Navruzbek Habibullayev | Inorganic Chemistry | Best Researcher Award

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Mr. Navruzbek Habibullayev | Inorganic Chemistry | Best Researcher Award

Senior lecturer | Tyumen state university | Russia

Habibullayev Navruzbek Nasibillo ugli is a dedicated chemical scientist and academic with expertise in solid-state chemistry and rare-earth selenides. Currently serving as a Senior Lecturer at Tyumen State University, he has established himself as an emerging researcher with significant contributions to the synthesis, structural analysis, and physicochemical characterization of advanced inorganic materials. His academic journey began with a Bachelor’s degree in Chemistry from the National University of Uzbekistan, followed by a Master’s and PhD from Tyumen State University. Over the years, he has actively engaged in cutting-edge research, publishing his work in reputed journals such as Journal of Alloys and Compounds, Crystal, and Solid State Chemistry. His career reflects a balance of teaching, mentoring, and research, with a focus on bridging fundamental chemistry with applied innovations. Passionate about advancing materials science, he continues to explore the structural and functional properties of rare-earth compounds for future technological applications.

Professional Profiles

Habibullayev Navruzbek Nasibillo ugli has pursued an extensive academic journey that reflects both depth and dedication to the chemical sciences. He began his higher education at the National University of Uzbekistan, where he earned a Bachelor’s degree in Chemistry, laying the foundation for his scientific career. Building on this, he continued his postgraduate studies at Tyumen State University, where he successfully completed both his Master’s degree and PhD. His doctoral research focused on the synthesis and investigation of complex quaternary rare-earth selenides, an area that blends structural chemistry with advanced materials science. Through his studies, he gained strong expertise in experimental design, crystallography, thermal analysis, and physical research methods. His academic formation was further enriched by research internships at leading scientific institutes in Novosibirsk and St. Petersburg, which provided him with valuable exposure to modern laboratory techniques and international collaboration. This solid educational background underpins his teaching and research excellence.

Experience 

With a strong academic foundation, Habibullayev Navruzbek Nasibillo ugli has developed a rich professional experience that bridges teaching, research, and collaboration. He began his career at Tyumen State University  as an Assistant in the Department of Inorganic and Physical Chemistry, quickly progressing to the role of Senior Lecturer. In this capacity, he teaches specialized courses, including Physical Research Methods, Crystal Chemistry, and Thermal Analysis, ensuring that students gain both theoretical knowledge and practical laboratory skills. Alongside teaching, he has actively contributed to several funded research projects, such as the synthesis, structural characterization, and electrophysical studies of compounds like EuLnAgSe3 and SrLnCuSe3. His consultancy experience includes developing luminophore powders based on La2O2S:Er, bridging academic research with industrial application. He has also engaged in collaborative internships at scientific institutes in Novosibirsk and St. Petersburg, enhancing his international research exposure. His career reflects a strong integration of education, research, and applied innovation.

Professional Development

Throughout his career, Habibullayev Navruzbek Nasibillo ugli has placed strong emphasis on continuous professional development to enhance both his academic and research expertise. His progression from assistant to senior lecturer at Tyumen State University reflects his dedication to academic excellence and leadership. He has participated in research internships at prestigious institutes in Novosibirsk and St. Petersburg, where he gained advanced training in synthesis methods, structural characterization, and analytical techniques. These experiences broadened his scientific perspective and allowed him to engage with internationally recognized experts in solid-state chemistry. Furthermore, his involvement in an RSF grant project provided him with valuable project management skills and experience in large-scale research coordination. By consistently publishing in Q1 and Q2 journals, he has kept abreast of cutting-edge developments in materials chemistry. His professional journey highlights a commitment to self-improvement, collaborative networking, and continuous learning, ensuring his sustained contributions to both education and scientific discovery.

Skills & Expertise

Habibullayev Navruzbek Nasibillo ugli possesses a diverse set of skills and expertise that combine academic depth with practical application. His core competencies lie in solid-state chemistry, particularly in the synthesis and analysis of rare-earth selenides and related compounds. He is highly skilled in X-ray diffraction (XRD), thermal analysis, and scanning electron microscopy (SEM), enabling him to carry out detailed structural and physicochemical characterizations. As an experienced lecturer, he brings strong teaching and mentoring skills, delivering advanced courses such as Crystal Chemistry and Thermal Analysis with clarity and rigor. His research expertise extends to evaluating electrophysical properties of novel materials, which is critical for advancing functional applications. Beyond laboratory skills, he has demonstrated proficiency in grant management, collaborative research, and academic publishing, with contributions to high-impact journals. His combined expertise in research, teaching, and applied projects makes him a versatile professional contributing meaningfully to both academia and industry.

