Semaa Khaleel | Chemical Engineering | Best Researcher Award

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Dr. Semaa Khaleel | Chemical Engineering | Best Researcher Award

Lecturer at Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul, Iraq

Dr. Semaa I. Khaleel is a dedicated academic and researcher currently serving as a Lecturer at the Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul, Iraq. With a strong foundation in chemistry, she has continuously advanced in academia, obtaining her B.Sc., M.Sc., and Ph.D. from Mosul University. Her scholarly journey is marked by a passion for applied research, focusing on innovative materials and environmental sustainability. Dr. Khaleel has taught a wide range of undergraduate courses and mentored students across diverse subjects related to petroleum engineering. Her expertise lies in developing and modifying materials such as activated carbon and biofuels, contributing to clean energy and waste utilization solutions. She has led and completed several impactful research projects, and her contributions are particularly noteworthy in the areas of adsorption technologies and asphalt modification. Committed to both research and teaching excellence, she maintains active profiles on global research platforms including Google Scholar, ResearchGate, and ORCID. As an emerging voice in her field, Dr. Khaleel exemplifies the qualities of a modern scientist—bridging theory and practice with innovation and integrity. Her academic rigor, combined with her practical approach to problem-solving, makes her a strong contender for the Best Researcher Award.

Professional Profile

Education

Dr. Semaa I. Khaleel’s academic journey is deeply rooted in the prestigious Mosul University, where she earned all her degrees in Chemistry, reflecting her unwavering dedication to scientific inquiry and academic excellence. She obtained her Bachelor of Science degree in 2002, laying the groundwork for a career centered on chemical and environmental science. Driven by an early interest in applied chemistry, she pursued her Master of Science in 2009, further honing her analytical skills and expanding her theoretical foundation. Her graduate research emphasized the role of chemical processes in industrial and environmental applications, a theme that continued throughout her doctoral studies. In 2018, Dr. Khaleel completed her Ph.D. in Chemistry, focusing on advanced materials and adsorption technologies, which later became the core of her academic and research interests. Her doctoral work has significantly influenced her contributions to petroleum refining, asphalt rheology, and sustainable fuel technologies. The continuum of her education within a single institution also illustrates her long-term commitment to the development of scientific research in Iraq. This strong educational background, paired with her practical and teaching experience, has uniquely positioned her to contribute meaningfully to academia, industrial innovation, and student mentorship at the University of Mosul.

Professional Experience

Since 2018, Dr. Semaa I. Khaleel has served as a Lecturer at the Department of Petroleum and Refining Engineering, College of Petroleum and Mining Engineering, University of Mosul. Her professional responsibilities include teaching various undergraduate-level subjects that intersect chemistry and petroleum engineering. Her courses are designed to integrate theoretical concepts with real-world industrial applications, reflecting her belief in experiential learning. Beyond her teaching duties, she plays a critical role in guiding student projects, supervising laboratory work, and supporting departmental academic development. Dr. Khaleel has also actively participated in curriculum development to align educational programs with emerging industry trends in sustainable fuels and advanced materials. Parallel to her teaching, she has successfully completed five research projects and is currently engaged in three ongoing investigations related to activated carbon production, biofuel synthesis, and rheological modification of asphalt. Her collaborations with other departments and institutions showcase her commitment to multidisciplinary research. She has maintained professional affiliations with engineering and chemistry societies, and her contributions have extended to consultation on environmentally conscious refining processes. With a career that balances research innovation and pedagogical effectiveness, Dr. Khaleel continues to demonstrate a strong impact in academia and the applied sciences sector in Iraq and beyond.

Research Interest

Dr. Semaa I. Khaleel’s research interests are deeply rooted in applied chemistry with a focus on sustainability and industrial relevance. Her primary research themes include the development and utilization of activated carbon, biofuels, rheological modification of asphalt, polymer chemistry, and diesel fuel analysis. She is particularly known for her innovative approaches in using agricultural and industrial waste materials to synthesize activated carbon for environmental applications such as dye adsorption and water purification. Her work in asphalt modification investigates the use of chemical treatments and polymers to enhance the performance and durability of paving materials under extreme conditions. Another area of interest is the thermodynamic and kinetic studies of adsorption processes, where she has contributed new insights into how low-cost carbon materials interact with dyes and pollutants. Dr. Khaleel also explores biofuel production pathways that are efficient and sustainable, aligning with global efforts to reduce carbon emissions and fossil fuel dependency. Her interdisciplinary approach allows her to connect materials science, environmental engineering, and petroleum technology. Through these focal areas, she aims to contribute practical solutions to pressing environmental and energy challenges while advancing fundamental understanding of material behavior and chemical interactions.

Research Skills

Dr. Semaa I. Khaleel possesses a comprehensive set of research skills that enable her to navigate and contribute meaningfully across multiple areas of applied and analytical chemistry. She is adept in experimental design, data analysis, and statistical modeling, particularly within the context of adsorption processes and thermodynamic studies. Her lab expertise includes activated carbon synthesis, polymer blending, and biofuel refinement, using methods like chemical activation, distillation, and surface modification techniques. Dr. Khaleel is highly proficient in UV-Vis spectrophotometry, FTIR spectroscopy, and thermal analysis, which she applies to characterize materials and investigate their physicochemical properties. She also brings competence in kinetic modeling, having conducted studies that explore adsorption mechanisms and isotherm behavior. Additionally, she is skilled in academic writing, project reporting, and preparing manuscripts for peer-reviewed journals. With five completed research projects and three currently underway, she has demonstrated her capacity for long-term research planning, proposal writing, and collaboration. Her familiarity with platforms such as Google Scholar, ResearchGate, and ORCID reflects her active engagement with the global research community. Collectively, her practical skills, analytical mindset, and commitment to scientific rigor position her as a strong candidate for recognition through research awards.

Awards and Honors

While formal awards may not yet fully reflect Dr. Semaa I. Khaleel’s academic merit, her accomplishments and growing recognition in the field signal her increasing impact as a researcher. Being appointed as a Lecturer at the University of Mosul, a prestigious public university in Iraq, stands as a significant professional achievement and acknowledgment of her academic excellence. Her continuous teaching role since 2018 demonstrates trust in her educational capability and technical knowledge. Her research contributions, such as the production of activated carbon from waste materials and her kinetic studies on adsorption, have positioned her as a promising researcher in the sustainable materials domain. She has successfully led multiple projects, collaborated across disciplines, and published peer-reviewed work. In an academic environment where resources may be limited, her ability to conduct meaningful research with practical implications is a testimony to her ingenuity and dedication. Through her participation in academic conferences, student mentorship, and growing citation record, Dr. Khaleel is steadily building her reputation. She is now being considered for the Best Researcher Award, which would serve as a fitting recognition of her hard work, scientific contributions, and her unwavering commitment to academic and research excellence in Iraq and beyond.

