Add to ORKGSulfur is an underused by-product of the petrochemicals industry. Recent research into inverse vulcanisation has shown how this excess sulfur can be transformed into functional polymers, by stabilization with organic crosslinkers. For these interesting new materials to realise their potential for applications, more understanding and control of their physical properties is needed. Here we report four new terpolymers prepared from sulfur and two distinct alkene monomers that can be predictively tuned in glass transition, molecular weight, solubility, mechanical properties, and colour
Inverse vulcanization, a sustainable platform, can transform sulfur, an industrial by-product, into ...
The synthesis of a novel high sulfur content material possessing improved thermomechanical propertie...
Recently, new methods have been developed for the utilization of elemental sulfur as a feedstock for...
Sulfur is an underused by-product of the petrochemicals industry. Recent research into inverse vulca...
Completion of inverse vulcanisation reactions leads to a crosslinked insoluble polymer, but insuffic...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse vulcanization provides a simple, solvent-free method for the preparation of high sulfur cont...
The invention of inverse vulcanization provides great opportunities for generating functional polyme...
It is widely acknowledged that waste sulfur generated from the petroleum industry creates huge stora...
It is widely acknowledged that waste sulfur generated from the petroleum industry creates huge stora...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse vulcanization, a sustainable platform, can transform sulfur, an industrial by-product, into ...
The synthesis of a novel high sulfur content material possessing improved thermomechanical propertie...
Recently, new methods have been developed for the utilization of elemental sulfur as a feedstock for...
Sulfur is an underused by-product of the petrochemicals industry. Recent research into inverse vulca...
Completion of inverse vulcanisation reactions leads to a crosslinked insoluble polymer, but insuffic...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse vulcanization provides a simple, solvent-free method for the preparation of high sulfur cont...
The invention of inverse vulcanization provides great opportunities for generating functional polyme...
It is widely acknowledged that waste sulfur generated from the petroleum industry creates huge stora...
It is widely acknowledged that waste sulfur generated from the petroleum industry creates huge stora...
Inverse vulcanized polymer materials have received considerable attention as a way to use sulfur, an...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse Vulcanisation is a versatile route to the synthesis of high sulfur content polymers. Develop...
Inverse vulcanization, a sustainable platform, can transform sulfur, an industrial by-product, into ...
The synthesis of a novel high sulfur content material possessing improved thermomechanical propertie...
Recently, new methods have been developed for the utilization of elemental sulfur as a feedstock for...