Resarch Focus

The primary research focus of Habibullayev Navruzbek Nasibillo ugli centers on solid-state chemistry, particularly the synthesis, structural analysis, and property evaluation of rare-earth selenides and complex quaternary compounds. His work aims to explore the structure–property relationships of these materials, providing insights into their potential applications in electronics, optoelectronics, and energy systems. His completed and ongoing projects include the synthesis and electrophysical investigation of compounds such as EuLnAgSe3 and SrLnCuSe3, which offer promising characteristics for functional materials. He also engages in applied research, such as developing La2O2S:Er-based luminophore powders with targeted compositions for industrial use. His scientific approach integrates advanced methods like XRD, SEM, and thermal analyses, ensuring comprehensive evaluation of new materials. By publishing in high-ranking journals and contributing to collaborative projects, he continuously advances knowledge in the field. His research focus reflects both fundamental curiosity and applied innovation in the development of next-generation materials.

Awards & Recognitions

Although at an early stage of his career, Habibullayev Navruzbek Nasibillo ugli has already earned recognition for his contributions to solid-state chemistry and materials science. His research has been published in high-impact journals, including Journal of Alloys and Compounds (Q1), Crystal (Q2), Magnetochemistry (Q2), The European Physical Journal Plus (Q2), and Solid State Chemistry (Q2), showcasing the international relevance of his work. He has also contributed significantly to an RSF grant-funded project, reflecting his ability to lead and deliver impactful research. His consultancy project on luminophore powders highlights his contributions to industry-oriented innovation. With an h-index of 4 on Scopus, his work is gaining growing citations and recognition within the scientific community. Currently nominated for the Best Researcher Award under the International Chemical Scientist Awards, his academic and research achievements underscore his dedication to excellence. These recognitions mark the foundation of a promising and influential scientific career.

Publication Top Notes

Navruzbek Habibullayev is a promising and impactful early-career researcher with significant achievements in solid-state chemistry. His research is already contributing to advanced materials science, with publications in respected journals and participation in industry-relevant projects. While his profile is still developing in terms of global recognition, leadership roles, and citation impact, his dedication, emerging contributions, and applied focus make him a very suitable candidate for the Best Researcher Award. With continued growth and international collaboration, he is poised to become a leading scientist in his field.

Jiong Zhou | Supramolecular Chemistry | Best Researcher Award

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Prof. Jiong Zhou | Supramolecular Chemistry | Best Researcher Award

Professor| Northeastern University | China

Dr. Jiong Zhou,  in Hubei, China, is a Professor and doctoral supervisor at the Department of Chemistry, Northeastern University, Shenyang. He obtained his PhD from Zhejiang University under the mentorship of Prof. Feihe Huang and pursued postdoctoral research with Prof. Timothy R. Cook at the University at Buffalo, SUNY. His academic journey includes a visiting scholar position at the same institution between .  Dr. Zhou embarked on his independent career as a professor, focusing on responsive self-assembly, supramolecular coordination complexes, and functional materials derived from host–guest chemistry. He has published more than 46 papers in supramolecular chemistry, attracting over 2800 citations, and serves on multiple editorial boards for leading journals. His scientific contributions have been recognized through prestigious awards, including the Chu Kochen Award and fellowships from international organizations. Today, he continues advancing supramolecular chemistry with innovation and global collaborations

Professional Profile

Dr. Jiong Zhou’s academic foundation reflects a strong commitment to chemistry and materials science. He earned his Bachelor’s degree in Polymer Materials and Engineering  from Anhui University under the guidance of Prof. Ru Xia. Building on this, he pursued doctoral studies in Chemistry at Zhejiang University, where he trained under Prof. Feihe Huang, a leading figure in supramolecular chemistry. His PhD, completed in concentrated on molecular self-assembly, host–guest interactions, and functional supramolecular systems. During his doctoral program, he broadened his international exposure as a visiting student at the University at Buffalo, SUNY, working in Prof. Timothy R. Cook’s research group. This experience reinforced his expertise in supramolecular coordination chemistry and interdisciplinary approaches. His formal education provided both theoretical and experimental grounding, equipping him with advanced skills in organic, polymer, and supramolecular chemistry, laying the foundation for his distinguished research career