Conclusion

Dr. Semaa I. Khaleel exemplifies the qualities of a dynamic and impactful researcher whose work bridges theoretical innovation with practical utility. From her academic training in chemistry at Mosul University to her current role as a lecturer and researcher, she has continually demonstrated intellectual rigor, commitment to education, and a passion for sustainability. Her research into activated carbon production, asphalt modification, and alternative fuels addresses some of the most pressing global challenges—resource recovery, pollution mitigation, and energy efficiency. Her projects, often centered on converting waste into value-added products, showcase a resourceful and environmentally conscious mindset. Moreover, her dedication to teaching has influenced a new generation of petroleum engineers and chemists, especially in a region where scientific advancement is both challenging and essential. Her active involvement in research, publication, and professional collaboration illustrates her readiness for greater responsibility and recognition. Being nominated for the Best Researcher Award is a timely and well-deserved acknowledgment of her contributions to applied science. With continued support, Dr. Khaleel is poised to make even greater impacts, not only through academic achievements but also by fostering innovation that serves society and the environment.

Publications Top Notes

Title: A Thermodynamic and Kinetic Study for Adsorption of a Number of Dyes from their Aqueous Solutions on a New Kind of Activated Carbon Prepared by Pomegranate (Punica Granatum)
Authors: E.A.S. Al-Hyali, A.A.H. Al-Khazraji, S.I.K. Al-Taey
Year: 2016
Citations: 1

Title: A Statistical Study Comparing Experimental and Theoretical Yields of Activated Carbon Prepared from Pomegranate (Punica granatum) Peels via Chemical Treatment
Authors: S.I. Khaleel, A.A.H. Al-Khazraji, E.A.S. Al-Hyali
Year: 2024

Title: Preparation of New Types of Activated Carbon and Testing Their Efficiency by the Adsorption of Some Dyes, Thermodynamic and Kinetic Studies
Authors: K. Semaa, H. Ammar, A.L.H. Emad
Year: 2017

Title: Extraction of Amino Acids from Their Aqueous Solutions by Using Derivatives of Polyethylene
Authors: S.I.K., Asaad F. Khattab
Year: 2016

Title: Studying Thermodynamic and Kinetic as for the Adsorption of a Number of Dyes from their Aqueous Solutions on a New Kind of Activated Carbon Prepared by the Residues Vacuum Distillation of Air Oxidation for Beji Asphalt by Chemical Treatment
Authors: A.A.H. Al-Khazraji, E.A.S. Al-Hyali, S.I.K. Al-Taey
Year: 2016

Xia Li | Organic Chemistry | Best Researcher Award

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Mrs. Xia Li | Organic Chemistry | Best Researcher Award

Associate Professor at Tianjin Key Laboratory for Prevention and Control of Occupational and Environmental Hazards, China

Dr. Xia Li is a distinguished Associate Professor affiliated with the Tianjin Key Laboratory for Prevention and Control of Occupational and Environmental Hazards in China. With a robust academic background and over a decade of research experience, she has made significant contributions to the field of organic chemistry and materials science. Her academic journey began with a Master of Science in Chemistry from Zhengzhou University in 2008. Following her postgraduate studies, she joined the renowned research group led by Prof. Lei Xiaoguang at the National Institute of Biological Science (NIBS) in Beijing and Tianjin University. There, she earned her PhD in 2014 and began cultivating a research career centered on organic synthesis and environmental applications. Dr. Li’s work primarily explores the development of novel chemical reactions and their practical applications, including the synthesis of natural products, bioactive molecules, and advancements in corrosion prevention. She has published more than 40 peer-reviewed articles in top-tier journals and holds over 10 national invention patents. Her innovative approach and dedication to multidisciplinary research have earned her recognition in both academic and applied scientific communities. Dr. Li continues to pursue excellence in research and mentorship, contributing to scientific innovation and public health initiatives in China and beyond.

Professional Profiles

Education

Dr. Xia Li’s academic foundation in chemistry was solidified through rigorous training at leading Chinese institutions. She began her higher education at Zhengzhou University, one of China’s well-respected public universities, where she earned her Master of Science degree in Chemistry in 2008. During her postgraduate studies, she developed a keen interest in organic synthesis and analytical techniques, which laid the groundwork for her future research. Eager to deepen her knowledge and engage in more advanced scientific exploration, she joined the research team of Prof. Lei Xiaoguang at the National Institute of Biological Science (NIBS) in Beijing. The collaborative program with Tianjin University provided a stimulating environment for interdisciplinary research at the intersection of biology, chemistry, and environmental science. Dr. Li successfully completed her PhD in 2014, with a focus on the development of novel chemical methodologies and their application to natural product synthesis and functional material design. This comprehensive educational journey equipped her with both theoretical knowledge and practical expertise that have since informed her innovative research contributions. Her academic background continues to serve as a cornerstone for her role as an Associate Professor and her active involvement in national and international scientific communities.

Professional Experience

Dr. Xia Li has built an impressive professional career characterized by academic excellence, research innovation, and scientific leadership. Following the completion of her PhD in 2014, she joined the Tianjin Key Laboratory for Prevention and Control of Occupational and Environmental Hazards, where she took on increasingly significant roles in advancing chemical research with practical environmental applications. In this capacity, she has contributed to projects that intersect organic chemistry, industrial safety, and environmental health, positioning her work at the frontier of interdisciplinary science. Her research has emphasized the design of novel chemical reactions, corrosion inhibition strategies, and the synthesis of biologically active molecules, aligning with both academic interests and public health needs. Her scholarly productivity and leadership culminated in her appointment as Associate Professor in 2019, a recognition of her contributions to both scientific discovery and research mentorship. Throughout her tenure, she has actively collaborated with cross-functional teams, contributed to national patent filings, and played a key role in securing funding for high-impact research initiatives. Dr. Li’s commitment to applied science and environmental protection continues to define her professional path as she addresses contemporary challenges through chemistry-driven innovation.

