Prof. Yanqing Qu | Molecular Frameworks | Best Researcher Award

Associate Professor at Qiqihar University, China.

Prof. Yanqing Qu 🎓 is an accomplished researcher and academic currently serving as a Professor at the School of Materials Science and Engineering, Qiqihar University 🇨🇳. Known for his dedication and innovation, he has made significant strides in the field of covalent organic frameworks (COFs), particularly focusing on advanced membrane materials for environmental and energy applications 🌱⚡. Despite having over 4 years in a professorial role, his impact has been profound, contributing to high-level publications and collaborations. Prof. Qu leads key projects on 2D and 3D COF membranes for applications ranging from dye separation to CO₂ capture 🌐🧪. His scientific rigor and collaborative ethos make him a respected figure among peers. Always striving to solve complex challenges through material innovation, he inspires young researchers and continues to expand the boundaries of applied materials science.

Professional Profiles

ORCID

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Education📚

Prof. Qu’s academic journey began with a strong foundation in polymer science and materials engineering . He pursued graduate-level education in advanced macromolecular chemistry, particularly emphasizing polymerization mechanisms and material design. During his early academic years, he gained research exposure internationally, contributing to studies on phenylacetylene polymerization and chiral materials. He received training under prominent mentors such as Prof. Aoki and Prof. Teraguchi, honing his expertise in helical polymers and functional material synthesis 🔬. His education culminated in significant publications in Chemical Letters and Polymer, reflecting both academic excellence and research capability. This diverse training in both experimental and theoretical domains has enabled him to bridge fundamental polymer chemistry with real-world applications.

Professional Experience

Prof. Qu brings a rich mix of academic and applied research experience. At Qiqihar University 🏫, he serves as a professor in the College of Materials Science and Engineering, leading advanced materials research and mentoring future scientists. He specializes in interface polymerization techniques and has developed various self-supporting polymer membranes for selective separation processes. Over the years, he has collaborated on international projects, notably working with Japanese and Chinese institutions. His hands-on experience in interfacial polymerization, microinjection, and nanostructure assembly has helped fabricate high-performance COF membranes with widespread applications including oil-water separation and gas filtration. With several impactful projects funded and published, Prof. Qu plays a pivotal role in bridging research with societal needs.

Research Focus 🔍

Prof. Qu’s research interests lie at the intersection of advanced materials chemistry and environmental engineering ⚙️. He primarily focuses on interface polymerization to create self-supporting two-dimensional covalent organic framework (COF) membranes for small molecule separation 🧪🔬. His recent work has expanded to three-dimensional COFs, targeting broader applications such as lithium-sulfur batteries, antibacterial systems, and carbon capture ♻️🔋. His approach includes using microheating, substrate alignment, and salt introduction to manipulate polymer growth in controlled environments, leading to highly permeable and selective membrane materials. He also investigates photocatalytic composites like MXene/3D-S-COF to enhance oil-water separation under visible light. Prof. Qu’s research embodies innovation with practical sustainability, pushing the boundaries of nanostructured membranes and their performance in real-world challenges.

Awards and Honors🏆

Prof. Yanqing Qu has garnered multiple accolades for his impactful contributions in polymer membrane development 🔬. His research outputs have been consistently recognized in journals of high repute such as ACS Materials Letters, Scientific Reports, and Separation and Purification Technology 📈📚. Though relatively early in his professorial journey, his groundbreaking achievements in 2D and 3D covalent organic frameworks have earned him local and regional recognition in the field of sustainable materials innovation . He has been invited to review scholarly articles and serve as a session chair in national conferences, reflecting his growing influence in the scientific community. The precision and originality of his membrane synthesis strategies place him on a trajectory for further prestigious honors, fellowships, and international research awards in the years to come.

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