Experience 

Dr. Zhou’s professional experience combines advanced research, teaching, and mentorship. Following the completion of his PhD, he joined the University at Buffalo, SUNY, as a Postdoctoral Associate in Prof. Timothy R. Cook’s laboratory, focusing on supramolecular assemblies and functional materials. Earlier, during his doctoral studies, he had served as a visiting scholar in the same group, enhancing his international research collaborations. Dr. Zhou began his independent academic career as a Professor in the Department of Chemistry at Northeastern University, where he supervises doctoral students and leads multiple funded projects. His experience spans authoring highly cited publications, presenting invited talks worldwide, and contributing to journal editorial boards. Beyond research, he has taught courses such as Organic Chemistry, Supramolecular Chemistry, and Organic Chemistry Experiments. His professional journey demonstrates a balance of cutting-edge research, impactful publications, teaching excellence, and leadership in chemical sciences

Professional Development

Dr. Zhou has actively pursued professional development through international collaborations, editorial leadership, and participation in scientific forums. He has served as Guest Editor for Molecules and is a Young Editorial Board member for numerous journals, including Exploration, VIEW, Asian Journal of Pharmaceutical Sciences, and Aging and Disease. He is also a reviewer for leading chemistry journals and contributes to advisory panels for Molecules and Polymers. His global presence includes invited talks at prestigious institutions such as the University of Cambridge, University of Manchester, and University of Liverpool, as well as conferences like the American Advanced Materials Congress. Dr. Zhou is also engaged in mentoring, having supervised PhD, master’s, and undergraduate students, guiding them in independent research. He continuously refines his expertise through international academic exchanges, keynote lectures, and professional committee involvement. His development reflects a dedication to leadership, innovation, and advancing the field of supramolecular chemistry

Skills & Expertise

Dr. Jiong Zhou possesses extensive expertise in supramolecular chemistry, functional materials, and molecular self-assembly. His core skills include the design and synthesis of macrocyclic compounds, exploration of host–guest chemistry, and development of supramolecular coordination complexes for practical applications. He is proficient in employing advanced analytical techniques for structural characterization and has experience in applied areas such as nanomedicine, cancer therapy, and molecular recognition. Beyond laboratory expertise, Dr. Zhou excels in academic publishing, having authored 46 scientific papers with significant global impact. His teaching skills are demonstrated through courses in Organic Chemistry and Supramolecular Chemistry, blending foundational knowledge with emerging research. He is also skilled in mentoring students, guiding them through independent projects and thesis development. Additionally, his editorial contributions highlight his critical review skills and commitment to shaping scientific literature. Overall, Dr. Zhou’s expertise lies at the intersection of supramolecular science, materials innovation, and interdisciplinary applications

Resarch Focus

Dr. Zhou’s research is centered on supramolecular chemistry, particularly responsive self-assembly, supramolecular coordination complexes, and functional host–guest systems. His work explores the design of novel macrocyclic hosts, including pillararene derivatives and hybrid[n]arenes, which can serve as versatile building blocks for advanced materials. A key focus is the development of supramolecular polymers and nanostructures for biomedical applications, including cancer therapy, drug delivery, and theranostics. His studies also extend to nonporous adaptive crystals, offering innovative solutions for molecular separations and environmental applications. By combining molecular design with functional material development, his research aims to address pressing global challenges in healthcare, sustainability, and energy. Supported by competitive funding projects, Dr. Zhou’s research integrates experimental chemistry with molecular simulations, bridging theory and application. His vision is to push the boundaries of supramolecular systems toward smart, responsive materials with transformative impacts across interdisciplinary fields of science and technology

