Disclosed are compositions comprising NO donors formulated for effectively treating disease states, such as microbial infections, including Covid-19 infections. Mucoadhesive agents, chelating agents, and gallium enable highly efficacious formulations for treating infections, particularly when the nature of the pathogenic species is unknown.

Disclosed are compositions comprising NO donors formulated for effectively treating disease states, such as microbial infections, including Covid-19 infections. Mucoadhesive agents, chelating agents, and gallium enable highly efficacious formulations for treating infections, particularly when the nature of the pathogenic species is unknown.

Embodiments of the disclosure generally provide compositions and methods involving textiles that repel insects by vibrations and oscillations. The random and chaotic oscillations are caused by molecular bond isomerizations in the textile material driven by visible light, such as sunlight.

Embodiments of the disclosure generally provide compositions and methods involving textiles that repel insects by vibrations and oscillations. The random and chaotic oscillations are caused by molecular bond isomerizations in the textile material driven by visible light, such as sunlight.

Embodiments of the disclosure generally provide compositions and methods involving textiles that repel insects by vibrations and oscillations. The random and chaotic oscillations are caused by molecular bond isomerizations in the textile material driven by visible light, such as sunlight.

Provided herein are methods for inducing cell death in a gram positive bacterium and methods for reducing the proliferation of a gram positive bacterium that include contacting a gram positive bacterium with a dye (e.g., an azo dye) and a TarO inhibitor. Also provided are methods of treating a subject having a gram positive bacterial infection that include administering to a subject having a gram positive bacterial infection a dye (e.g., an azo dye) and a TarO inhibitor. Also provided are compositions containing a dye (e.g., an azo dye) and a TarO inhibitor, and kits containing at least one of these compositions.

Provided herein are methods for inducing cell death in a gram positive bacterium and methods for reducing the proliferation of a gram positive bacterium that include contacting a gram positive bacterium with a dye (e.g., an azo dye) and a TarO inhibitor. Also provided are methods of treating a subject having a gram positive bacterial infection that include administering to a subject having a gram positive bacterial infection a dye (e.g., an azo dye) and a TarO inhibitor. Also provided are compositions containing a dye (e.g., an azo dye) and a TarO inhibitor, and kits containing at least one of these compositions.

The present invention includes compositions and methods of for treating plants infected with fungal pathogens by contacting an infected plant or plant at risk of infection with a fungicidal composition comprising an fungicide selected from copper compound such as copper octanoate or copper hydroxide, or a triazole fungicide such as myclobutanil, propionazole, tebuconazole or epoxiconazole, an enhancer selected from apyrase inhibitors, e.g., N-(m-tolyl)-[1,1-biphenyl]-4-sulfonamide, S-heptyl 2-oxo-2H-chromene 3-carbothioate, 3-(N-(4-bromophenyl) sulfamoyl)-N-(3-nitrophenyl)benzamide, or (E)-3-methyl-N-(1-(naphthalen-2-yl) ethylidene)benzohydrazide and, optionally, a phytologically-acceptable inert carrier.

The present invention includes compositions and methods of for treating plants infected with fungal pathogens by contacting an infected plant or plant at risk of infection with a fungicidal composition comprising an fungicide selected from copper compound such as copper octanoate or copper hydroxide, or a triazole fungicide such as myclobutanil, propionazole, tebuconazole or epoxiconazole, an enhancer selected from apyrase inhibitors, e.g., N-(m-tolyl)-[1,1-biphenyl]-4-sulfonamide, S-heptyl 2-oxo-2H-chromene 3-carbothioate, 3-(N-(4-bromophenyl) sulfamoyl)-N-(3-nitrophenyl)benzamide, or (E)-3-methyl-N-(1-(naphthalen-2-yl) ethylidene)benzohydrazide and, optionally, a phytologically-acceptable inert carrier.

Disclosed are a high-performance anti-fungal, anti-bacterial, insecticidal and deodorizing microcapsule and its application. The functional microcapsule includes the following raw materials in parts by weight: a constant-temperature sublimation agent of 4050 parts by weight, an anti-bacterial agent of 1015 parts by weight, a deodorant of 1015 parts by weight, an insecticide of 1015 parts by weight, an anti-fungal agent of 1015 parts by weight, a solvent of 100 parts by weight, a release agent of 6001000 parts by weight, a diluent of 600010000 parts by weight, and an emulsifier of 0.20.25 part by weight.