Synthesis, Characterization, and Gas Permeation Properties of Silylated Derivatives of Ethyl Cellulose

Abstract: Silyl ethers of ethyl cellulose (2a-f) were synthesized in good yields by the reaction of various chlorosilanes with residual hydroxy groups of ethyl cellulose. 1 H NMR and FTIR spectra of the silylated polymers furnished the evidence for complete substitution of hydroxy protons by the silyl groups. Silylated derivatives of ethyl cellulose (2a-f) were soluble in common organic solvents and displayed enhanced solubility in relatively nonpolar solvents due to the substitution of hydroxy groups. The onset tempera… Show more

“…Such behavior can be explained in terms of the strong interaction of CO 2 with the hydroxy groups present in cellulose acetate prior to silylation. Similar effects have been observed in the case of silylated derivatives of ethyl cellulose [48], and poly(diphenylacetylene) membranes bearing hydroxy group in their side chain [49,50]. Fig.…”

Synthesis, characterization, and gas permeation properties of the silyl derivatives of cellulose acetate

“…Such behavior can be explained in terms of the strong interaction of CO 2 with the hydroxy groups present in cellulose acetate prior to silylation. Similar effects have been observed in the case of silylated derivatives of ethyl cellulose [48], and poly(diphenylacetylene) membranes bearing hydroxy group in their side chain [49,50]. Fig.…”

Synthesis, characterization, and gas permeation properties of the silyl derivatives of cellulose acetate

“…The t-butylcarbamates of cellulose derivatives (1a-4a) possess both the aforementioned features and the local mobility of the side groups playing a dominant role resulted in the permeability enhancement which was quite substantial for cellulose acetate derivatives, especially for 4a. These results are quite in compliance with the previous ones describing a two times increase in the P values to arise from the silylation of ethyl cellulose (DS Et , 2.69), a four to five times enhancement for silylated cellulose acetate (DS Ac , 2.46), and a magnanimous augmentation of more than 30 times to result from the silylation of cellulose acetate (DS Ac , 1.80) [54,67].…”

Synthesis, characterization, and gas permeation properties of t-butylcarbamates of cellulose derivatives

“…Some applications of chlorosilanes include functional group protection, functionalizing silica surfaces and polymers, and polymer synthesis. [18][19][20][21] Moreover, this work further complements our previous efforts in exploiting selective reactions in organosilicon chemistry. 22 …”

Orthogonal reactivity of thiols toward chlorovinylsilanes: selective thiol-ene chemistry