Awards & Recognitions

Dr. Jiong Zhou has received numerous awards and honors recognizing his academic excellence and research impact. Early in his career, he earned the Chu Kochen Award , the highest honor of Zhejiang University, along with multiple Excellent Graduate and Innovation Awards. His doctoral achievements were also recognized with the Zhejiang University and Zhejiang Province Excellent Graduate Awards . Upon transitioning to his independent career, he was named Innovation Leader in Shenyang City and was selected for the Outstanding Young Scholars Training Program at Northeastern University. His international recognition includes being elected a Fellow of the International Association of Advanced Materials and receiving the Vebleo Fellowship . He has also guided students to prestigious awards, such as Outstanding Graduation Thesis recognition at Northeastern University. These accolades reflect his dedication to pioneering research, mentorship, and global scientific leadership, reinforcing his reputation as a rising scholar in supramolecular chemistry

Publication Top Notes

In conclusion, Dr. Jiong Zhou is highly suitable for the Best Researcher Award. His strong academic foundation, prolific publication record, impactful research contributions, and global recognition position him as a leading figure in supramolecular chemistry. While there is room to expand in translational applications and global collaborations, his trajectory shows consistent growth, innovation, and leadership. He embodies the qualities of an outstanding researcher, making him a highly deserving candidate for this prestigious award.

Fa-Feng Xu | Materials Chemistry | Chemical Scientist Award

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Dr. Fa-Feng Xu | Materials Chemistry | Chemical Scientist Award

assistant researcher, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences in  China.

🔬 Short Biography 🌿💊📚

Dr. Fa-Feng Xu 🧪 is an accomplished researcher specializing in photonic materials and microlasers. He currently serves as an Assistant Research Fellow at the Key Laboratory of Green and High-End Utilization of Salt Lake Resources, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences 🇨🇳. He earned his Ph.D. in Physical Chemistry from the Institute of Chemistry, Chinese Academy of Sciences in 2020 🎓, following his bachelor’s degree in Material Chemistry from Jilin University in 2014. His postdoctoral work at the same institute focused on material engineering under the supervision of renowned scholars. Dr. Xu’s interdisciplinary research integrates chemistry, materials science, and photophysics to develop advanced optical devices such as microlaser arrays for applications in displays and encryption. With multiple high-impact publications and patents, Dr. Xu is a rising talent in the field of optoelectronic materials 🌟.

PROFILE 

Orcid 

🔍 Summary of Suitability:

Based on the provided CV, Dr. Fa-Feng Xu is a highly suitable candidate for the Chemical Scientist Award. His academic training and professional journey demonstrate a profound command over physical chemistry, material science, and photochemistry—disciplines central to the chemical sciences. Dr. Xu holds a Ph.D. in Physical Chemistry from the Chinese Academy of Sciences and has engaged in impactful postdoctoral research in materials engineering. He has consistently worked on the synthesis and functionalization of advanced photonic materials, particularly organometallic complexes and organic microlasers, which are at the cutting edge of chemical innovation.

🔹 Education & Experience 

Dr. Xu’s academic journey began at Jilin University, where he earned his Bachelor’s degree in Material Chemistry in 2014 🎓. He then pursued a Ph.D. in Physical Chemistry at the Institute of Chemistry, Chinese Academy of Sciences, mentored by distinguished professors including Academician Jiannian Yao 🧬. His research focused on photochemistry and organic photonic materials. After earning his doctorate in 2020, Dr. Xu continued as a Postdoctoral Fellow in Material Engineering at the same institute, collaborating with Prof. Yu-Wu Zhong. Since November 2023, he has been serving as an Assistant Research Fellow at the Qinghai Institute of Salt Lakes, Chinese Academy of Sciences, contributing to the sustainable utilization of salt lake resources 🧫. His career reflects deep expertise across disciplines including chemistry, optics, and nanomaterials, shaping innovations in photonic applications 💡.

🔹Professional Development

Dr. Fa-Feng Xu has developed a robust professional skill set grounded in multidisciplinary science 🧪. His expertise spans organic synthesis, materials design, and photonic device fabrication. With a strong foundation in chemistry and materials science, he designs and synthesizes organometallic and liquid crystal systems with high-performance photonic properties 🌈. He is skilled in fabricating organic microlasers and constructing patterned microlaser arrays for advanced applications like laser displays and information encryption 🔐. Dr. Xu is adept in characterizing materials using techniques such as UV-Vis, SEM, TEM, XRD, and AFM. His practical experience extends to the use of cutting-edge instrumentation including electron beam lithography and femtosecond lasers for device testing. Through collaborations and continuous research, he brings innovation to organic photonics, contributing significantly to applied optical science and advanced materials development 🎯.