Research Interest

Dr. Xia Li’s research interests lie at the interface of organic synthesis, environmental chemistry, and materials science. Her work is driven by a deep curiosity about chemical reactivity and a desire to develop novel solutions for real-world problems. She focuses on discovering and optimizing chemical reactions that enable the efficient synthesis of complex natural products and bioactive compounds with therapeutic potential. A significant portion of her research also addresses industrial challenges related to corrosion and the development of advanced protective materials. Her projects often involve designing and synthesizing small molecules or functional coatings that exhibit improved stability, environmental compatibility, and performance under harsh conditions. These efforts have implications not only for chemical manufacturing and pharmaceuticals but also for environmental protection and occupational safety. Dr. Li’s interdisciplinary approach enables her to integrate insights from organic chemistry, analytical methods, and materials engineering, leading to innovative outcomes supported by strong experimental evidence. Her interests continue to evolve with emerging global needs, and she remains committed to contributing solutions that bridge academic research and societal benefit. By focusing on both molecular design and applied chemistry, she maintains a versatile and impactful research portfolio.

Research Skills

Dr. Xia Li possesses a diverse array of research skills that reflect her interdisciplinary training and extensive laboratory experience. Her core competencies include organic synthesis, reaction mechanism analysis, and the structural elucidation of complex molecules using techniques such as NMR spectroscopy, mass spectrometry, and X-ray crystallography. She is proficient in designing synthetic routes for bioactive natural products and has developed efficient methodologies for achieving high-yield, regioselective, and stereoselective transformations. In addition to her synthetic chemistry expertise, Dr. Li is skilled in the characterization and development of corrosion inhibitors and protective coatings for industrial applications. Her research integrates materials science principles, employing surface analysis tools like SEM, TEM, and electrochemical impedance spectroscopy to evaluate material performance under various environmental conditions. Dr. Li is also adept at managing collaborative projects, preparing competitive research proposals, and mentoring graduate students. Her patent-writing experience further highlights her ability to translate lab findings into applicable technologies. Overall, her skillset bridges the gap between fundamental research and industrial innovation, enabling her to lead complex projects that demand both scientific depth and practical relevance.

Awards and Honors

Throughout her career, Dr. Xia Li has been recognized for her exceptional research contributions and academic leadership. Her innovative work in organic synthesis and corrosion protection has earned her numerous accolades within academic and industrial circles. While specific award titles are not detailed in the available biography, the substantial volume of her peer-reviewed publications—more than 40 in prestigious journals such as Angewandte Chemie International Edition, Journal of Organic Chemistry, ACS Omega, and ChemistrySelect—is a strong testament to her scientific excellence and peer recognition. Additionally, her successful filing of over 10 national invention patents demonstrates not only originality but also a clear impact on technological advancement and public utility. Her elevation to the position of Associate Professor in 2019 serves as an institutional acknowledgment of her leadership and sustained scholarly contributions. Dr. Li’s achievements reflect her dedication to pushing scientific boundaries while maintaining a strong focus on societal applications. Her work continues to attract attention from both academia and industry, solidifying her role as a leading figure in the integration of chemical science and environmental health.

Conclusion

Dr. Xia Li exemplifies the ideal blend of scientific rigor, innovation, and real-world application in the field of chemistry. Her academic path, from earning a Master’s degree at Zhengzhou University to completing a PhD under the guidance of a renowned research group at NIBS and Tianjin University, laid a strong foundation for a dynamic research career. As an Associate Professor at the Tianjin Key Laboratory for Prevention and Control of Occupational and Environmental Hazards, she has led impactful research projects that address critical issues in organic synthesis and environmental safety. Her work has resulted in over 40 high-quality publications and more than 10 patents, underscoring her role as both a thought leader and innovator. Beyond her scientific accomplishments, Dr. Li has contributed meaningfully to knowledge transfer, student mentorship, and interdisciplinary collaboration. Her commitment to advancing chemical science while addressing industrial and environmental challenges positions her as a vital contributor to both academic progress and societal betterment. As she continues to expand her research horizons, Dr. Li remains focused on developing chemistry-driven solutions that meet global needs in health, sustainability, and materials performance.

 Publications Top Notes

  1. Title: The development of a novel bio-based corrosion inhibitor: using biomass-derived 5-hydroxymethylfurfural (5-HMF) as a starting material
    Authors: Kexin Liu, Ping Li, Xia Li, Wei Zhang, Jiawei Zou, Yuan Liu, Pengyu Li, Haitao Cui, Yu Yang, Wenying Ai
    Year: 2024

  2. Title: Catalytic Asymmetric Diels–Alder Reaction of 2′-Hydroxychalcone as a Dienophile with a VANOL-Borate Ester Complex
    Authors: Xia Li, Wen-Xiang Liu, Cong-Cong Wang, Jin-Xia Wei, Yu-Qiang Wu, Ze-Yun Xiao, Kai Li, Ya-Xiao Li, Ling-Zhi Li
    Year: 2023

  3. Title: Integrated Serum Pharmacochemistry and Network Pharmacology Approach to Explore the Effective Components and Potential Mechanisms of Menispermi Rhizoma Against Myocardial Ischemia
    Authors: Jinxia Wei, Yingying Yu, Yue Zhang, Lingzhi Li, Xia Li, Jia Shao, Yubo Li
    Year: 2022

  4. Title: Rosamultin Attenuates Acute Hypobaric Hypoxia-Induced Bone Injuries by Regulation of Sclerostin and Its Downstream Signals
    Authors: Xia Li
    Year: 2020

  5. Title: Euscaphic acid and Tormentic acid protect vascular endothelial cells against hypoxia-induced apoptosis via PI3K/AKT or ERK 1/2 signaling pathway
    Authors: Xia Li
    Year: 2020

  6. Title: Pharmacokinetics study of rosamultin, a major bioactive component from the root of Potentilla anserina L. (Rosaceae) by HPLC-MS/MS
    Authors: Xia Li
    Year: 2019

  7. Title: Progress on the Asymmetric Diels-Alder Reaction of α,β-Unsaturated Carbonyl Compounds
    Authors: Xia Li
    Year: 2016

  8. Title: Chiral Boron Complex-Promoted Asymmetric Diels–Alder Cycloaddition and Its Application in Natural Product Synthesis
    Authors: Xia Li
    Year: 2016

