A method for modifying the properties of balsa wood comprises infiltrating a protein ionic liquid comprising polymerized dopamine into delignified balsa wood. A method of making an optically active protective coating comprises mixing protein ionic liquid comprising polymerized dopamine with ethyl acetate-based or water-based nail polish. A method of making a thermoplastic having biological activity comprises melting a thermoplastic; and blending a protein ionic liquid with the thermoplastic; and cooling the thermoplastic protein ionic liquid blend to a solid state. The thermoplastic is a hot glue stick. The protein ionic liquid comprises antibodies, enzymes, or fluorescent proteins. A method of making a chymotrypsin protein ionic liquid/thermoplastic material comprises mixing cationized chymotrypsin and anions of poly(ethylene glycol) 4-nonylphenyl 3-sulfopropyl ether to form a chymotrypsin and anion complex; lyophilizing and melting the cationized chymotrypsin and anion complex to form a water-free ionic liquid; blending the chymotrypsin ionic liquid with molten hot glue/thermoplastic.

A method for modifying the properties of balsa wood comprises infiltrating a protein ionic liquid comprising polymerized dopamine into delignified balsa wood. A method of making an optically active protective coating comprises mixing protein ionic liquid comprising polymerized dopamine with ethyl acetate-based or water-based nail polish. A method of making a thermoplastic having biological activity comprises melting a thermoplastic; and blending a protein ionic liquid with the thermoplastic; and cooling the thermoplastic protein ionic liquid blend to a solid state. The thermoplastic is a hot glue stick. The protein ionic liquid comprises antibodies, enzymes, or fluorescent proteins. A method of making a chymotrypsin protein ionic liquid/thermoplastic material comprises mixing cationized chymotrypsin and anions of poly(ethylene glycol) 4-nonylphenyl 3-sulfopropyl ether to form a chymotrypsin and anion complex; lyophilizing and melting the cationized chymotrypsin and anion complex to form a water-free ionic liquid; blending the chymotrypsin ionic liquid with molten hot glue/thermoplastic.

A polar solvent solution of the present invention is a polar solvent solution in which a solute containing a polyamine acid is dissolved in a polar solvent. The solution has a moisture content of less than 5 mass % based on 100 mass % of the solution. A method for producing a polar solvent solution of the present invention includes changing a moisture content of the solution to adjust the viscosity of the solution. Further, another method for producing a polar solvent solution includes reducing a moisture content of the solution to increase the viscosity of the solution. Thus, the present invention provides a polar solvent solution that enables stable spinning and casting without lowering its viscosity when used as dopes for spinning, film, etc., and methods for producing the same.

The present invention relates to a polymer binder composition, and more specifically, to an integrated conductive polymer binder composition simultaneously having adhesion and conductivity, a method for preparing the binder composition, an energy storage device comprising the binder composition, a sensor comprising a sensing portion formed from the binder composition, and an anticorrosive coating composition comprising the binder composition as an active component.

The present technology relates to ultra-low VOC compositions comprising asphalt, a softener, clay, a surfactant and one or more polymeric adhesives. The compositions may optionally include functional fibers, fillers and other additives. The present technology also includes methods of manufacturing and using such compositions in coating, sealing, waterproofing and other applications.

A method for preparing a rooting plug is disclosed. The method calls for mixing a composition comprising (i) 0.2%-10% w/w bio-degradable polymer and (ii) an organic non-hydroxylic solvent with a plug mix. The resulting method prepares a rooting plug.

The present disclosure discloses a starch-based fluffy particle, a preparation method and use thereof. The preparation method of the starch-based fluffy particle comprises the following steps of: (1) adding water into starch or modified starch for gelatinization to obtain a starch paste; (2) adding the starch paste into a polar organic solvent, stirring, standing and centrifuging to collecting a precipitate; and (3) freeze-drying, crushing and sieving the precipitate in sequence to prepare the starch-based fluffy particle. The starch-based fluffy particles are porous and fluffy with a large pore size, have excellent water absorption speed, water absorption rate and degradation rate, and can achieve the purpose of rapid and efficient hemostasis. Moreover, the starch-based fluffy particles are free of dispersing agent, emulsifying agent or cross-linking agent, have the characteristics of safety and reliability, and can meet the hemostatic requirement of in-vivo environment.

This invention relates to gel compositions for filling cables, such as communication cables, in particular to gel compositions containing microspheres, to cables comprising said gels, and to methods of preparing such gel.

A method for preparing a rooting plug is disclosed. The method calls for mixing a composition comprising (i) 0.2%-10% w/w bio-degradable polymer and (ii) an organic non-hydroxylic solvent with a plug mix. The resulting method prepares a rooting plug.

The present disclosure generally relates to a process for manufacturing a processable dried cellulose nanomaterial using a co-solvent of tert-butyl alcohol (TBA), of which unique physical/chemical properties enable facile modification/derivatization. This present disclosure also relates to materials and process of generating of superhydrophobic surface coating using hydrophobic carboxylic acid modified cellulose nanofibers. Both the processes and the products thereof are within the scope of this disclosure.