🛠️ Skills & Expertise

Dr. Fa-Feng Xu possesses a diverse set of interdisciplinary research skills that bridge the fields of chemistry, photophysics, and materials science 🧪🔬. He is proficient in the synthesis, purification, and analysis of organic and organometallic compounds, including platinum and iridium complexes and liquid crystal systems 🌈. His expertise extends to designing and fabricating organic microlaser arrays—such as microdisks, microspheres, and microplates—for applications in laser displays and information encryption 🖥️🔐. Dr. Xu is skilled in preparing polymer-based microstructures using materials like PS and PMMA for high-performance waveguiding and lasing functions ⚡. He is also experienced in constructing and characterizing inorganic nanostructures, such as silver nanowires 🧫. Technically adept, he operates advanced instruments including SEM, TEM, AFM, XRD, and UV-Vis for structural and optical characterization 🛠️. Furthermore, his familiarity with cutting-edge device fabrication techniques—such as vacuum deposition, lithography, and femtosecond lasers—enables innovative work at the frontier of organic photonics and materials science 🚀.

🔬 Research Focus

Dr. Xu’s research is centered on the intersection of organic photonics, microlasers, and advanced optical materials 🌟. He focuses on the rational design and synthesis of organometallic compounds (notably Pt and Ir complexes), liquid crystal systems, and polymeric microstructures for photonic applications. His work includes fabricating two-dimensional microcrystals and wavelength-tunable microlaser arrays, which find use in full-color laser displays and encrypted information systems 🖥️🔒. Dr. Xu also explores waveguiding phenomena and the development of photonic materials with thermal and optical responsiveness, bridging chemistry, optics, and device engineering. His contributions reflect a broader interest in next-generation optoelectronics, nonlinear optics, and nanostructured materials. The integration of organic systems into functional devices highlights his forward-thinking approach in applied physical chemistry and materials innovation 🔬✨.

🏆 Awards & Recognitions

  • 🥇 Excellent Paper Certificate, 8th CAST Excellent Scientific Paper Selection Program

  • 🎓 Merit Student, University of Chinese Academy of Sciences (UCAS), 2014–2015

  • 🏆 Outstanding Student Leader, UCAS, 2015–2016

  • 💰 Academic Scholarships, UCAS (2014–2019)

  • 🎖️ National Encouragement Scholarships, Jilin University (2010–2012)

  • 🌟 Excellence Scholarship Student, Jilin University, 2010–2011

Publications & Citations 📚

  1. 📝 Organoplatinum(II) Cruciform: A Versatile Building Block to Fabricate 2D Microcrystals with Full-Color and White Phosphorescence and Anisotropic Photon Transport, Angew. Chem. Int. Ed. 📅 2022 | 🔁 Cited by: [citation data needed] 🌈📸

  2. 📝 Wavelength-Tunable Single-Mode Microlasers Based on Photoresponsive Pitch Modulation of Liquid Crystals for Information Encryption, Research 📅 2020 | 🔁 Cited by: [citation data needed] 🔒📡

  3. 📝 Flat-Panel Laser Displays Based on Liquid Crystal Microlaser Arrays, CCS Chem. 📅 2020 | 🔁 Cited by: [citation data needed] 🖥️🎯

  4. 📝 Thermo-Responsive Light-Emitting Metal Complexes and Related Materials, Inorg. Chem. Front. 📅 2020 | 🔁 Cited by: [citation data needed] 🔥🔬

  5. 📝 Molecular Cocrystals with Hydrogen-Bonded Polymeric Structures and Polarized Luminescence, Materials 📅 2022 | 🔁 Cited by: [citation data needed] 💎💡

  6. 📝 Research Progress of Cesium-Based Photonic Materials, J. of Salt Lake Research 📅 2024 | 🔁 Cited by: [citation data needed] 🧂🔍

🔍 Conclusion:

Dr. Xu’s contributions lie at the intersection of synthetic chemistry, optics, and functional materials. His creative solutions to complex challenges in organic photonics and his strong publication and patent record mark him as an emerging leader in chemical research. His profile exemplifies the innovation and interdisciplinary excellence the Chemical Scientist Award aims to recognize.

