Mr. Shuqing Li | Shanghai Advanced Research Institute, Chinese Academy of Science | China
Professional Profile
Scopus
🎓Academic and Professional Background
Shuqing Li is a Research Assistant at the Shanghai Advanced Research Institute, Chinese Academy of Science. His research addresses the technical bottleneck of carbon deposition in Ni-based catalysts for dry reforming of methane (DRM). By enhancing the coupling between carbon deposition resistance and heat transfer performance, Shuqing utilizes advanced characterization techniques to study the structural evolution of catalysts. This research aims to optimize the synergistic effects between improved heat transfer and catalytic activity to advance catalyst efficiency.
🔬Key Research and Contributions
Shuqing Li’s research is centered on C1 catalysis, with a primary focus on improving carbon resistance and heat transfer efficiency in catalysts used for CH₄-CO₂ dry reforming (DRM). His notable contributions include the development of a Ni/AlN@Al₂O₃ catalyst, which uses AlN as a carrier to significantly enhance both carbon resistance and heat transfer efficiency in DRM applications. This work integrates the enhancement of heat transfer with catalytic activity, and has secured funding from the National Natural Science Foundation. Additionally, Shuqing developed a Ni-S₂ catalyst, creating a nano-wire SiO₂ catalyst through solution recrystallization, which shows superior performance at high space velocities. His research deeply investigates the structure-activity relationship of these catalysts, with a particular focus on Ni’s dual effect on the activation of C-H and C-O bonds. This work provides valuable insights into the molecular-level mechanisms of catalysts and paves the way for more efficient catalyst design in energy conversion processes.
💼Research Funding and Collaborations
Shuqing Li’s work is supported by a number of prestigious research programs, including the National Key R&D Program of China (2022YFA1504700 & 2023YFB4005200), and the National Natural Science Foundation of China (22378414 & 21908236). His research is also backed by the Youth Innovation Promotion Association CAS (2022287). Shuqing collaborates with leading research institutions and companies such as the BL11B Beamline of Shanghai Synchrotron Radiation Facility (SSRF), Jupeng Bio (HK) Inc., Gaolu Air Products and Chemicals (Shanghai), and Shanghai Functional Platform for Innovation Low Carbon Technology. These collaborations allow for access to cutting-edge facilities and provide an interdisciplinary approach to advancing carbon catalysis and heat transfer technology.
🤝Professional Memberships
Shuqing Li is closely connected with prominent researchers in the field of catalysis and material science. His professional network includes leading scientists such as Xinhe Bao, Can Li, Buxing Han, Ding Ma, Tao Zhang, Anhui Lu, De Chen, Sibudjing Kawi, Yuhan Sun, and Mark T. Swihart. These collaborations foster knowledge exchange and are instrumental in furthering research on carbon catalysis, heat transfer technologies, and energy conversion processes.
🔍Areas of Research and Innovations
Shuqing Li’s work in C1 catalysis has led to significant innovations, particularly in improving Ni-based catalysts for dry reforming of methane. His research aims to enhance carbon resistance and heat transfer efficiency, which are key challenges in DRM processes. One of his major innovations is the integration of heat transfer enhancement with catalytic activity, a strategy that has been recognized by the National Natural Science Foundation. Additionally, Shuqing’s work on Ni-S₂ catalysts includes the creation of nano-wire SiO₂ catalysts, which exhibit superior performance at high space velocities, further improving the efficiency of C1 catalysis. His ongoing research also delves into the structure-activity relationship, particularly how Ni affects the activation of C-H and C-O bonds, advancing the understanding of catalyst behavior at the molecular level.
Publications Top Noted📝
Local coordination environment triggers key Ni-O-Si copolymerization on silicalite-2 for dry reforming of methane
Authors: Zhang, Y., Li, S., Fu, Y., Zhang, J., Sun, Y.
Journal: Applied Catalysis B: Environmental
Year: 2024
The investigation of oxygen species in silicalite-1 supported MnOx-Na2WO4 catalyst towards efficient oxidative coupling of methane
Authors: Wang, Y., Kong, W., Fu, Y., Zhang, J., Sun, Y.
Journal: Journal of Environmental Chemical Engineering
Year: 2024
Defects influence photocatalytic NOCM product selectivity by controlling photogenerative carriers
Authors: Zhang, N., Fu, Y., Kong, W., Zhu, H., Zhang, J.
Journal: Journal of Environmental Chemical Engineering
Year: 2023
Tuning strong metal-support interactions to boost activity and stability of aluminium nitride supported nickel catalysts for dry reforming of methane
Authors: Li, S., Fu, Y., Kong, W., Zhang, J., Sun, Y.
Journal: Fuel
Year: 2023
Boron-promoted Ni/MgO catalysts for enhanced activity and coke suppression during dry reforming of methane
Authors: Fu, Y., Kong, W., Pan, B., Zhu, H., Zhang, J.
Journal: Journal of the Energy Institute
Year: 2022