Formation of low-crystallinity phytosterol nanoparticles via cooling-controlled supercritical carbon dioxide (SC—CO.sub.2) impregnation of phytosterols into biodegradable nanoporous starch aerogels and methods of preparing these aerogels are disclosed. The nanoporous starch aerogels increase water dissolution and bioaccessibility of the phytosterols, thereby making them available for preparation of high nutraceutical value foods.

The present invention relates to a method for preparing a simply prepared, safe, nontoxic, and biodegradable modified starch; the present invention further relates to use thereof as an adsorbent in adsorbing heavy metal ions and organic compounds, and belongs to the technical field of modified starch material. Starch is used as raw material and modified with thiourea and tungsten chloride; the starch binds to heavy metal ions through a series of coordination or chelation, and thus produces a heavy metal ion adsorption effect; a starch-based carbon composite is prepared, i.e., a modified starch composite. The simply prepared, environmentally friendly, and recyclable modified starch adsorbent with excellent performance and higher practical value effectively removes He ions and such organic compounds as methylene blue from the wastewater; the modified starch adsorbent is expected to develop into a novel water treatment agent due to low loss rate, biodegradability, and recyclability.

The present invention relates to a method for preparing a simply prepared, safe, nontoxic, and biodegradable modified starch; the present invention further relates to use thereof as an adsorbent in adsorbing heavy metal ions and organic compounds, and belongs to the technical field of modified starch material. Starch is used as raw material and modified with thiourea and tungsten chloride; the starch binds to heavy metal ions through a series of coordination or chelation, and thus produces a heavy metal ion adsorption effect; a starch-based carbon composite is prepared, i.e., a modified starch composite. The simply prepared, environmentally friendly, and recyclable modified starch adsorbent with excellent performance and higher practical value effectively removes He ions and such organic compounds as methylene blue from the wastewater; the modified starch adsorbent is expected to develop into a novel water treatment agent due to low loss rate, biodegradability, and recyclability.

Disclosed is a processing method of a self-reinforced starch-based multifunctional material, and belongs to the technical field of starch deep processing. The processing method takes bulk starch as a base material, including the following steps: firstly reacting starch nanoparticles with an organic acid anhydride reagent and adding a bacteriostatic agent to prepare composite nanoparticles, then mixing the composite nanoparticles with the bulk starch, an etherifying agent, a crosslinking agent, a plasticizer and the like, and finally preparing a starch-based multifunctional material by dry extrusion modification combined with a starch-based nanoparticle assembly and reinforcement technology. The method of the disclosure is simple and convenient in step, mild and controllable in reaction, and continuous and green in production. The obtained product has good mechanical properties, high barrier properties and high antibacterial properties, can be applied to many fields such as food, textiles, daily chemicals and medicine, and has a broad market prospect.

Compositions and methods related to powdered hemostats that crosslink during and/or after application to a bleeding site are generally described.

Compositions and methods related to powdered hemostats that crosslink during and/or after application to a bleeding site are generally described.

The present invention provides a polysaccharide supported fluorinating agents which can be used in fluorination reactions. The invention particularly describes a new bacterial cellulose supported tetra-n-butyl ammonium fluoride complex [NBu4(Bac-Cell-OH)F] which is stable and non-hygroscopic. The invention further relates to a process for fluorination using the [NBu4(Bac-Cell-OH)F] complex.

The present invention provides a polysaccharide supported fluorinating agents which can be used in fluorination reactions. The invention particularly describes a new bacterial cellulose supported tetra-n-butyl ammonium fluoride complex [NBu4(Bac-Cell-OH)F] which is stable and non-hygroscopic. The invention further relates to a process for fluorination using the [NBu4(Bac-Cell-OH)F] complex.

A method of processing an initial starch containing gluten protein to produce a purified starch having less than 20 parts per million of a gluten protein (i.e., “gluten free”). A slurry of the unpurified starch is treated with an agent to degrade the gluten protein, and then the degraded gluten protein is removed, resulting in a slurry of the purified starch. The slurry of the purified starch is dried, resulting in the purified starch, and the purified starch is tested to confirm that the purified starch meets the standard for being gluten free. The starch is from a member of the tribe Triticeae (e.g., wheat, rye, barley, or triticale) or other plant starch that either naturally contains gluten protein or may be contaminated with gluten protein. The agent is selected from among acids, bases, alcohols, surfactants, proteases, chaotropic agents, reducing agents, and combinations thereof.

A method of processing an initial starch containing gluten protein to produce a purified starch having less than 20 parts per million of a gluten protein (i.e., “gluten free”). A slurry of the unpurified starch is treated with an agent to degrade the gluten protein, and then the degraded gluten protein is removed, resulting in a slurry of the purified starch. The slurry of the purified starch is dried, resulting in the purified starch, and the purified starch is tested to confirm that the purified starch meets the standard for being gluten free. The starch is from a member of the tribe Triticeae (e.g., wheat, rye, barley, or triticale) or other plant starch that either naturally contains gluten protein or may be contaminated with gluten protein. The agent is selected from among acids, bases, alcohols, surfactants, proteases, chaotropic agents, reducing agents, and combinations thereof.