Bhajan Lal | Inorganic Materials | Best Researcher Award

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Assoc. Prof. Dr. Bhajan Lal | Inorganic Materials | Best Researcher Award

Associate Professor at Shah Abdul Latif University Khairpur , Pakistan.

🔬 Short Biography 🌿💊📚

Dr. Bhajan Lal 🎓 is an accomplished Associate Professor at Shah Abdul Latif University, Khairpur, Pakistan. With a Ph.D. in Inorganic Chemistry from Quaid-i-Azam University 🧪, Islamabad, and post-doctoral research at Northwestern University 🇺🇸, his academic journey reflects dedication and excellence. He also undertook a prestigious research visit at the University of Sydney, Australia 🇦🇺. Over the years, Dr. Lal has held various faculty positions, including Assistant Professorships at SALU and Sukkur IBA, contributing richly to both teaching and research 👨‍🏫. A leading member of several academic initiatives, he currently serves as Faculty Advisor to the ACS-SALU International Student Chapter 🌍. With numerous high-impact publications and active participation in international conferences, Dr. Lal’s contributions to chemistry are both scholarly and globally recognized 🌐. His work emphasizes sustainability and innovation, particularly in nanomaterials and photocatalysis 🌱. He continues to mentor students and lead projects with a focus on environmental and analytical chemistry 🔍.

PROFILE 

GOOGLE SCHOLAR 

ORCID 

🔍 Summary of Suitability:

Dr. Bhajan Lal stands out as a pioneering researcher in inorganic, analytical, and environmental chemistry, with a profound impact in nanocatalysis, photocatalysis, and metal-organic frameworks (MOFs). His exceptional research output, comprising over 50 peer-reviewed publications in high-impact journals like Angewandte Chemie, Journal of the American Chemical Society, and ACS Omega, illustrates both quality and relevance. With 1550+ citations, his scientific contributions are widely recognized and influential in the global research community 🌍.

🔹 Education & Experience 

Dr. Bhajan Lal’s academic path began with a B.Sc. from SALU Khairpur 🧪, followed by an M.Sc., M.Phil., and Ph.D. in Inorganic Chemistry from Quaid-i-Azam University, Islamabad 📘. He completed a postdoctoral fellowship at Northwestern University, USA 🇺🇸, and a research stint at the University of Sydney 🇦🇺. Professionally, he began as an Assistant Professor at SALU (2013), transitioned to Sukkur IBA (2015–2017), and returned to SALU in 2017. Since 2019, he has served as Associate Professor 🏫. In addition to teaching, he has taken up advisory roles, such as Faculty Advisor to the ACS-SALU Chapter and technical expert for SHEC initiatives 🧑‍🔬. His extensive experience blends pedagogy, innovation, and research leadership 🌟. Dr. Lal’s role in national and international research events and programs showcases his global academic engagement 🌍. He is known for mentoring graduate students and managing multi-year, interdisciplinary research grants 🎯.

🔹 Professional Development 

Dr. Bhajan Lal is a proactive scholar committed to continuous professional growth and academic leadership 🌟. He has attended numerous national and international conferences in the USA 🇺🇸, Singapore 🇸🇬, Korea 🇰🇷, and the UAE 🇦🇪, presenting cutting-edge research in chemistry. He has received multiple ACS Community Engagement and Professional Meeting Grants 💼 to support his academic outreach and networking. As Faculty Advisor to the ACS-SALU International Chapter 🌍, he has led initiatives that integrate students into the global scientific community. Dr. Lal’s development portfolio includes research grants from the Higher Education Commission and the Sindh Research Support Program 💰, reflecting his project leadership and innovation. Additionally, his invited talks at prestigious platforms demonstrate his growing influence in applied and sustainable chemistry 🌿. These engagements, combined with his postdoctoral work at Northwestern University, enrich his professional skills and position him as a dynamic leader in chemical education and research development 🔬.