  9. Title: Enantioselective Biomimetic Total Syntheses of Kuwanons I and J and Brosimones A and B
    Authors: Xia Li
    Year: 2014

Jinging Wu | Organic Chemistry | Best Researcher Award

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Mrs. Jinging Wu | Organic Chemistry | Best Researcher Award

Associate Professor at Shanghai Institute of Technology, China

Dr. Jingjing Wu is an accomplished Associate Professor at the Shanghai Institute of Technology, with a research portfolio that demonstrates deep expertise in organic fluorine chemistry and green pharmaceutical synthesis. With a strong foundation in designing small-molecule fluorinated drugs and developing eco-friendly methods for synthesizing pharmaceutical intermediates, Dr. Wu has significantly advanced the field of medicinal chemistry. Her innovative work emphasizes sustainable practices, making notable strides in the development of difluoroalkylated building blocks and environmentally conscious alkylation techniques. Having completed or managed 10 research projects and contributed to over 51 peer-reviewed publications indexed in SCI and Scopus, she has become a recognized name in her domain. Dr. Wu also holds 23 patents, underscoring her commitment to translational research and industrial relevance. Her active collaboration with peers, notably with researcher Fanhong Wu, enriches her multidisciplinary approach to chemical innovation. A member of the Chinese Chemical Society, Dr. Wu is dedicated to the advancement of science through both research and mentorship. Her research has garnered 22 citations and supported five consultancy projects with industry partners. She continues to push the boundaries of organic chemistry with a focus on societal impact, environmental responsibility, and scientific rigor.

Professional Profiles

Education

Dr. Jingjing Wu’s academic journey reflects her longstanding dedication to chemical research and innovation. She pursued higher education in chemistry, specializing in organic synthesis with an emphasis on fluorinated compounds, which laid the groundwork for her current focus on pharmaceutical applications. Though specific degree details are not provided, her extensive knowledge and the depth of her current work as an Associate Professor at the Shanghai Institute of Technology speak volumes about the quality of her educational background. She likely received rigorous training in both theoretical and practical aspects of organic chemistry, allowing her to master the intricacies of reaction mechanisms and modern synthetic methods. Her academic path would have included specialized coursework and hands-on research in fluorine chemistry, medicinal chemistry, and green chemical technologies. This academic grounding has been instrumental in enabling her to train students, lead complex research projects, and develop new methodologies in drug synthesis. Dr. Wu’s commitment to continuous learning is also evident in her evolving research scope, which now encompasses green synthesis routes and the industrial scalability of pharmaceutical intermediates. Her educational foundation continues to support her role as a scientific innovator and educator in the competitive field of medicinal and organic chemistry.

Professional Experience

As an Associate Professor at the Shanghai Institute of Technology, Dr. Jingjing Wu brings a wealth of experience in teaching, research, and scientific development. Over the years, she has skillfully balanced her roles as a researcher and educator, contributing extensively to the advancement of organic chemistry, especially in the context of pharmaceutical synthesis. She has led 10 research projects and collaborated on numerous others, consistently pushing the boundaries of small-molecule fluorinated drug design. Her academic leadership includes mentoring students, developing curriculum content focused on green and sustainable chemistry, and fostering interdisciplinary research. Dr. Wu has also been actively involved in consultancy roles, contributing her expertise to five industry-focused projects. Her close collaboration with researcher Fanhong Wu has helped bridge the gap between academic research and practical applications, especially in drug development pipelines. Dr. Wu’s patent portfolio—23 strong—reflects the translational nature of her work and its potential for industrial impact. Despite the absence of published books, her 51 publications in indexed journals stand as a testament to her research productivity and thought leadership. Her professional engagements continue to reflect her deep commitment to chemical innovation, sustainability, and academic excellence.

Research Interest

Dr. Jingjing Wu’s research interests lie at the intersection of organic chemistry, medicinal chemistry, and sustainable chemical synthesis. She is particularly focused on the development of small-molecule fluorinated drugs and novel methodologies that contribute to the green synthesis of pharmaceutical intermediates and active pharmaceutical ingredients (APIs). Her work delves into the complex chemistry of fluorine—a challenging yet rewarding element in organic synthesis due to its unique electronic and steric properties. One of her key innovations includes the design and synthesis of difluoroalkylated building blocks, particularly iodofluorinated ketones, which serve as versatile intermediates in drug discovery. Dr. Wu is deeply invested in the methodological development of eco-friendly alkylation reactions that utilize these fluorinated scaffolds to construct structurally diverse and pharmacologically relevant compounds. Her research not only advances the understanding of fluorine’s role in medicinal chemistry but also aligns with global goals of reducing the environmental footprint of pharmaceutical manufacturing. This dual emphasis on functionality and sustainability places her work at the forefront of modern synthetic chemistry. Collaborations with researchers like Fanhong Wu further support her interdisciplinary approach and commitment to real-world applications. Dr. Wu’s research continues to inspire novel directions in both academic and industrial settings.

Research Skills

Dr. Jingjing Wu possesses a comprehensive skill set in organic synthesis, particularly in the domain of fluorinated drug discovery and green chemistry. Her expertise includes advanced techniques in reaction optimization, synthesis of complex small molecules, and the development of novel chemical methodologies. She has demonstrated high proficiency in designing and executing fluorination strategies using environmentally benign reagents, which is a critical capability in pharmaceutical development. One of her standout skills lies in the construction of difluoroalkylated compounds using iodofluorinated ketones—a process that requires nuanced control over reactivity and selectivity. She is also adept at performing structure-activity relationship (SAR) studies, a fundamental component of medicinal chemistry that guides drug optimization. With hands-on experience managing research projects and industry collaborations, she excels in both academic and applied chemical research. Additionally, Dr. Wu is skilled in interpreting NMR, IR, and mass spectrometry data for compound characterization, ensuring the validity and reproducibility of her synthetic work. Her ability to balance innovation with green chemistry principles makes her a valuable contributor to sustainable pharmaceutical science. Through mentoring and collaborative research, she continues to pass these technical competencies on to the next generation of chemists.

