Polyols, used for making polyurethane (PU) and polyisocyanurate (PIR) foams, are a topic of
interest due to the strong growth of the foam market during the last few decades. Polyols …

Herein, nitrogen, sulfur co‐doped carbon dots (N, S− CDs) have been synthesized by a cost‐
natural fabrication method using waste orange‐peel as a natural‐carbon‐precursor. N, S …

A solvent-free and scalable method was developed for the preparation of soybean-oil-based
polyols by a thiol–ene photo-click reaction with a homemade photochemical reactor. The …

In this study, a series of bio-based polyols were prepared from olive, castor, corn, canola,
rice bran, grape seed and linseed oil by thiol-ene photo-click reaction. The relationship …

Thiol–ene 'click'reactions utilizing terpenes and a four-arm thiol were employed to produce
thermoset 3D printed structures using vat photopolymerisation. Five terpenes were …

Renewable bio resources such as soybean, orange peel, and castor along with a novel
phosphorous based polyol were used to prepare highly flame-retardant polyurethane foams …

Polyurethane foams are in general flammable and their flammability can be controlled by
adding flame‐retardant (FR) materials. Reactive FR have the advantage of making strong …

High-quality rigid polyurethane (PU) foam thermal insulation material has been developed
solely using bio-polyols synthesized from second-generation bio-based feedstock. High …

A novel bio-based polyol was synthesized using corn oil and 2-mercaptoethanol via thiol-
ene reaction as an alternative to petroleum-based polyol for the synthesis of polyurethane …

Limonene dimercaptan (LDM), an orange peel oil‐based derivative, and glycerol‐1‐allyl
ether (GAE) were used to synthesize bio‐based polyol (LDM‐GAE) using one step …