Open-framework materials are of great interest from both the theoretical and practical points of view due to their catalytic, absorbent, and ion-exchange properties. In the past decade, the study of structurally and c...Open-framework materials are of great interest from both the theoretical and practical points of view due to their catalytic, absorbent, and ion-exchange properties. In the past decade, the study of structurally and chemically diverse open framework solids has been flourishing. A large variety of silicates, phosphates and carboxylates with open-framework structures have been synthesized with organic amines as templates. It has also been demonstrated that other oxysalts such as selenate, arsenate and germanate are used to build up open architectures. As far as the sulfate is concerned,展开更多
Phenol was used as an aromatic and acidic solvent in solvothermal synthesis.JBW-type zeolites were successfully synthesized in a phenolic system.The as-synthesized microporous crystals were characterized by powder X-r...Phenol was used as an aromatic and acidic solvent in solvothermal synthesis.JBW-type zeolites were successfully synthesized in a phenolic system.The as-synthesized microporous crystals were characterized by powder X-ray diffraction analysis and scanning electron microscopy techniques.The results indicate that phenol is a good organic solvent and has a huge potential of application in studying crystallization mechanism and synthesizing novel microporous materials.展开更多
A new route to synthesize TS-1 has been developed using the supercritical carbon dioxide(SCCO2) as a crystallization-assistant agent. SCCO2 plays a dual role: as a reagent changing the alkalinity during the crystal...A new route to synthesize TS-1 has been developed using the supercritical carbon dioxide(SCCO2) as a crystallization-assistant agent. SCCO2 plays a dual role: as a reagent changing the alkalinity during the crystallization process and as a medium eliminating mass-transfer limitations(both within the bulk fluid and through liquid/gas, solid/gas or solid/liquid phase boundaries). In this route, it was shown that the Ti content in TS-I increase compared with that in the TS-1 prepared without SCCO2, but decrease while the SCCO2 pressure increase. The prepared crystal morphology also underwent significant change. The crystallization time of TS-1 can be shorten a lot.展开更多
基金Supported by the National Natural Science Foundation of China(Nos.29873017, 20101004 and 29825504) the State BasicResearch Project(No.G2000077507).
文摘Open-framework materials are of great interest from both the theoretical and practical points of view due to their catalytic, absorbent, and ion-exchange properties. In the past decade, the study of structurally and chemically diverse open framework solids has been flourishing. A large variety of silicates, phosphates and carboxylates with open-framework structures have been synthesized with organic amines as templates. It has also been demonstrated that other oxysalts such as selenate, arsenate and germanate are used to build up open architectures. As far as the sulfate is concerned,
基金Supported by State Key Laboratory for Physical Chemistry of Solid Surfaces of Xiamen University State Key Laboratory ofInorganic Synthesis and Preparative Chemistry of Jilin University.
文摘Phenol was used as an aromatic and acidic solvent in solvothermal synthesis.JBW-type zeolites were successfully synthesized in a phenolic system.The as-synthesized microporous crystals were characterized by powder X-ray diffraction analysis and scanning electron microscopy techniques.The results indicate that phenol is a good organic solvent and has a huge potential of application in studying crystallization mechanism and synthesizing novel microporous materials.
基金National Basic Research Program of China,the National Natural Science Foundation of China,the Youth Scientific Research Fund of Jilin Province,China
文摘A new route to synthesize TS-1 has been developed using the supercritical carbon dioxide(SCCO2) as a crystallization-assistant agent. SCCO2 plays a dual role: as a reagent changing the alkalinity during the crystallization process and as a medium eliminating mass-transfer limitations(both within the bulk fluid and through liquid/gas, solid/gas or solid/liquid phase boundaries). In this route, it was shown that the Ti content in TS-I increase compared with that in the TS-1 prepared without SCCO2, but decrease while the SCCO2 pressure increase. The prepared crystal morphology also underwent significant change. The crystallization time of TS-1 can be shorten a lot.