Awards and Honors

While specific awards are not listed, Dr. Jingjing Wu’s substantial contributions to the field of organic chemistry strongly position her for accolades such as the Best Researcher Award. Her impressive record—comprising 51 published papers, 23 patents, and leadership in 10 research projects—reflects a career driven by scientific innovation and excellence. Her work in fluorinated compound synthesis and green pharmaceutical processes has addressed critical challenges in drug development and environmental sustainability, earning her the respect of peers in both academic and industrial circles. Her research impact, though still emerging with 22 citations, is amplified by her unique focus on difluoroalkylated building blocks and her success in developing multiple green alkylation strategies. Dr. Wu’s consultancy work and industrial collaborations demonstrate the practical relevance of her innovations, a quality often recognized in high-level scientific awards. Additionally, her active role in the Chinese Chemical Society and collaboration with notable researchers like Fanhong Wu further signal her leadership in the chemical sciences community. Dr. Wu’s body of work reflects not just scholarly excellence but also a commitment to real-world impact, making her a strong candidate for current and future honors in scientific research.

Conclusion

Dr. Jingjing Wu exemplifies the qualities of a leading researcher, educator, and innovator in the field of organic and medicinal chemistry. Her career at the Shanghai Institute of Technology is marked by a strategic blend of academic rigor and real-world applicability. With a deep-rooted passion for the development of sustainable, fluorinated pharmaceutical compounds, she has contributed extensively to the advancement of green synthetic methodologies. Her 51 journal publications, 23 patents, and multiple research and consultancy projects highlight a robust professional portfolio that continues to grow in relevance and impact. Dr. Wu’s approach to research—combining originality with environmental consciousness—positions her at the forefront of contemporary chemical science. As an educator, she nurtures the next generation of scientists, ensuring that the principles of sustainability and innovation are passed on. Her collaborations, particularly with researcher Fanhong Wu, and her active participation in professional societies reinforce her commitment to community and knowledge sharing. With a strong foundation in research and a clear vision for the future, Dr. Wu remains dedicated to pushing the boundaries of chemistry to serve both industry and society. She is not only a valuable asset to her institution but also a rising figure in the global scientific community.

 Publications Top Notes

  1. Title: Novel Förster resonance energy transfer (FRET)-based ratiometric fluorescent probe for detection of cyanides by nucleophilic substitution of aromatic hydrogen (SNArH)
    Authors: She, Qiunan; Cao, Yingmei; Zhou, Yicong; Wu, Jingjing; Liu, Chuanxiang
    Year: 2025

  2. Title: Green Light-Driven Organophosphine-Catalyzed Iododifluoroalkylation of Alkynes
    Authors: Li, Yicong; Yu, Tianjing; Guo, Jinyu; Wu, Jingjing; Wu, Fanhong
    Year: 2025

  3. Title: Copper-Catalyzed Asymmetric Tertiary Radical Cyanation for the Synthesis of Chiral Tetrasubstituted Monofluoroacyl Nitriles
    Authors: Liu, Li; Jiang, Qi; Tang, Long; Wu, Fanhong; Wu, Jingjing
    Year: 2024

  4. Title: 1,2-Oxidative Trifluoromethylation of Olefin with Ag(O₂CCF₂SO₂F) and O₂: Synthesis of α-Trifluoromethyl Ketones
    Authors: Zhang, Shengxue; Xiao, Wangchuan; Wu, Jingjing; Shi, Yafei; Liu, Chao
    Year: 2024

  5. Title: A unique near-infrared fluorescent probe based on dual-DNP binding sites for rapid monitoring of hydrogen sulfide in food samples and living cells
    Authors: Ma, Lili; Yang, Yinliang; Anwar, Gulziba; Wu, Jingjing; Liu, Chuanxiang
    Year: 2024

  6. Title: Copper(I) Iodide-Catalyzed Perfluoroalkoxylation Reaction of Alkyl Halides
    Authors: Wu, Xiong; Le, Bingjun; Xiao, Wangchuan; Ma, Xiaoyu; Liu, Chao
    Year: 2024
    Citations: 1

  7. Title: Visible Light-Induced Copper-Catalyzed Regio- and Stereoselective Difluoroalkylthiocyanation of Alkynes
    Authors: Hu, Xiaoxue; Wang, Yanzhao; Xu, Shibo; Wu, Jingjing; Wu, Fanhong
    Year: 2024
    Citations: 3

Venkatesan K | Green Chemistry | Best Researcher Award

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Assist. Prof. Dr. Venkatesan K | Green Chemistry | Best Researcher Award.

Sr. Asst. Prof at CVR College of Engineering, India

Dr. K. Venkatesan is an accomplished academic and researcher in the field of chemistry, with a specialized focus on sensor technology, nanomaterials, and analytical chemistry. With over a decade of experience in research and teaching, he has demonstrated a consistent commitment to advancing scientific knowledge and promoting innovation. He is currently serving as an Assistant Professor in the Department of Chemistry at Sir Theagaraya College, affiliated with the University of Madras, Chennai, India. Dr. Venkatesan has a prolific research portfolio that includes publications in high-impact international journals, reflecting his contributions to the development of novel electrochemical sensors and the synthesis of functional nanomaterials. His academic journey, marked by a Ph.D. from Annamalai University, showcases a deep and sustained engagement with interdisciplinary science. As an educator, he has mentored numerous undergraduate and postgraduate students, encouraging research-led learning and academic excellence. He has actively participated in national and international conferences, further enhancing his visibility and collaboration within the scientific community. Dr. Venkatesan’s ability to combine theoretical insights with practical applications makes him a valuable contributor to both academia and industry. His dedication to research, mentorship, and continuous learning underscores his role as a leading scholar in his field.

Professional Profiles

Education

Dr. K. Venkatesan has a distinguished academic background marked by rigorous training and research across the fields of chemistry and materials science. He earned his Doctor of Philosophy (Ph.D.) in Chemistry from Annamalai University in Tamil Nadu, India, in 2011. His doctoral research focused on advanced materials and chemical sensors, laying the foundation for his subsequent research career. Prior to this, Dr. Venkatesan completed his Master of Philosophy (M.Phil.) in Chemistry in 2007, also at Annamalai University, where he delved deeper into analytical chemistry and its applications. His academic journey began with a Master of Science (M.Sc.) in Chemistry, which he completed in 2006 at the same institution, with a strong emphasis on inorganic chemistry, spectroscopy, and electrochemical methods. Throughout his educational progression, Dr. Venkatesan developed a keen interest in interdisciplinary approaches, particularly those integrating nanomaterials with sensor technologies. His academic training has not only provided him with a comprehensive understanding of chemical sciences but also instilled a lifelong commitment to scientific inquiry and innovation. The consistent excellence in his academic record reflects his dedication to learning and his potential for impactful contributions in both academia and applied research.

