Xiang-Ting Min | Catalyst | Young Scientist Award

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Assoc. Prof. Dr. Xiang-Ting Min | Catalyst | Young Scientist Award

Assoc. Prof. Dr. Xiang-Ting Min, Dalian Institute of Chemical Physics, China

Assoc. Prof. Dr. Xiang-Ting Min is a distinguished chemical researcher specializing in single-atom catalysts for deuterated compound synthesis. Currently serving as an Assistant Professor since 2024, he earned his Ph.D. in Organic Chemistry from the Dalian Institute of Chemical Physics, following his Master’s from Dalian University of Technology and Bachelor’s from Liaocheng University. He completed postdoctoral research under Profs. Tao Zhang and Botao Qiao. Dr. Min has published 35 papers. He also serves as a reviewer for Nature Communications and guest editor for Catalysts.

Publication Profile

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🎓 Educational and Research Journey

Assoc. Prof. Dr. Xiang-Ting Min has built a strong academic and research foundation in the field of chemistry through a structured and prestigious educational path. He pursued his postdoctoral research from 2021 to 2024 at the Dalian Institute of Chemical Physics under the guidance of renowned mentors Prof. Tao Zhang and Prof. Botao Qiao, focusing on advanced catalysis. Prior to this, he completed his Ph.D. in Organic Chemistry (2018–2021) at the same institute under the supervision of Prof. Boshun Wan and Prof. Qing-An Chen, where he developed expertise in molecular transformations. He earned his Master’s degree in Chemical Engineering (2015–2018) from the Dalian University of Technology under Prof. Jianhui Liu, gaining valuable knowledge in applied chemical processes. His academic journey began with a Bachelor’s degree in Applied Chemistry (2011–2015) at Liaocheng University, where he was mentored by Prof. Min Liu. This progressive trajectory reflects his dedication to research and excellence in chemistry.

🧪 Professional Experience

Assoc. Prof. Dr. Xiang-Ting Min began his role as an Assistant Professor in 2024, continuing his dedication to cutting-edge chemical research. In this position, he is leading innovative studies focused on the development of single-atom catalysts for the efficient and selective synthesis of deuterated compounds, which are crucial in pharmaceutical development, metabolic studies, and drug stability enhancement. His research aims to push the boundaries of modern catalysis by exploring atom-efficient, sustainable methods for isotope labeling and fine chemical production. Building upon his extensive postdoctoral and doctoral experiences, Dr. Min integrates advanced spectroscopic, computational, and synthetic approaches to design next-generation catalytic systems. His current academic role not only involves intensive laboratory research but also includes mentoring graduate students and contributing to high-impact scientific publications. This appointment reflects both his rising academic stature and his commitment to addressing complex challenges in organometallic chemistry and catalytic science.

🔬 Research Focus

Assoc. Prof. Dr. Xiang-Ting Min’s research lies at the intersection of organometallic catalysis, isotope labeling, and single-atom catalysis. His work primarily focuses on developing palladium and rhodium-based single-atom catalysts for hydrogen–deuterium exchange reactions, particularly targeting α-site-selective deuteration in benzylic alcohols and aldehydes. 🧪 He explores decarbonylative coupling, cross-coupling, and photocatalysis using transition metal complexes. His innovations contribute to green chemistry, drug metabolism studies, and synthetic efficiency. 🌱⚗️ Through cutting-edge publications in JACS, Chem, and Angew. Chem., Dr. Min’s research advances precision catalysis and isotope chemistry, impacting pharmaceuticals, materials science, and sustainable synthesis.

Publication Top Notes

  • 🧪 2025 – Catalytic α‑Site‑Selective Hydrogen‑Deuterium Exchange of Benzylic Alcohols by Palladium Single‑Atom Catalyst – achieved up to 95% α‑deuteration in benzylic alcohols using Pd single‑atom catalysts

  • 🧩 2023 – Heterogeneous geminal‑atom catalysis: Cross‑coupling reactions through the pair of single‑atom sites – introduced geminal‑atom catalysts (GACs) enabling cooperative cross‑coupling

  • 🔄 2022 – Rhodium‑Catalyzed Deuterated Tsuji–Wilkinson Decarbonylation of Aldehydes with D₂O (J. Am. Chem. Soc.) – developed selective deuteration of aldehydes via Rh catalysis

  • 🌞 2021 – Visible‑Light Induced Bifunctional Rhodium Catalysis for Decarbonylative Coupling of Imides with Alkynes (Angew. Chem. Int. Ed.) – unveiled photoredox‑driven Rh catalysis for imide–alkyne coupling

