CCST2025 conference recorded presentations

CCST2025 recorded presentations with links:

Opening:

Professor Chunfei Wu – E-i-C of CCST

Mr Colin Smith – Managing Editor of CCST

Plenary 1: Prof. Chunshan Song, Chinese University of Hong Kong

High-capacity Selective Solid ‘Molecular Basket’ Sorbents for CO2 Capture and for SO2 Separation

Plenary 2: Prof. Shujuan Wang, Tsinghua University

Solvent Development for CO2 Chemical Absorption Capture

Plenary 4: Prof. Zhi Wang, Tianjin University

Development of High-Performance Mixed-Matrix Composite Membranes for CO2 Separation

Plenary 5: Prof Ki Bong Lee, Korea University

Upcycling of Waste Plastic into Porous Carbon and Its Application to Carbon Dioxide Capture

Plenary 6: Prof. Alexander Forse, University of Cambridge

Advancing electrochemically driven carbon dioxide capture with supercapacitors

Plenary 7: Prof. James Ritter, University of South Carolina

Carbon Dioxide Capture by PSA at the DOE National Carbon Capture Center

KA4 Prof. Ziqian Xue, Sun Yat-sen University

Metal-Organic Frameworks-Based Electrocatalysts with Structural Heterogeneity for Green Hydrogen Energy

KA5 Dr. Tae-Hyun Bae, KAIST, South Korea

Engineered Porous Polymers for Advanced CO2 Separation

KB1 Prof. Zhongbo Zhou, Southwest University

AnMBR-algal synergy: Carbon capture and resource recovery from wastewater

KB2 Guo Jiayi, Science, Technology and Research (A*STAR) Singapore

Brush Polymer Functionalized Biomass Textile and Its Potential Capacity for Direct Air Capture of CO2

KB3 Prof. Euntae Yang, Gyeongsang National University

Development of 2D Nanomaterial-Based Mixed Matrix Membranes for Carbon Capture

KB4 Prof. Wu Bing, University of Iceland

Hybrid direct air capture with pressure-retarded osmosis for energy-neutral decarbonation: effect on osmosis membrane performance

KB5 Prof. Kumar Varoon Agrawal, (EPFL - Swiss Federal Technology Institute of Lausanne, Switzerland)

Mechanistic Insight Based Controlled Pore Formation And Scale-up Of Porous Atom-Thin Graphene Membrane

KA6 Prof. Yangyang Guo, Institute of Process Engineering, Chinese Academy of Science

VPSA application of carbon capture from Blast Furnace Gas

KA7 Dr. Hyungwoong Ahn, University of Edinburgh

Industrial decarbonisation through PSA-SPUR technology: the innovative adsorption process for CO2 capture

KA10 Michael Short, University of Surrey

Computational modelling and optimisation of dual function materials for direct air capture to fuel

KA11 Prof. Nannan Sun, Shanghai Advanced Research Institute

Integrated CO2 capture and conversion: From fundamental to demonstration

KB6 Dr Xiangkun Cao, MIT

Direct air capture: From centralization to distributed systems

KB11 Prof. Salman Masoudi Soltani, Brunel University of London

Carbon Dioxide Removal from the Sea: An Investigation at Scale

KC2 Prof. Shijian Lu, China University of Mining and Technology

Research progress on low-energy consumption of flue gas CO2 capture and utilization technology

KC3 Prof. James McGregor, University of Sheffield

CO2 capture and utilisation via chemical catalysis to longer chained hydrocarbons

KC4 Prof. Minshu Du, Northwestern Polytechnical University

Design of CO2 electroreduction catalysts based on the reactive thermodynamics and kinetics

KC5 Dr Inês Graça, School of Engineering, University of Aberdeen

Innovative pathways for CO2 conversion into fuels and chemicals: Enabling CO2 transfer hydrogenation over zeolite catalysts

OA4 Zhang Man, Shanghai Jiao Tong University

Synergistic effects of Na contents for direct air capture and in situ methanation using Ru-Na dual function materials

OA5 Yaozu Wang, Tsinghua University

Enhancing NaNO3-modified MgO with Carbonates for Intermediate-temperature CO2 Capture from Flue Gas

OA7 Xicheng Wang, Shandong University

Low-temperature rapid synthesis of high-purity Li4SiO4 adsorbent for cyclic CO2 capture

OA10 Chuhan Fu, University of Science and Technology of China

One-step preparation of Ce-TEPA-GME zeolite molecular sieve for CO2/N2 separation

OA14 Bocheng Yu, Tsinghua University

The influence mechanism study of SO2 pollutions in flue gas for ICCU-DRM with Ni-Ca dual functional materials

OA15 Wei Wei, Huazhong University of Science and Technology

Efficient sorbent/catalyst composites for CO2-mediated oxidative dehydrogenation of ethane via isothermal integrated CO2 capture and utilization

OA16 Xiaotong Zhao, Queen's University Belfast

ICCU in molten salts

OB5 Xi Tang

School of Energy and Power Engineering, Huazhong University of Science and Technology; College of Chemistry and Chemical Engineering, Taiyuan University of Technology

Evaluation of CO2 capture performance of mixed amines of tertiary amines and chain diamines

OB7 Xiaojun Wang, Zhejiang University

Volatile and Aerosol-based Emissions of Phase-change and Water-lean Solvents for Postcombustion CO2 Capture

OB8 Zhipeng Chen, Zhejiang University

Low-energy-consumption CO2 capture via coupling process of direct organic fluid stripping with biphasic solvents

OB12 Zixin Zhang, Shanghai Jiao Tong University

Impact of Dynamic Meteorological Conditions on the Performance of Adsorption-Based Direct Air Capture System

OB13 Yongqiang Wang, University of Cambridge

Toward Sustainable and Efficient Direct Air Capture: Advances in Sorbent Regeneration and CO2 Conversion

OC1 Sheng Chen, Zhejiang University

Study on modelling the synergistic H2O-CO2 sorption behavior for quaternary ammonium-based moisture swing direct air capture

OC3 Sijan Devkota, Monash University, Australia

Sorption Enhanced Dimethyl Ether Synthesis: A Novel Approach for Carbon Dioxide Utilization

OC8 Tianheng Qin, University of Aberdeen

Unveiling Structural Evolution and Catalytic Insights of Ni-CaO-Ca₂SiO₄ Catalyst in Plastic Pyrolysis-catalytic Gasification