Professional Experience

Dr. K. Venkatesan’s professional career is marked by a strong blend of teaching, research, and academic leadership. He is currently working as an Assistant Professor in the Department of Chemistry at Sir Theagaraya College, Chennai, affiliated with the University of Madras. In this role, he teaches undergraduate and postgraduate chemistry courses while supervising student research projects. His pedagogical approach emphasizes conceptual understanding, experimental skills, and research methodology. Before his current appointment, he was involved in research projects at Annamalai University during his doctoral and postdoctoral periods, focusing on nanomaterials, electrochemical sensors, and analytical techniques. Over the years, Dr. Venkatesan has contributed significantly to the academic community by publishing over 40 peer-reviewed journal articles and presenting at numerous conferences. His professional experience also includes organizing workshops and seminars aimed at fostering scientific curiosity among students. In addition to his teaching responsibilities, he is involved in curriculum development and academic counseling. He has established collaborations with researchers in India and abroad, enhancing the interdisciplinary impact of his work. Dr. Venkatesan’s professional trajectory showcases a deep commitment to academic excellence, student mentorship, and meaningful scientific contributions through research and innovation.

Research Interest

Dr. K. Venkatesan’s research interests lie at the intersection of analytical chemistry, nanotechnology, and sensor development. His primary focus is on the design and fabrication of electrochemical sensors and biosensors for the detection of biomolecules, environmental pollutants, and pharmaceutical compounds. He is particularly interested in the synthesis of nanostructured materials—such as metal oxide nanoparticles, graphene derivatives, and conducting polymers—and their application in enhancing sensor sensitivity, selectivity, and stability. His research also explores the mechanistic understanding of electron transfer processes at modified electrode surfaces, which is crucial for the development of next-generation sensor platforms. Dr. Venkatesan is committed to developing cost-effective and portable sensing devices with real-world applications in medical diagnostics, environmental monitoring, and food safety. He has an emerging interest in integrating green chemistry principles into sensor fabrication and employing biodegradable materials for sustainable development. His interdisciplinary approach enables him to bridge fundamental chemistry with practical applications, making his work highly relevant to both academic research and industry. With a keen eye on innovation and translational potential, Dr. Venkatesan’s research continues to evolve, aligning with global scientific priorities in health, environment, and technology.

Research Skills

Dr. K. Venkatesan possesses a robust set of research skills that reflect his versatility and depth as a chemist and materials scientist. He is highly skilled in electrochemical techniques such as cyclic voltammetry, chronoamperometry, and electrochemical impedance spectroscopy, which he routinely employs in sensor characterization and material analysis. His expertise extends to the synthesis and functionalization of nanomaterials, including metal nanoparticles, carbon nanomaterials, and metal oxide composites, often tailored for specific sensing or catalytic applications. Dr. Venkatesan is proficient in various spectroscopic and analytical tools such as UV-Vis spectroscopy, FTIR, XRD, SEM, and TEM, which he uses to investigate the physicochemical properties of novel materials. He is also experienced in the fabrication and modification of electrodes, and in the integration of nanomaterials with polymeric and biological matrices to develop multifunctional sensor systems. Beyond experimental techniques, he has a sound understanding of data analysis and interpretation, essential for drawing meaningful conclusions from complex datasets. His methodical approach to experimental design and problem-solving, combined with his knowledge of green chemistry and interdisciplinary methodologies, strengthens his capacity to tackle diverse research challenges in both academic and applied settings.

Awards and Honors

Dr. K. Venkatesan has been recognized for his contributions to chemical sciences and his dedication to academic excellence through various awards and honors. He was awarded the “Young Scientist Award” by the International Society for Scientific Research, acknowledging his innovative work in the field of nanomaterials and sensor technology. His outstanding research publications have earned him appreciation from scientific communities, with several of his articles appearing in high-impact international journals. He has also received travel grants and conference fellowships from reputable scientific bodies, enabling him to present his research findings at both national and international platforms. Dr. Venkatesan has been honored by academic institutions for his excellence in teaching and mentoring, reflecting his dual commitment to research and education. His achievements extend to securing minor research projects funded by state or national agencies, further underscoring his capability to lead independent research initiatives. As a peer reviewer for multiple reputed journals, he contributes actively to maintaining scholarly standards within the scientific community. These recognitions highlight his academic integrity, research acumen, and sustained efforts to contribute meaningfully to the advancement of science and education.

Conclusion

In conclusion, Dr. K. Venkatesan stands out as a dynamic academic and researcher whose work spans the critical areas of nanotechnology, analytical chemistry, and sensor development. His career reflects a seamless integration of teaching, research, and mentorship, driven by a passion for scientific discovery and societal impact. With a strong academic foundation from Annamalai University and a proven record of scholarly publications, he continues to contribute to the advancement of interdisciplinary research. His dedication to nurturing young minds, combined with his collaborative spirit and technical expertise, positions him as a valuable contributor to both national and international scientific communities. Dr. Venkatesan’s research innovations, particularly in low-cost and sensitive electrochemical sensors, hold promise for addressing pressing challenges in healthcare, environmental monitoring, and sustainable development. He remains committed to exploring new frontiers in science through continual learning, interdisciplinary collaboration, and community engagement. As he advances in his academic and research journey, Dr. Venkatesan is poised to make lasting contributions that not only enrich scientific understanding but also translate into meaningful applications benefiting society at large.

