A5084039815- Membrane Separation and Gas Transport
- Carbon Dioxide Capture Technologies
- Chemical Looping and Thermochemical Processes
- Zeolite Catalysis and Synthesis
- Advancements in Battery Materials
- Phase Equilibria and Thermodynamics
- Ionic liquids properties and applications
- Supercapacitor Materials and Fabrication
Xinjiang Normal University
2023-2024
Chiba University
2018-2020
Shanghai Jiao Tong University
2012
The electrochemical performance of six imidazolium cation-based ionic liquids (ILs) containing 0.3 mol L -1 Mg(CF 3 SO ) 2 as the electrolytes for magnesium deposition-dissolution was examined by cyclic voltammogramms and constant current discharge-charge techniques. Scanning electron microscopy energy dispersive X-ray spectroscopy measurements were conducted to characterize morphologies components deposits. cathodic satiability cations can be improved increasing length alkyls at 1-position...
Potassium carbonate (K2CO3) is recognized as a potential candidate for CO2 capture by flue gas under moist conditions because of its high sorption capacity and low cost. However, undesirable effects characteristics that are associated with the desorption process, such slow reaction rate regeneration temperature, lead to energy costs thus hinder application. To improve properties K2CO3 conditions, we investigated in this study temperature K2CO3–carbon composite (KC-CC), which was prepared...
Abstract In this study, Li‐containing porous carbon materials were prepared from terephthalic acid and lithium hydroxide, then loaded with different contents of copper oxide. After these fully characterized X‐ray diffraction, scanning electron microscope, Raman spectrum, nitrogen adsorption desorption, CO 2 ‐TPD, their capture performance was measured. Results showed that the capacity CuO(0.75)/LiC at 0 °C under 1 bar as high 142.8 mg‐CO g −1 . However, excess CuO significantly reduced...
In this study, adsorbents containing Li were synthesized, which have excellent carbon dioxide adsorption capacity, selectivity and reproducibility, great application prospects in the field of CO 2 adsorption.
A Na2CO3–carbon nanocomposite (NaC-NC) was prepared from terephthalic acid and NaOH, its CO2 capture under moist conditions examined by thermogravimetric analysis X-ray diffraction. repeated twice. The first reaction of bulk Na2CO3 faster than second, while the second NaC-NC first. This may be because nanostructural properties NaC-NC. regeneration NaHCO3 to proceeded at a lower temperature with NaHCO3. Thus, compared Na2CO3, we found that could efficiently CO2, increasing rate decreasing temperature.
Abstract In this study, LiNaCO 3 ‐ and (Li‐Na‐K) 2 CO ‐based porous carbon composites were synthesized from terephthalic acid, lithium hydroxide, sodium potassium hydroxide at different calcination temperatures. These composite materials characterized with X‐Ray diffraction, scanning electron microscopy, nitrogen adsorption desorption. According to their capture performance measured, LiNaC‐700 °C had the largest capacity of 66 mg g −1 , while other doped three metal ions was only up 8.57 ....
Abstract Porous carbon is considered a promising adsorbent for capture and sequestration, pore structure surface activity must be optimized in order to achieve high capacity recycling performance. In this study, terephthalic acid sodium hydroxide were used as raw materials prepare carbonate based porous metal oxide composites at TPA:NaOH:X(X = MgO, CaO, MgO/CaO, Mg(NO 3 )2,C, Al 2 O ) 1:1:2 600 °C. The analysis results show that the material MgO/Na CO has best adsorption capacity, 10.56cm /g...