Compositions and methods of using exogenous antioxidant compounds and additives for cannabis and hemp production and growth and methods for enhancing the production of secondary metabolites and alleviating stress in cannabis and hemp plants are described.

Temperature variant compression stockings are three-in-one stockings that address needs both in the sports world and the medical field. The temperature variant stockings may help cool the skin while exerting a desired compressive force; another version of the temperature variant stockings may actually retain heat while also exerting a desired compressive force. The stockings are available where the temperature variant components are in contact with the user's skin while the compression yarns are knitted onto the outside of the stocking. A style is also available with alternating strips, with either the cooling yarns or the heat retaining yarns running vertically and parallel to strips of compression yarns. Antimicrobial particles are infused into the cooling or heating yarns to guard again infections.

Temperature variant compression stockings are three-in-one stockings that address needs both in the sports world and the medical field. The temperature variant stockings may help cool the skin while exerting a desired compressive force; another version of the temperature variant stockings may actually retain heat while also exerting a desired compressive force. The stockings are available where the temperature variant components are in contact with the user's skin while the compression yarns are knitted onto the outside of the stocking. A style is also available with alternating strips, with either the cooling yarns or the heat retaining yarns running vertically and parallel to strips of compression yarns. Antimicrobial particles are infused into the cooling or heating yarns to guard again infections.

The present invention is directed to environmentally benign coatings that can prevent fouling of submerged structures and surfaces in the marine environment. The coating is essentially a grease composition composed of an organic acids salt, mineral oil, a solvent and alkaline silicate. The sulfonate thickener is an oil soluble dispersing agent selected from a plurality of organic acids in a form of alkali metal salt or alkaline earth metal salt thereof, such as calcium sulfonate. Coating compositions of the invention can be used to coat surfaces, such that when such surfaces are exposed to or kept submerged in seawater they will prevent fouling of such surfaces when exposed to the marine environment for extended time.

The present invention is directed to environmentally benign coatings that can prevent fouling of submerged structures and surfaces in the marine environment. The coating is essentially a grease composition composed of an organic acids salt, mineral oil, a solvent and alkaline silicate. The sulfonate thickener is an oil soluble dispersing agent selected from a plurality of organic acids in a form of alkali metal salt or alkaline earth metal salt thereof, such as calcium sulfonate. Coating compositions of the invention can be used to coat surfaces, such that when such surfaces are exposed to or kept submerged in seawater they will prevent fouling of such surfaces when exposed to the marine environment for extended time.

A method for producing mesoporous magnesium hydroxide nanoplates involving solvothermal treatment of a solution of a magnesium salt, a base, a glycol, and water is disclosed. The method does not use a surfactant or template in the solvothermal treatment. The method yields mesoporous nanoparticles of magnesium hydroxide having a plate-like morphology with a diameter of 20 nm to 100 nm, a mean pore diameter of 2 to 10 nm, a surface area of 50 to 70 m.sup.2/g, and a type-III nitrogen adsorption-desorption BET isotherm with a H3 hysteresis loop. An antibacterial composition containing the mesoporous magnesium hydroxide nanoplates is also disclosed. A method for reducing nitroaromatic compounds with a reducing agent and the mesoporous magnesium hydroxide nanoplates as a catalyst is also disclosed.

A method for producing mesoporous magnesium hydroxide nanoplates involving solvothermal treatment of a solution of a magnesium salt, a base, a glycol, and water is disclosed. The method does not use a surfactant or template in the solvothermal treatment. The method yields mesoporous nanoparticles of magnesium hydroxide having a plate-like morphology with a diameter of 20 nm to 100 nm, a mean pore diameter of 2 to 10 nm, a surface area of 50 to 70 m.sup.2/g, and a type-III nitrogen adsorption-desorption BET isotherm with a H3 hysteresis loop. An antibacterial composition containing the mesoporous magnesium hydroxide nanoplates is also disclosed. A method for reducing nitroaromatic compounds with a reducing agent and the mesoporous magnesium hydroxide nanoplates as a catalyst is also disclosed.

A method for producing mesoporous magnesium hydroxide nanoplates involving solvothermal treatment of a solution of a magnesium salt, a base, a glycol, and water is disclosed. The method does not use a surfactant or template in the solvothermal treatment. The method yields mesoporous nanoparticles of magnesium hydroxide having a plate-like morphology with a diameter of 20 nm to 100 nm, a mean pore diameter of 2 to 10 nm, a surface area of 50 to 70 m.sup.2/g, and a type-III nitrogen adsorption-desorption BET isotherm with a H3 hysteresis loop. An antibacterial composition containing the mesoporous magnesium hydroxide nanoplates is also disclosed. A method for reducing nitroaromatic compounds with a reducing agent and the mesoporous magnesium hydroxide nanoplates as a catalyst is also disclosed.

A microbe-resistant coating, coating intermediate, finish, finish intermediate, or colorant that includes an antimicrobial agent. The antimicrobial agent is an inorganic bismuth-containing compound, and may be used in conjunction with other bismuth-containing compounds or other biocidal agents or methods. The bismuth-containing compound may also be used to impart micro-resistance to a coating, coating intermediate, finish, finish intermediate, colorant, processing equipment or vessels.

A microbe-resistant coating, coating intermediate, finish, finish intermediate, or colorant that includes an antimicrobial agent. The antimicrobial agent is an inorganic bismuth-containing compound, and may be used in conjunction with other bismuth-containing compounds or other biocidal agents or methods. The bismuth-containing compound may also be used to impart micro-resistance to a coating, coating intermediate, finish, finish intermediate, colorant, processing equipment or vessels.