.

🧑‍🏫 Experience:

Head, Department of Crystallography, Moscow State University. 🏛️
Renowned researcher in structural crystallography and mineral physics. 🌟
Mentor to notable crystallographers, including Olga V. Yakubovich. 👩‍🔬

Professional Development

Professor Belov significantly contributed to structural crystallography by developing models to decipher complex mineral structures. 🧬 His theories on symmetry and structural arrangement advanced the understanding of crystallography and mineral chemistry. 📐💎 He played a leading role in fostering academic growth in Moscow State University’s Crystallography Department, guiding scientific research and producing world-renowned experts. 📚 Belov was an active member of international crystallography societies and contributed to global research collaborations. 🌍💼 His seminal works are celebrated for their application in modern crystallography and materials science, ensuring his legacy as a cornerstone in the field. 🏆✨

Research Focus

Professor Belov’s research centered on structural crystallography, with a focus on the symmetry and arrangement of complex mineral structures. 🔬💎 He explored the genetic and physical-chemical principles governing mineral formation, laying the foundation for understanding crystal lattice patterns. 📊 His pioneering work on silicates and phosphates inspired advancements in both natural mineralogy and synthetic materials. 🏗️ Belov’s studies also encompassed electron density distributions, providing insights into the atomic-level interactions within crystals. 🌌 His innovative methods remain instrumental in identifying and classifying minerals, making his work a cornerstone for material science and crystallography. 🧬📖

Awards and Honors

🏆 Lenin Prize for Science and Technology.

📜 Member of the USSR Academy of Sciences.

🌟 Honored Scientist of the USSR.

🎖️ State Prize of the USSR for contributions to crystallography.

💎 A mineral, “Belovite,” was named in his honor by the International Mineralogical Association.

Publication Top Notes: