Wettability of porous polydimethylsiloxane surface: morphology study

CO 2 laser-induced infrared multiphoton decomposition (IRMPD) and SF 6 photosensitized decomposition (LPD) of silacyclobutane (SCB) and 1,3-disilacyclobutane (DSCB) in the gas phase results in the very efficient deposition of Si/C/H and SiC materials, and it is inferred that the process is dominated by formation of transient silene ; silene rearrangement to methylsilylene ; silene and methylsilylene dehydrogenation ; and polymerization of SiCH n (n < 4) species. The deposits are sensitive to oxygen. Decomposition and SiC formation are favoured with IRMPD experiments conducted with high-energy fluxes. The laser technique is promising for low-temperature chemical vapour deposition of amorphous SiC.

Si/C Phases from the IR Laser-induced Decomposition of Silacyclobutane and 1,3-Disilacyclobutane

Laser-generated silenes and their gas-phase polymerization

CO2 laser-induced thermal chemical vapour deposition of polymers

Laser-induced photolysis of the title silacycles in the gas phase is dominated by cleavage of the four-membered ring and results in deposition of polycarbosilanes formed by polymerization of assumed transient silenes and silylenes. The polycarbosilane films are reactive towards oxygen.

Chemical vapour deposition of polycarbosilanes via ArF laser-induced photolysis of sila-, 1-methyl-1-sila- and 1,3-disila-cyclobutanes

Efficient laser-induced generation and polymerization of the highly unsaturated compound diethynylsilene in the gas phase

Laser-powered homogeneous pyrolysis of 1,1-dimethyl-1-silacyclobutane in the presence of some common monomers

Laser powered homogeneous decomposition of tetramethylcyclotetrasiloxane. A source for hydroxy(methyl)silylene

Laser powered homogeneous co-pyrolysis of tetramethylcyclotetrasiloxane and 1,1-dimethyl-1-silacyclobutane affords products in a ratio consistent with the transient existence of hydroxy(methyl)silylene and its addition to transient dimethylsilene. The suggestion that hydroxy(methyl)silylene is very reactive towards dimethylsilene but not towards butadiene is supported by a semiempirical AM1 calculation.

Laser Powered Homogeneous Decomposition of Tetramethylcyclotetrasiloxane. A Source for Hydroxy(methyl)silylene.

Laser-induced homogeneous pyrolysis of 1,1-dimethyl-1-silacyclobutane yields 1,1,3,3-tetramethyl-1,3-disilacyclobutane and ethene as major products. In the presence of vinyl acetate, allyl methyl ether, acrolein, methyl vinyl ether, methyl acrylate or methyl methacrylate, the intermediate dimethylsilene is trapped by these monomers, or by products of their thermal decomposition, to yield both volatile and viscous or solid organosilicon compounds. The mode of formation of these products is discussed. Ethoxytrimethylsilane is judged to arise from addition of trimethylsilanol to ethene, and this was confirmed in independent thermal initiation of this reaction. Dimethylsilene is suggested to react with unsaturated methyl ethers to yield methoxytrimethylsilane and to undergo copolymerization with methyl acrylate.

Laser-Powered Homogeneous Pyrolysis of 1,1-Dimethyl-1-silacyclobutane in the Presence of Some Common Monomers.

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