The present disclosure describes a composition including a sulfopolymer, and one or more agrochemicals. The composition exhibits improved sticker characteristic as compared to the same composition without the sulfopolymer. The present disclosure also describes methods of making and using such formulations in agriculture.

The present disclosure describes a composition including a sulfopolymer, and one or more agrochemicals. The composition exhibits improved sticker characteristic as compared to the same composition without the sulfopolymer. The present disclosure also describes methods of making and using such formulations in agriculture.

The present disclosure describes a composition including a sulfopolymer, and one or more agrochemicals. The composition exhibits improved dispersal and/or re-dispersal characteristics as compared to the same composition without the sulfopolymer. The present disclosure also describes methods of making and using such formulations in agriculture.

Described herein, inter alia, is a concentrate including a high ionic strength liquid and a microfibrillated cellulose, and methods of making the same.

A preparation method for a combined modified straw active particulate carbon adsorption material and use of same. The preparation method for the combined modified straw active particulate carbon adsorption material comprises the following steps: 1) mixing straw powders, distilled water, a binder and a composite mineral, then pelletizing same, and then placing same in a tube furnace for pyrolysis to prepare straw particulate carbon; 2) introducing an inert gas into a modification reagent, adjusting the pH value combined and 3) soaking the straw particulate carbon into the combined modification solution for 30 min, and performing cleaning and drying, so as to obtain a combined modified straw active particulate carbon adsorption material. The combined modified straw active particulate carbon has a good adsorption effect on phosphate group in low-pollution water.

A preparation method for a combined modified straw active particulate carbon adsorption material and use of same. The preparation method for the combined modified straw active particulate carbon adsorption material comprises the following steps: 1) mixing straw powders, distilled water, a binder and a composite mineral, then pelletizing same, and then placing same in a tube furnace for pyrolysis to prepare straw particulate carbon; 2) introducing an inert gas into a modification reagent, adjusting the pH value combined and 3) soaking the straw particulate carbon into the combined modification solution for 30 min, and performing cleaning and drying, so as to obtain a combined modified straw active particulate carbon adsorption material. The combined modified straw active particulate carbon has a good adsorption effect on phosphate group in low-pollution water.

A plant growth enhancer including a source of carbon dioxide, a source of carbohydrate, and source of acid in an amount to provide increased retention of carbon dioxide in the soil. A method of enhancing the growth of plants by applying the plant growth enhancer to the soil containing the plant, the acid increasing retention of the carbon dioxide in the soil, and the plant exhibiting enhanced growth from the combination of the carbon dioxide and carbohydrate.

A plant growth enhancer including a source of carbon dioxide, a source of carbohydrate, and source of acid in an amount to provide increased retention of carbon dioxide in the soil. A method of enhancing the growth of plants by applying the plant growth enhancer to the soil containing the plant, the acid increasing retention of the carbon dioxide in the soil, and the plant exhibiting enhanced growth from the combination of the carbon dioxide and carbohydrate.

formaldehyde-based polymer composite is coated on a surface of the biodegradable polymer fabric, and is embedded in meshes of the biodegradable polymer fabric. There is intermolecular hydrogen-bond interaction between the biodegradable urea-formaldehyde-based polymer composite and the biodegradable polymer fabric.

formaldehyde-based polymer composite is coated on a surface of the biodegradable polymer fabric, and is embedded in meshes of the biodegradable polymer fabric. There is intermolecular hydrogen-bond interaction between the biodegradable urea-formaldehyde-based polymer composite and the biodegradable polymer fabric.