Simple and Efficient Regeneration of MOF-5 and HKUST-1 …
Hkust 1 synthesis essay - Marmoraria DA SERRA
Israr, F., Kim, D., Kim, Y., Oh, S., Choon Ng, K., & Chun, W. (2015). "Synthesis of Porous Cu-BTC with Ultrasonic Treatment: Effects of Ultrasonic Power and Solvent Condition". Jeju, Korea: Department of Nuclear and Energy Engineering. Jeju National University.
Meta ethics essay Logan Hkust essay 1 synthesis
Chowdhury, P., Bikkina, C., Meister, D., Dreisbach, F., & Gumma, S. (2009). "Comparison of Adsorption Isotherms on Cu-BTC Metal Organic Frameworks Synthesized from Different Routes". Microporous and Mesoporous Materials, 117, 406-413.
Synthesis and characterization of titanium silicate-1 supported ..
In this research,a preliminary study to optimize electrochemical synthesis of thecatalytic material based on MOFs, namely HKUST-1[Cu3(BTC)2], has been conducted.
Synthesis and characterization of titanium silicate-1 ..
Wang, F., Guo, H., Chai, Y., Li, Y., & Liu, C. (2013). "The Controlled Regulation of Morphology and Size of HKUST-1 by "Coordination Modulation Method". Microporous and Meseporous Materials, 173, 181-188.
Facile synthesis of Fe3O4/g-C3N4/HKUST-1 composites …
Cu-BTC metal-organic framework (HKUST-1) was evaluated as the model material for CO2 capture from flue gas streams. This paper presents an optimised hydrothermal synthesis of HKUST-1 and an analysis of water stability of HKUST-1. Substantial improvements of the hydrothermal synthesis process of HKUST-1 are shown to increase the quantitative yield up to 89.4% at 100°C. Single-component adsorption experiments were carried out under conditions relevant for flue gases adsorption (45-60°C, 0-1barG) to evaluate the performance of HKUST-1 in terms of adsorption capacity, showing that the amount adsorbed of water can reach up to 21.7mmolg-1, about one order of magnitude higher than CO2 (1.75mmolg-1) and almost two orders of magnitude higher than N2 (0.17mmolg-1). The hydration process of HKUST-1 framework was investigated using dynamic vapour adsorption under the flue gas emitting conditions. HKUST-1 is sensitive to humid streams and dynamic deformation of its porous structure takes place at 40-50°C and various relative humidity values, leading to the irreversible decomposition of HKUST-1 framework and the consequent deterioration in its adsorption capacity. Under humid conditions, water displaces the organic linkers from the copper centres causing the collapse of HKUST-1 framework. These results provide fundamental knowledge to enable future material design for the modification of the hydrophilic nature of copper sites in HKUST-1 to improve its moisture stability.