Menglong Sheng | Membranes | Best Researcher Award

Menglong Sheng is an Assistant Researcher at the School of Chemical Engineering, Tianjin University. 🎓 He earned his Ph.D. and Master’s in Chemical Engineering from Tianjin University and a Bachelor’s from China University of Petroleum (East China). His research focuses on advanced membrane materials for gas separation, particularly CO₂ capture and methane purification. 🔬 Menglong has contributed to major national research projects, authored influential papers, and holds multiple patents in membrane technology. 🏅 As a postdoctoral researcher, he continues to explore innovative approaches in polymer-based separation membranes, pushing the boundaries of sustainable chemical engineering. 🌱

Publication Profile

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Education & Experience 

• Ph.D. in Chemical Engineering (2015-2022)  – Tianjin University
• Master’s in Chemical Engineering (2015-2022)  – Tianjin University
• Bachelor’s in Chemical Engineering & Technology (2011-2015)  – China University of Petroleum (East China)
• Postdoctoral Researcher (2022-Present)  – Tianjin University
• Assistant Researcher (2022-Present)  – School of Chemical Engineering, Tianjin University

Suitability Summary

Dr. Menglong Sheng, Assistant Researcher at the School of Chemical Engineering, Tianjin University, is a distinguished scientist whose contributions to membrane technology and gas separation processes have earned him a well-deserved nomination for the Best Researcher Award. His expertise in developing advanced membranes for CO₂ capture and methane purification has led to significant advancements in sustainable energy solutions and environmental protection.

Professional Development 

Menglong Sheng has played a crucial role in cutting-edge research on gas separation membranes, particularly in CO₂ capture and methane purification. 🌍 His work has been supported by prestigious funding programs, including the National Key R&D Program and the National Natural Science Foundation. 🏗️ He specializes in developing high-performance polymer membranes for large-scale industrial applications. 🛠️ His expertise extends to polymer modification, nanomaterial integration, and scalable membrane fabrication. 🔬 With a strong background in chemical engineering and material science, Menglong continues to contribute to sustainable and energy-efficient separation technologies that support global carbon reduction efforts. 🌱

Research Focus 

Menglong Sheng’s research centers on gas separation membranes with a strong emphasis on carbon capture and methane purification. 🌍 His work explores polymer-based membranes, mixed-matrix membranes, and surface modification techniques to enhance separation efficiency and scalability. 🏗️ He investigates CO₂/N₂ selectivity, nitrogen-selective membranes for methane purification, and advanced nanomaterial integration in membrane structures. 🧪 His research contributes to energy-efficient carbon capture solutions, aligning with global efforts to reduce greenhouse gas emissions. 🌱 Through interdisciplinary collaboration, he aims to optimize separation performance, improve membrane durability, and drive the commercial viability of gas separation technologies. 🚀

Publication Top Notes

• “Engineering the ultrathin polyamide nanofilm featuring high free volume via interfacial polymerization for efficient CO₂ capture” (2025)

• “A High-Performance N₂-Selective MXene Membrane with Double Selectivity Mechanism for N₂/CH₄ Separation” (2024)

• “Analysis of the effect of amino density and water on amino-containing fixed carrier membranes via computational chemistry” (2024)

• “Large-scale preparation of composite membranes for CO₂ separation via interfacial polymerization: Monomer selection and processing parameter optimization” (2024)

• “Manipulating the monomers supply of interfacial polymerization towards the ultrathin polyamide composite membrane for CO₂ capture” (2024)

• “Polymer-modified nanofillers for enhancing CO₂ separation performance of MMMs: A comparative study on the role of bridging ligands” (2024)

• “Pore-optimized MOF-808 made through a facile method using for fabrication of high-performance mixed matrix composite CO₂ capture membranes” (2024)