Disclosed are polymers, methods of making polymers, and compositions, focused on cross-linking heterocycles comprising a moiety of Formula I with thiols and thiolates.

Disclosed are polymers, methods of making polymers, and compositions, focused on cross-linking heterocycles comprising a moiety of Formula I with thiols and thiolates.

Disclosed are polymers, methods of making polymers, and compositions, focused on cross-linking heterocycles comprising a moiety of Formula I with thiols and thiolates.

Disclosed are polymers, methods of making polymers, and compositions, focused on cross-linking heterocycles comprising a moiety of Formula I with thiols and thiolates.

Disclosed are polymers, methods of making polymers, and compositions, focused on cross-linking heterocycles comprising a moiety of Formula I with thiols and thiolates.

In one aspect, the disclosure relates to graft polymers and methods of making graft polymers. In one aspect, the graft polymers comprise a backbone polymer and at least one branch polymer attached to the backbone polymer, where the backbone polymer comprises repeating anhydroglucose units or a derivative thereof and the branch polymer comprises a residue of an aliphatic polyester. In another aspect, the graft polymers comprise at least two repeating units. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

In one aspect, the disclosure relates to graft polymers and methods of making graft polymers. In one aspect, the graft polymers comprise a backbone polymer and at least one branch polymer attached to the backbone polymer, where the backbone polymer comprises repeating anhydroglucose units or a derivative thereof and the branch polymer comprises a residue of an aliphatic polyester. In another aspect, the graft polymers comprise at least two repeating units. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

This disclosure generally relates to compositions suitable to provide biodegradable polymers, and methods of preparing the polymers thereof. The compositions comprise an alpha-olefin, natural wax or oil (e.g., soybean wax), and an initiator. The polymers can be used for inks, coatings, candle waxes, lubricating oils, personal care compositions, plastics, and adhesives.

This disclosure generally relates to compositions suitable to provide biodegradable polymers, and methods of preparing the polymers thereof. The compositions comprise an alpha-olefin, natural wax or oil (e.g., soybean wax), and an initiator. The polymers can be used for inks, coatings, candle waxes, lubricating oils, personal care compositions, plastics, and adhesives.

The disclosure relates to compositions including a constituent-A of a polylysine component, a XL-component, and a fibrous component of a fibrous element of vegetable fibers. The fibrous element is free of any fibers other than the vegetable fibers. The composition is free of any fibers other than the vegetable fibers of the fibrous component. The disclosure further relates to processes for obtaining an object from the compositions. The disclosure further relates to objects such as sheets, tapes, sticks, strips, films, cloths, containers, boards, panels, beams, frames, planks, engineered wood e.g. fibreboards obtained by said processes.