  • ⚙️ 2020 – Cobalt‑Catalyzed Regioselective Carboamidation of Alkynes with Imides (Org. Lett.) – achieved selective carboamidation of alkynes via Co catalysts

Aparna Gautam | Catalyst synthesis | Best Researcher Award

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Dr. Aparna Gautam | Catalyst synthesis | Best Researcher Award

Dr. Aparna Gautam, Motilal Nehru National Institute of Technology, Allahabad, India

Dr. Aparna Gautam is a dedicated Research Scholar at MNNIT Allahabad, Uttar Pradesh, specializing in Chemical Engineering. Her Ph.D. research focused on sustainable biodiesel production using ionic liquid-based nano-photocatalysts from waste cooking oil. With a passion for green chemistry, she integrates process intensification methods like microwave, ultrasound, and UV irradiation into her work. Aparna has contributed to national conferences, published in indexed journals, and holds one patent. Her commitment to environmental sustainability and renewable energy solutions defines her academic journey, and she actively seeks post-doctoral roles to advance innovation in catalysis and clean energy technologies. 🌱🧪📚

Publication Profile

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📘 Education

Dr. Aparna Gautam earned her Ph.D. in Chemical Engineering from MNNIT Allahabad, where she developed novel photocatalytic methods for biodiesel synthesis. She also holds an M.Tech in Chemical Engineering, emphasizing sustainable chemical processes. Her academic training blends theoretical foundations with advanced experimental practices, including catalysis, kinetics, and environmental engineering. Aparna’s research training involved characterizing nanomaterials and analyzing reaction mechanisms for optimized green fuel production. Her educational journey is rooted in solving real-world problems, applying chemical engineering principles to promote clean energy and waste valorization. Her academic excellence is further demonstrated through publications and technical contributions to her field. 🎓🔬📘

🧪 Experience

Dr. Aparna Gautam has hands-on research experience in developing nano-based photocatalysts for biodiesel production using waste oils, incorporating green energy techniques such as microwave, UV, and ultrasound-assisted synthesis. As a Research Scholar at MNNIT Allahabad, she has actively contributed to experimental design, data analysis, and technical reporting. Aparna has presented her work at national conferences and collaborated in laboratory teams focusing on sustainable fuel technologies. She has authored four indexed journal papers and filed one patent. Currently seeking postdoctoral or industrial research opportunities, she is eager to contribute to renewable energy systems, catalysis, and sustainable process development. ⚙️🔍💡

🏆 Awards and Honors

Dr. Aparna Gautam has received recognition for her innovative contributions to green chemistry and renewable energy. Her work on nano-photocatalysts for biodiesel production earned her the opportunity to present at national-level conferences. With four Scopus/SCI-indexed journal publications and one published patent, she is a strong contender for the Best Researcher Award by ScienceFather. Aparna’s h-index of 3 reflects the growing impact of her research in environmental engineering. Her contributions to sustainable development and green energy continue to gain acclaim within academic circles. She aspires to receive further accolades for excellence in research and innovation in clean technologies. 🥇📊🌍

🔬 Research Focus

Dr. Aparna Gautam’s research revolves around green catalysis, renewable energy, and process intensification. Her Ph.D. explored ionic liquid-based nano-photocatalysts supported on titania for sustainable biodiesel production from waste cooking oil. Her approach integrates microwave, ultrasound, and UV irradiation to boost reaction efficiency. Her work contributes significantly to the fields of biodiesel synthesis, waste valorization, and environmental sustainability. She has also delved into kinetic and thermodynamic modeling of transesterification processes. Passionate about clean energy, Aparna aims to extend her research to industrial applications, helping reduce environmental footprints through innovative and scalable green fuel technologies. 🔬🧫♻️⚡

Publication Top Notes

  • 📄 Dry route process and wet route process for algal biodiesel production: A review of techno-economical aspects – 📊 Cited by 24 – 📅 2021

  • 📄 Metal-and ionic liquid-based photocatalysts for biodiesel production: a review – 📊 Cited by 18 – 📅 2023

  • 📄 Novel ionic liquid-based nano-photocatalyst for microwave-ultrasound intensified biodiesel synthesis – 📊 Cited by 6 – 📅 2024

  • 📄 Optimization, kinetics and thermodynamics of ultrasound assisted and ionic liquid catalyzed in-situ biodiesel synthesis from wet microalgae – 📊 Cited by 3 – 📅 2023