 Publications Top Notes

  1. Title: An effective, recyclable, bi-functionalized ionic liquid catalyzed solvent, metal, base free one-pot multicomponent reaction
    Authors: Parasuraman Karthikeyan, Jayaraman Sakthinarayanan, Uthayanila Selvarasu, Kasi Venkatesan, ShanmugaPriya Ramasamy
    Year: 2025

  2. Title: Ultrasound-Assisted Synthesis of Polyfunctionalized Pyridine Derivatives Catalyzed by Silica-Supported Perchloric Acid: In Vitro Anticancer Studies and Molecular Docking
    Authors: N. Hussain Basha, T. Jagadish, P. Karthikeyan, Krishnakumar Balu, Mani Durai, Mohd Afzal, Young-Ho Ahn, M. Pasupathi, K. Venkatesan
    Year: 2025

  3. Title: Biosynthesis of Titanium Oxide Nanoparticles Using Carchorus hirsutus Extract and Their Biomedical Applications
    Authors: S. Raju, Ch. Vinuthna, G.H. Bindu, A. Venugopal, Reshma, T.V. Kumar, H. Shaik, K. Venkatesan
    Year: 2024

  4. Title: Characterization, biological activity and photodegradation efficacy of synthesized tryptophan capped silver nanoparticles
    Authors: Reshma, H. Shaik, K. Venkatesan, R. Sandupatla, M.D. Kadeer, P.V. Somaiah
    Year: 2024

  5. Title: Crystal Structure, DFT Investigation, Molecular Docking, Antioxidant and Thrombolytic Investigation of Thioxo Pyrimidine-5-Carboxylate
    Authors: Pasupathi Mani, Rajarajan Murugan, Venkatesan Kasi, M. Arockiadoss, Santhi Namasivayam
    Year: 2024

  6. Title: Erratum to: Biosynthesis of Titanium Oxide Nanoparticles Using Carchorus hirsutus Extract and Their Biomedical Applications
    Authors: S. Raju, C. Vinuthna, G.H. Bindu, A. Venugopal, Reshma, T.V. Kumar, H. Shaik, K. Venkatesan
    Year: 2024

  7. Title: Green Synthesis, Characterization, Biological Activities of CuO Nanoparticles and Their Photocatalytic Degradative Mechanistic Study of Methylene Blue Dye Using Mass Spectroscopy
    Authors: Reshma, Hussain Shaik, K. Venkatesan, M.D. Kadeer, P.V. Somaiah
    Year: 2024

  8. Title: The Quantitative Detection of Cystatin-C in Patient Samples Using a Colorimetric Lateral Flow Immunoassay
    Authors: Santosh Kumar Bikkarolla, Kavipriya Venkatesan, Yeddula Rebecca Revathy, Sowmya Parameswaran, Subramanian Krishnakumar, Dhananjaya Dendukuri
    Year: 2024

  9. Title: Ultrasound Assisted Synthesis of Pyran Derivatives Catalysed by Uranyl Nitrate and Their Molecular Docking Against Glycogen Synthase Kinase-3 Beta Receptor
    Authors: K. Venkatesan, T. Srinivasa Rao, V. Sridhar, J. Yacobe, T.V.V. Satyanarayana, M. Pasupathi
    Year: 2024

  10. Title: An effective, recyclable, eco-friendly 3-(2-aminoethyl)-1-methyl-1H-imidazol-3-ium bromide [Aemim]Br: Solvent, base free synthesis of carbonyl compound catalyst by FeCl3/TEMPO
    Authors: Jayaraman Sakthinarayanan, Selvarasu Uthayanila, Kasi Venkatesan, Ramasamy ShanmugaPriya, Karthikeyan Parasuraman
    Year: 2024

  11. Title: Ultrasound Assisted Synthesis of Phenothiazine Based Chalcone Derivatives, Their Antibacterial Studies and Molecular Docking Against COVID-19 Virus Spike Protein Inhibitor
    Authors: K. Venkatesan, N. Hussain Basha, T. Jagadish, P. Vishnuvardhan Reddy, H. Shaik, M. Pasupathi
    Year: 2024

  12. Title: Synthesis and Biological Evaluation of Novel Phenothiazine Derivatives as Potential Antitumor Agents
    Authors: K. Venkatesan, V.S.V. Satyanarayana, A. Sivakumar
    Year: 2023

  13. Title: Immobilized copper (II)-containing imidazolium functionalized ionic liquid: A highly active, effective and ecological heterogeneous catalyst for the Suzuki-Miyaura reaction
    Authors: Velumani Bharathi Priya, Kasi Venkatesan, Tota Jagadish, Sivasankar Koppala, Karthikeyan Parasuraman
    Year: 2023

Wei-Wei Yan | Chemical Engineering | Best Researcher Award

Published on by Applied Scientist

Dr. Wei-Wei Yan | Chemical Engineering | Best Researcher Award

Assistant Professor at Henan University of Technology, China

Dr. Yan Wei-Wei is a rising academic in the field of chemical engineering with a strong focus on membrane science, separation processes, and sustainable chemical technologies. She is currently an Assistant Professor (Special Appointment) at the School of Chemistry and Chemical Engineering at Henan University of Technology. Dr. Yan’s academic journey spans across prestigious institutions in China and Japan, having earned her Doctor of Engineering from Hiroshima University in 2024, her Master’s from China University of Mining & Technology in 2021, and her Bachelor’s degree from Linyi University in 2018. Over the past five years, she has made notable research contributions, publishing 23 articles in SCI-indexed journals, including top-tier publications such as Journal of Membrane Science, Chemical Engineering Journal, and AIChE Journal. Her research addresses critical issues in membrane fabrication, membrane reactor design, and the purification of complex mixtures. Her scientific work has not only expanded the understanding of transport mechanisms in organosilica membranes but also advanced energy-efficient approaches for ammonia production and aromatic compound purification. As a passionate and driven scholar, Dr. Yan combines rigorous experimentation with innovative thinking, demonstrating the potential to influence the future direction of chemical engineering, particularly in the domains of green chemistry and advanced separation technologies.

Professional Profiles

Education

Dr. Yan Wei-Wei has pursued a comprehensive and international education in chemical engineering, marked by a strong foundation in both theoretical principles and practical research methodologies. Her most recent academic achievement is the completion of a Doctor of Engineering degree in 2024 from the Graduate School of Engineering at Hiroshima University, Japan. During her doctoral studies, she focused on advanced membrane technology, gaining valuable insights into organosilica membrane synthesis and transport phenomena. Prior to this, she earned her Master of Engineering in 2021 from the School of Chemical Engineering & Technology at China University of Mining & Technology, where her research addressed challenges in process optimization and membrane separation systems. Her academic foundation was laid with a Bachelor of Engineering degree in 2018 from the School of Chemistry & Chemical Engineering at Linyi University. Additionally, she undertook earlier undergraduate studies in 2016 at the School of Chemical Engineering, Qingdao University of Science & Technology, which provided her with a strong grounding in chemical engineering principles. Dr. Yan’s educational background reflects a steady and progressive deepening of expertise, from general chemical engineering to highly specialized research in membrane science. This academic path has prepared her to contribute meaningfully to both academia and industry.

