High Refractive Index Copolymers from Aromatic Heterocycle‐Based Vinyl Sulfides and Phthalimide/Maleimide Derivatives

Abstract: Herein, we present the rational design and facile synthesis of high‐refractive‐index copolymers with good optical transparency and tunable thermal stability using aromatic heterocycle‐based vinyl sulfides via conventional radical copolymerization. 2‐Thiazolylvinylsulfide (2TVS), 1,3,4‐thiadiazolylvinylsulfide (1,3,4‐TVS), 3‐methylimidazolylvinylsulfide (3MIVS), and 5‐methlthio‐1,3,4‐thiadiazolylvinylsulfide (MeSTVS) were selected to enhance the refractive index, and N‐vinylphthalimide (NVPI) and N‐phenylmaleim… Show more

“…It should be pointed out that the high n d and excellent transparency of polyesters are superior to most high n d materials in recent research (Figure S92). − The remaining unconjugated double bonds in the polyesters provide a convenient postmodification protocol. After a facile 2 min UV treatment of the solution of 2e , 1,2-ethanedithiol, and photoinitiator, the colorless UV-cured network with a high n d up to 1.67 and excellent transparency of 98% is obtained (Figures C, S93, and S94).…”

Polyester Platform with High Refractive Indices and Closed-Loop Recyclability from CO₂, 1,3-Butadiene, and Thiols

“…It should be pointed out that the high n d and excellent transparency of polyesters are superior to most high n d materials in recent research (Figure S92). − The remaining unconjugated double bonds in the polyesters provide a convenient postmodification protocol. After a facile 2 min UV treatment of the solution of 2e , 1,2-ethanedithiol, and photoinitiator, the colorless UV-cured network with a high n d up to 1.67 and excellent transparency of 98% is obtained (Figures C, S93, and S94).…”

Polyester Platform with High Refractive Indices and Closed-Loop Recyclability from CO₂, 1,3-Butadiene, and Thiols