PINKAS, Jiří, Petr MACHÁČ, Ján PODHORSKÝ, Zdeněk MORAVEC and Aleš STÝSKALÍK. Aluminophosphate and -phosphonate Xerogels by Non-Hydrolytic Sol-Gel Reactions. In 20th International Sol-Gel Conference, Sankt Peterburg, Russia. 2019.
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Basic information
Original name Aluminophosphate and -phosphonate Xerogels by Non-Hydrolytic Sol-Gel Reactions
Authors PINKAS, Jiří, Petr MACHÁČ, Ján PODHORSKÝ, Zdeněk MORAVEC and Aleš STÝSKALÍK.
Edition 20th International Sol-Gel Conference, Sankt Peterburg, Russia, 2019.
Other information
Original language English
Type of outcome Conference abstract
Field of Study 10402 Inorganic and nuclear chemistry
Country of publisher Russian Federation
Confidentiality degree is not subject to a state or trade secret
Organization unit Faculty of Science
Keywords in English aluminophosphates; Aluminophosphonates; non-hydrolytic sol-gel reactions
Tags International impact, Reviewed
Changed by Changed by: prof. RNDr. Jiří Pinkas, Ph.D., učo 627. Changed: 9/8/2019 21:53.
Abstract
We have investigated the preparation of high-surface area mesoporous aluminophosphates and aluminophosphonates by non-hydrolytic sol-gel reactions. The first synthetic method is based on reactions of EtAlCl2 with trialkylesters of phosphoric acid (OP(OR)3, R = Me, Et, iPr, nBu, in dry organic solvents. The condensations proceed by alkylchloride elimination. Various reaction and calcination conditions were examined. Porosity is obtained after calcination by removal of organic residual groups. This thermal processing at 300 °C of as-synthesized precursor gels leads to amorphous aluminophosphate xerogels with surface areas of 400–500 m2 g–1 provided by small mesopores (2–8 nm). Changes in coordination environment of aluminium from six- to four-coordinate are evidenced by shift of 27Al MAS NMR resonances. The second method involves reaction of Al(NMe2)3 with trimethylsilylated phosphate, phosphonate, and bis-phosphonate esters in dry toluene. The reactions proceed by silylamine elimination and provide organic-inorganic hybrid xerogels with properties influenced by organic substituents and the Al:P ratio of the precursors. Dried xerogels exhibit large surface areas (up to 1000 m2 g-1) and Al–O–P networks stay stable under medium high thermal conditions. 27Al, 13C, and 29Si MAS NMR was employed to characterize aluminum coordination and residual amido and trimethylsilyl groups. The amount of residual groups was determined by gravimetric measurements and by thermal TG-DSC analysis. These unreacted groups have the potential to be used in post-synthetic grafting of catalytically active metal centers.
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LM2015043, research and development projectName: Česká infrastruktura pro integrativní strukturní biologii (Acronym: CIISB)
Investor: Ministry of Education, Youth and Sports of the CR
LQ1601, research and development projectName: CEITEC 2020 (Acronym: CEITEC2020)
Investor: Ministry of Education, Youth and Sports of the CR
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