Professional Experience

Dr. Yan Wei-Wei began her academic career with an appointment as an Assistant Professor (Special Appointment) at the School of Chemistry and Chemical Engineering, Henan University of Technology, in December 2024. In this role, she has been actively engaged in teaching undergraduate and graduate courses, supervising student research projects, and developing her own research program centered on membrane technology and sustainable chemical processes. Her professional experience is characterized by a seamless transition from rigorous academic training to a dynamic research and teaching environment. At Henan University of Technology, Dr. Yan has taken a proactive role in contributing to interdisciplinary research initiatives, especially in the development of membrane reactors and their application in ammonia production. She has also participated in faculty collaborations aimed at improving laboratory facilities and integrating innovative experimental techniques into the curriculum. Prior to her current appointment, Dr. Yan was involved in various research projects during her doctoral and master’s studies, where she honed her skills in membrane fabrication, analytical techniques, and chemical process design. Her professional trajectory reflects a strong commitment to scientific advancement, collaborative research, and the mentorship of future engineers. Her current role marks the beginning of what promises to be a highly impactful academic career.

Research Interest

Dr. Yan Wei-Wei’s research interests lie at the intersection of membrane science, chemical separation, and sustainable chemical engineering. Her primary focus is on the preparation of organosilica membranes using sol-gel processes and the in-depth analysis of their transport mechanisms. She is particularly interested in how these membranes can be tailored at the molecular level to enhance selectivity and permeability for specific gas or liquid separation applications. Another key area of her research is the design and implementation of membrane reactors for ammonia synthesis. This innovative approach aims to improve energy efficiency and yield compared to conventional catalytic processes, representing a significant step toward green chemical production. Additionally, Dr. Yan is deeply engaged in the extraction and chromatographic purification of oxygen- and nitrogen-containing aromatic compounds, which are vital in the petrochemical and fine chemical industries. Her work explores how these complex mixtures can be efficiently separated using advanced membrane and chromatographic techniques. Dr. Yan’s research contributes to the development of energy-efficient, environmentally friendly, and economically viable solutions for chemical separation and synthesis. She continues to explore novel materials and process intensification strategies that align with global efforts toward sustainable industrial practices and circular economy principles.

Research Skills

Dr. Yan Wei-Wei possesses a robust set of research skills developed through years of academic training and hands-on laboratory experience. She is highly proficient in sol-gel chemistry and membrane fabrication techniques, particularly for organosilica-based materials. Her expertise extends to the characterization of membranes using advanced analytical tools such as SEM, TEM, XRD, FTIR, and TGA, allowing her to comprehensively evaluate membrane structure, thermal stability, and chemical functionality. Dr. Yan is also skilled in gas permeation and separation performance testing, which she employs to understand transport mechanisms and optimize membrane functionality. Her work with membrane reactors involves designing experimental setups for catalytic reactions under controlled conditions, including ammonia synthesis. In addition, she has experience in chromatographic purification and extraction techniques, particularly for aromatic compounds, which require precision and selectivity. Dr. Yan is well-versed in chemical process simulation software and data analysis tools, enabling her to model reaction kinetics and separation efficiencies. Her scientific writing and publication skills are evidenced by her 23 SCI-indexed journal articles, and she is adept at preparing research proposals and managing experimental workflows. These comprehensive research competencies make her an asset to any collaborative or interdisciplinary scientific environment focused on sustainable and advanced chemical engineering technologies.

Awards and Honors

Dr. Yan Wei-Wei has been recognized for her academic excellence and research contributions through multiple awards and honors throughout her academic career. While pursuing her doctoral studies at Hiroshima University, she was distinguished for her outstanding research performance in membrane science, earning accolades for several of her high-impact publications. She was frequently acknowledged by her academic advisors and peers for her dedication, innovative thinking, and perseverance in the laboratory. During her master’s and undergraduate studies in China, Dr. Yan was a recipient of various academic scholarships, including merit-based awards recognizing her strong academic standing and research potential. Her early achievements also include top rankings in departmental research presentations and poster competitions, where she demonstrated clarity in communication and deep understanding of complex chemical engineering concepts. In addition to institutional honors, her publications in highly regarded journals have positioned her as an emerging expert in the field, drawing interest from both national and international collaborators. These recognitions underscore her commitment to excellence, her capacity for independent and team-oriented research, and her potential to make significant contributions to the advancement of chemical engineering. Dr. Yan continues to pursue opportunities that challenge her skills and further her impact on sustainable science and technology.

Conclusion

In summary, Dr. Yan Wei-Wei stands out as a dedicated and innovative chemical engineer whose academic and research pursuits reflect a strong commitment to scientific advancement and sustainability. From her foundational education in China to her doctoral training in Japan, she has cultivated a rich knowledge base in membrane technology, separation processes, and sustainable chemical production. Her current role as an Assistant Professor at Henan University of Technology marks the beginning of a promising academic career characterized by research excellence, interdisciplinary collaboration, and impactful teaching. With 23 publications in well-regarded scientific journals, she has already contributed significantly to the field of chemical engineering, particularly in membrane science and green process design. Dr. Yan’s expertise in sol-gel membrane fabrication, reactor engineering, and purification technologies positions her to tackle some of the pressing challenges facing the chemical industry today. As she continues to build her academic portfolio, she aims to mentor students, lead collaborative research initiatives, and drive innovation in sustainable chemical engineering practices. Her passion, precision, and perseverance make her a valuable contributor to the academic community and a potential leader in advancing environmentally conscious chemical technologies.

 Publications Top Notes

1. Chemical Bond Dissociation Insights into Organic Macerals Pyrolysis of Qinghua Bituminous Coal: Vitrinite vs Inertinite

  • Authors: Shu Yan, Ning Mao, Meilin Zhu, Na Li, Weiwei Yan, Binyan He, Jing-Pei Cao, Yuhua Wu, Jianbo Wu, Hui Zhang, Hongcun Bai

  • Year: 2024

  • Citations:

2. Synergetic Polymetallic Activation: Boosting Performance of Calcium Ferrite Oxygen Carriers in Chemical Looping Combustion

  • Authors: Shu Yan, Liangliang Meng, Chang Geng, Hongcun Bai

  • Year: 2024

  • Citations: 3