Provided are: a sludge dehydrating agent which can exert a steady dehydrating effect on various types of sludge and has excellent dehydration performance; and a sludge dehydration method using the sludge dehydrating agent. The sludge dehydrating agent of the present invention with a polymer which has a constituent unit derived from a cationic monomer, wherein a value k determined from an intrinsic viscosity [η] 1 [dL/g] of a 1-mol/L aqueous sodium nitrate solution of the polymer at 30° C. and an intrinsic viscosity [η] 0.01 [dL/g] of a 0.01-mol/L aqueous sodium nitrate solution of the polymer at 30° C. in accordance with formula (I) is 0.8 to 2.2 exclusive.

k=([η]0.01−[η]1)/9   (I)

Provided are: a sludge dehydrating agent which can exert a steady dehydrating effect on various types of sludge and has excellent dehydration performance; and a sludge dehydration method using the sludge dehydrating agent. The sludge dehydrating agent of the present invention with a polymer which has a constituent unit derived from a cationic monomer, wherein a value k determined from an intrinsic viscosity [η] 1 [dL/g] of a 1-mol/L aqueous sodium nitrate solution of the polymer at 30° C. and an intrinsic viscosity [η] 0.01 [dL/g] of a 0.01-mol/L aqueous sodium nitrate solution of the polymer at 30° C. in accordance with formula (I) is 0.8 to 2.2 exclusive.

k=([η]0.01−[η]1)/9   (I)

The invention provides novel polymers, crosslinked polymer-nucleic acid complexes, lipid-polymer-nucleic acid-based complexation and nanoassemblies, and nanoassembly-based intracellular delivery of nucleic acids and controlled release thereof upon degradation of the nanoassemblies in response to specific microenvironment in the cell, and compositions and methods of preparation and use thereof.

Zwitterionic copolymers, coating compositions (e.g., aqueous coating compositions and articles containing such copolymers, and methods of coating such coating compositions; wherein the copolymer includes: (a) first monomeric units derived from monomers of Formula (I) CH.sub.2═CR.sup.1—(CO)—X—R.sup.2—[-Q-R.sup.3—].sub.n—Y (I) or salts thereof, wherein: R.sup.1 is hydrogen or methyl; X is oxy or —NH—; R.sup.2 is an alkylene optionally including catenary oxygen; R.sup.3 is an alkylene; Q is —(CO)O—, —NR.sup.4—(CO)—NR.sup.4—, or —(CO)—NR.sup.4—; R.sup.4 is hydrogen or alkyl; n is equal to 0 or 1; and Y is phosphonic acid, phosphonate, phosphoric acid, or phosphate; and (b) second monomeric units derived from monomers of Formula (II) CH.sub.2═CR.sup.1—(CO)—X—R.sup.2—[-Q-R.sup.3—].sub.n—[NR.sup.5R.sup.6]+—R.sup.7—Z— (II) wherein: R.sup.1 is hydrogen or methyl; X is oxy or —NH—; R.sup.2 is alkylene optionally including catenary oxygen; R.sup.3 is alkylene; Q is —(CO)O—, —NR.sup.4—(CO)—NR.sup.4—, or —(CO)—NR4-; R.sup.4 is hydrogen or alkyl; n is equal to 0 or 1; R.sup.5 and R.sup.6 are each independently an alkyl, aryl, or a combination thereof, or R.sup.5 and R.sup.6 both combine with the nitrogen to which they are both attached to form a heterocyclic ring having 3 to 7 ring members; R.sup.7 is alkylene; and Z″ is carboxylate or sulfonate.
CH.sub.2═CR.sup.1—(CO)—X—R.sup.2—[-Q-R.sup.3-].sub.n—Y  (I)
CH.sub.2═CR.sup.1—(CO)—X—R.sup.2—[-Q-R.sup.3—].sub.n—[NR.sup.5R.sup.6].sup.+—R.sup.7—Z.sup.−  (II)

The invention provides polymers and polymeric nanogels in which nucleic acid molecules can be stably entrapped or encapsulated and are controllably delivered and released upon degradation of the nano-structures in response to specific microenvironment triggers, and compositions and methods of preparation and use thereof.

The invention provides polymers and polymeric nanogels in which nucleic acid molecules can be stably entrapped or encapsulated and are controllably delivered and released upon degradation of the nano-structures in response to specific microenvironment triggers, and compositions and methods of preparation and use thereof.

The invention provides powerful methods and compositions for designing, selecting, fine-tuning and optimizing polymer nanogel and other supramolecular assemblies for various properties including, for example, particle size, density and morphology, guest loading capacity and encapsulation stability, and dynamic release control.

The invention provides powerful methods and compositions for designing, selecting, fine-tuning and optimizing polymer nanogel and other supramolecular assemblies for various properties including, for example, particle size, density and morphology, guest loading capacity and encapsulation stability, and dynamic release control.

A non-chemically-amplified positive resist composition comprising a polymer comprising both recurring units derived from a sulfonium salt capable of generating a fluorinated acid and recurring units containing an amino group as a base resin exhibits a high resolution and a low edge roughness and forms a pattern of good profile after exposure and organic solvent development.

An amphoteric betaine-type polycarboxylic acid water reducer and a preparation method therefor are provided in the present invention. An unsaturated betaine-type monomer A and an acrylic acid-type polyethylene glycol monomer B are placed in a reaction container, stirred until uniform and then an acrylic acid-type monomer C is added, the stirring is continued and water is added to make adjustments so as to make the total mass of the monomers account for 10%-20% of the total mass of the aqueous solution; and under the protection of an inert gas, the temperature is raised to 60° C.-100° C., an aqueous initiator solution is added, maintaining the temperature and reacting for 4-6 h, and after the reaction is completed, the solution is cooled to room temperature, and the pH value thereof is adjusted to 5-7 to prepare the amphoteric betaine-type polycarboxylic acid water reducer.