The disclosure provides a lipid nanodisc including a lipid bilayer having two opposing hydrophilic faces and a hydrophobic edge between the hydrophilic faces, and a copolymer encircling the hydrophobic edge of the lipid bilayer, the copolymer including a first monomeric unit including a pendant aromatic group, and a second monomeric unit including a pendant hydrophilic group, wherein the first monomeric unit and the second monomeric unit are present in the copolymer is a molar ratio ranging from 1:1 to 3:1 for the first monomeric unit:the second monomeric unit. The disclosure further provides a method of making the polymer-based lipid nanodiscs of the disclosure and methods of characterizing membrane proteins using the polymer-based lipid nanodiscs of the disclosure.

The disclosure provides a lipid nanodisc including a lipid bilayer having two opposing hydrophilic faces and a hydrophobic edge between the hydrophilic faces, and a copolymer encircling the hydrophobic edge of the lipid bilayer, the copolymer including a first monomeric unit including a pendant aromatic group, and a second monomeric unit including a pendant hydrophilic group, wherein the first monomeric unit and the second monomeric unit are present in the copolymer is a molar ratio ranging from 1:1 to 3:1 for the first monomeric unit:the second monomeric unit. The disclosure further provides a method of making the polymer-based lipid nanodiscs of the disclosure and methods of characterizing membrane proteins using the polymer-based lipid nanodiscs of the disclosure.

The disclosure provides a lipid nanodisc including a lipid bilayer having two opposing hydrophilic faces and a hydrophobic edge between the hydrophilic faces, and a copolymer encircling the hydrophobic edge of the lipid bilayer, the copolymer including a first monomeric unit including a pendant aromatic group, and a second monomeric unit including a pendant hydrophilic group, wherein the first monomeric unit and the second monomeric unit are present in the copolymer is a molar ratio ranging from 1:1 to 3:1 for the first monomeric unit:the second monomeric unit. The disclosure further provides a method of making the polymer-based lipid nanodiscs of the disclosure and methods of characterizing membrane proteins using the polymer-based lipid nanodiscs of the disclosure.

Polymers are provided, in which a pendant photoinitiator moiety is linked to the polymer structure via an amide or a succinimide.

Polymers are provided, in which a pendant photoinitiator moiety is linked to the polymer structure via an amide or a succinimide.

Polymers are provided, in which a pendant photoinitiator moiety is linked to the polymer structure via an amide or a succinimide.

Disclosed are novel phosphono-phosphate compounds, monomers, and polymer compositions that have targeted uses with divalent cations and surfaces having divalent cations. These compounds can be used to deliver actives to surfaces such as calcium hydroxyapatite.

Disclosed are novel phosphono-phosphate compounds, monomers, and polymer compositions that have targeted uses with divalent cations and surfaces having divalent cations. These compounds can be used to deliver actives to surfaces such as calcium hydroxyapatite.

Disclosed are novel phosphono-phosphate compounds, monomers, and polymer compositions that have targeted uses with divalent cations and surfaces having divalent cations. These compounds can be used to deliver actives to surfaces such as calcium hydroxyapatite.

Disclosed are novel phosphono-phosphate polymer compositions with multi-valent cations in aqueous solutions. These compositions can further include mono or multivalent anions.