🏅 Awards and Recognitions

  • 🧪 Postdoctoral Fellowship, Northwestern University (HEC Pakistan)

  • 🌏 IRSIP Fellowship, University of Sydney, Australia (HEC)

  • 💼 ACS Community Engagement Grants (2024–2025)

  • 🧵 Sindh Research Support Grant – Nanozyme-based water treatment project

  • 🧳 Travel Grants by HEC & IBA for conferences in USA, Singapore, Korea, and UAE

  • 🎤 Invited Speaker at international conferences including ChemCon2023, ICSDN-23

  • 🏅 Platinum Medallion Publications in Angewandte Chemie and JACS

  • 📈 Citations: 1550+ scholarly citations on Google Scholar

  • 📚 Faculty Advisor, ACS-SALU International Student Chapter

  • 👨‍🏫 Focal Person, PM Youth Laptop Scheme & SLSP (SHEC)

🔬 Research Focus

Dr. Bhajan Lal’s research focuses on inorganic, analytical, and environmental chemistry, with specialized interest in nanocatalysis, photocatalysis, and metal-organic frameworks (MOFs) 🔬. His work in synthesizing and characterizing functional materials targets sustainable applications like pollutant degradation, microbial control, and clean energy 🌱. He explores size-exclusion separation methods and nanozyme-based floodwater remediation, contributing to green chemistry and public health 🧪. His published studies in journals such as Angewandte Chemie and JACS illustrate his expertise in hydrocarbon separation and advanced material design 🚀. Dr. Lal also investigates visible-light-driven TiO₂-based nanocatalysts, enzyme-mimicking nanomaterials, and electrochemical sensors ⚡. By combining experimental techniques with computational modeling, his research enhances understanding of functional nanostructures and catalysis mechanisms 🔍. Through collaborative projects and supervision of graduate research, he nurtures interdisciplinary innovation in material science, environmental solutions, and medicinal chemistry 🧬. His impactful work pushes the boundaries of next-generation chemical technologies and environmental sustainability 🌍.

Publications & Citations 📚

  1. 📘 Exploring hetero-catalytic proficiencies of pristine and carbon-doped titania nanocatalysts2025 | Cited by: 4 📊

  2. 🔋 Single-step wet chemical synthesis of Co-doped Bi₂O₃ photoanode for DSSCs2024 | Cited by: 9 📈

  3. 🧪 Robust Carborane-Based MOFs for Hexane Separation2023 | Cited by: 46 📚

  4. 🌀 Pore Aperture Control for Size-Exclusion Hydrocarbon Separations2023 | Cited by: 48 🏆

  5. ☀️ Visible-Light-Driven Carbon-Doped TiO₂ Nanocatalysts2022 | Cited by: 53 🌟

  6. 🧬 Aryl bis-thioureas as Alzheimer’s drug candidates2021 | Cited by: 11 💊

  7. 🧪 Click-derived 1,2,3-triazole as selective Hg²⁺ detector2021 | Cited by: 4 🔍

  8. 🧫 CuO/polyaniline composite for electrochemical detection2021 | Cited by: 4 🧲

  9. 🧾 NiO nanostructures and glucose sensing2021 | Cited by: –

  10. 🔋 Co₃O₄-MWCNT composites for electrochemical studies2021 | Cited by: –

  11. 🧪 Leaf-like NiO with MWCNTs for uric acid detection2021 | Cited by: 2 🧪

  12. 🦠 Graphene materials vs. COVID-19: Challenges & opportunities2021 | Cited by: 55 🧻

  13. 🔥 Co-Mo oxide nanomaterials for C–H bond activation2021 | Cited by: 10 ⚡

  14. 🧪 Ferrocene-based thioureas: Synthesis & antioxidant studies2019 | Cited by: 11 🧬

  15. 🧬 Ferrocenyl thioureas as kinase inhibitors & cytotoxic agents2019 | Cited by: 5 💉

  16. 🧲 Ferrocene-Cu(I) complex: DNA interaction & DFT study2019 | Cited by: 17 🧠

  17. 🧬 Ferrocene thioureas as non-covalent DNA binders2018 | Cited by: – 🧬

🔍 Conclusion:

Dr. Bhajan Lal’s combination of research excellence, innovation, international collaboration, and academic leadership clearly qualifies him as an outstanding candidate for the Best Researcher Award. His influential contributions to chemistry—both in theory and application—demonstrate sustained impact, making him a beacon in the scientific community 🔬🏆.