An inflatable and scented vase and flower bouquet includes a housing having an outer surface configured in the form of a vase having flowers extending upwardly from a top of the vase, the housing having a singular construction and defining a single interior space that may be inflated to have the appearance of an authentic vase and flower bouquet. The inflatable bouquet may include a scent dispenser operative to dispense a fragrance associated with a flower depicted by the flower portion of the housing. A weight may be situated in the interior space to prevent the housing from floating away if inflated with helium.

An inflatable and scented vase and flower bouquet includes a housing having an outer surface configured in the form of a vase having flowers extending upwardly from a top of the vase, the housing having a singular construction and defining a single interior space that may be inflated to have the appearance of an authentic vase and flower bouquet. The inflatable bouquet may include a scent dispenser operative to dispense a fragrance associated with a flower depicted by the flower portion of the housing. A weight may be situated in the interior space to prevent the housing from floating away if inflated with helium.

A scent dispenser includes an elongated main body having an outer wall and a fan body slidably engaged with the elongated main body. The fan body has a first retracted position and a first extended position relative to the elongated main body. A fan is disposed within the fan body. A power source is disposed within the fan body and is coupled to the fan. A scent body is slidably engaged with the elongated main body. The scent body has a second retracted position and a second extended position relative to the elongated main body. A scent holder is disposed in the scent body.

A scent dispenser includes an elongated main body having an outer wall and a fan body slidably engaged with the elongated main body. The fan body has a first retracted position and a first extended position relative to the elongated main body. A fan is disposed within the fan body. A power source is disposed within the fan body and is coupled to the fan. A scent body is slidably engaged with the elongated main body. The scent body has a second retracted position and a second extended position relative to the elongated main body. A scent holder is disposed in the scent body.

The present invention is a chemical formulation and method of using the chemical formulation to neutralize or eliminate odors on a surface. In one aspect, the chemical formulation is an aqueous solution of multi-valent citrate salts and a surfactant that may further comprise a fragrance and/or a color and/or a chelating agent. The method comprises the steps of applying this formulation in sufficient volume to saturate the surface thereby neutralizing or eliminating the odor. In another aspect, the formulation of multi-valent citrate salts may be applied in solid form to an odorous aqueous solution or may be used to coat an absorbent matrix that is expected to receive an odorous aqueous solution.

The present invention is a chemical formulation and method of using the chemical formulation to neutralize or eliminate odors on a surface. In one aspect, the chemical formulation is an aqueous solution of multi-valent citrate salts and a surfactant that may further comprise a fragrance and/or a color and/or a chelating agent. The method comprises the steps of applying this formulation in sufficient volume to saturate the surface thereby neutralizing or eliminating the odor. In another aspect, the formulation of multi-valent citrate salts may be applied in solid form to an odorous aqueous solution or may be used to coat an absorbent matrix that is expected to receive an odorous aqueous solution.

Provided is a smart inhaler and wearable smart mask configured to operate as an air ionizer and a controlled multi-liquid atomizer. The smart mask and smart inhaler use a mature technology to deliver various types of liquid solutions to different applications from health care, drug delivery, immunization to recreational and gaming uses. In addition, the smart mask contains multiple actuators to provide haptic feedback to the areas around the mask. The smart mask and inhaler have a direct communication path to a smart device or it can be a smart device by itself; its various environmental and gas sensors act as a feedback mechanism. The detection level of the organic and non-organic VOC gas emitted when exhaling can be communicated and stored for analysis purposes. The detected gas can be regenerated on the same smart mask or a different remote smart mask.

Provided is a smart inhaler and wearable smart mask configured to operate as an air ionizer and a controlled multi-liquid atomizer. The smart mask and smart inhaler use a mature technology to deliver various types of liquid solutions to different applications from health care, drug delivery, immunization to recreational and gaming uses. In addition, the smart mask contains multiple actuators to provide haptic feedback to the areas around the mask. The smart mask and inhaler have a direct communication path to a smart device or it can be a smart device by itself; its various environmental and gas sensors act as a feedback mechanism. The detection level of the organic and non-organic VOC gas emitted when exhaling can be communicated and stored for analysis purposes. The detected gas can be regenerated on the same smart mask or a different remote smart mask.

A transparent photocatalytic coating for in-situ generation of free radicals combating microbes, odors and organic compounds in visible light is disclosed, featuring a catalytic material comprising a dopant and having particle size distribution suitable for exciton-confinment to accumulatively shift the photocatalytic process into visible light range. Furthermore, the present invention features a method of producing the photocatalytic material described herein. Furthermore, the present invention discloses a method of application of the photocatalytic coating to a surface of a locus. Finally, the present invention features using the photocatalytic coating for removing contaminants and microorganisms at the locus.

A transparent photocatalytic coating for in-situ generation of free radicals combating microbes, odors and organic compounds in visible light is disclosed, featuring a catalytic material comprising a dopant and having particle size distribution suitable for exciton-confinment to accumulatively shift the photocatalytic process into visible light range. Furthermore, the present invention features a method of producing the photocatalytic material described herein. Furthermore, the present invention discloses a method of application of the photocatalytic coating to a surface of a locus. Finally, the present invention features using the photocatalytic coating for removing contaminants and microorganisms at the locus.