  • 📄 Optimization and Control of Continuous Biodiesel Production Processes: A Review –  📅 2025

  • 📄 Process intensification opportunities in the production of microalgal biofuels  – 📅 2023

  • 📄 AN IONIC LIQUID-BASED NANO-PHOTOCATALYST AND A METHOD OF PREPARATION THEREOF (Patent IN533205)  – 📅 2023

  • 📄 Utilization of an emulsion liquid membrane for the extraction of ethanol – 📅 2023

  • 📄 CHEM-CONFLUX 22 (Conference paper on sustainability) – 📅 2022

Xudong Hu | Energy conversion | Best Researcher Award

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Dr. Xudong Hu | Energy conversion | Best Researcher Award

Dr. Xudong Hu, Henan University, China

Dr. Xudong Hu is a pioneering Chinese researcher based in Kaifeng, Henan Province, specializing in hydrogen energy, water treatment, and environmental catalysis. With a strong background in chemistry and materials science, he has published impactful first-author papers in Angewandte Chemie, International Journal of Hydrogen Energy, and Chemical Engineering Science. His work emphasizes sustainable solutions through advanced catalyst design and optimization for clean energy and pollutant degradation. Dr. Hu combines theoretical insights with experimental precision, earning recognition as an emerging expert in green technology

Publication Profile

Scopus

🎓 Education

Dr. Xudong Hu completed his higher education in China, where he pursued his academic training in materials science, chemistry, and environmental engineering. He earned his undergraduate and graduate degrees from top-tier institutions, focusing on energy materials and catalytic systems. During his doctoral studies, he specialized in electrochemical systems and photocatalytic processes for energy and environmental applications. His academic path has been enriched by interdisciplinary studies combining computational modeling with lab-based experimentation. Through rigorous training and research, Dr. Hu built a solid foundation that drives his contributions in sustainable energy and environmental remediation. 📘🎓⚗️

💼 Experience

Dr. Hu has accumulated extensive research experience in electrocatalysis, photocatalysis, and advanced water treatment systems. He has served as the first or co-first author on several internationally recognized papers, leading projects on multifunctional catalyst design and green chemistry. His career includes both theoretical and hands-on experimental work, with a focus on industrial wastewater treatment, seawater electrolysis, and peracetic acid activation. He has collaborated with multidisciplinary teams and contributed to innovations in hydrogen production and pollutant degradation. Dr. Hu is currently advancing catalyst technologies that support cleaner industries and more sustainable environmental practices. 🧪💧🔍

🏆 Awards & Honors

Dr. Xudong Hu has been honored for his groundbreaking research in hydrogen energy and environmental catalysis. His publications in high-impact journals such as Angewandte Chemie have brought international attention to his work. He has been recognized by academic committees and research institutions for excellence in innovation, theoretical modeling, and applied catalyst design. His work on multifunctional catalysts and water treatment technologies has earned him several national research awards and invitations to speak at conferences. These accolades reflect his dedication to addressing global sustainability challenges through science and engineering. 🏅🌟📚

🔬 Research Focus

Dr. Hu’s research focuses on high-efficiency hydrogen production, photocatalytic degradation of persistent organic pollutants (POPs), and advanced water treatment methods. He designs multifunctional electrocatalysts with surface and electronic structure optimization to support seawater electrolysis and peracetic acid activation. His studies integrate theoretical modeling with real-world environmental applications, targeting sustainable energy production and pollutant control. Dr. Hu’s contributions extend to industrial wastewater recycling and the development of green chemical processes. Through synergistic catalysis and materials innovation, his work bridges chemistry, environmental engineering, and energy technology. 💡🔋🌊

Publication Top Notes

  • 📄 Theory-guided Design of Surface-Enhanced Ni-Mn Diatomic Site Catalysts for Efficient Seawater Electrolysis via the Degradation of High Ionization Potential Organic Pollutants
    📘 Journal: Angewandte Chemie
    🗓️ Year: 2025
    🔬 Focus: Hydrogen production & pollutant degradation
    ✍️ Role: First & Corresponding Author
  • 📄 Fe-Enriched Electron Transport in CuFeS₂ Catalyzed Peracetic Acid for Efficient Dipyrone Degradation: Computational and Experimental Insights
    📘 Journal: Chemical Engineering Science
    🗓️ Year: 2025
    🔗 DOI: 10.1016/j.ces.2025.121180
    🔬 Focus: Pharmaceutical pollutant degradation
    ✍️ Role: Co-First AuthorX-MOL