A system for integrated pest management in an environment includes devices positioned within the environment. The devices each include a communications facility that enables transmitting signals to and receiving signals from a network device. The system further includes a network to provide communication between the network device to the devices. The network device receives communication and control functions from a remote computer for distribution to the devices. The system further includes a sensor positioned within the environment to transmit sensor data to the remote computer. The sensor is configured to detect and transmit a parameter for the environment to the remote computer. The system further includes a controller to control the emission of a fluid from a source of the fluid in fluid communication with the devices. The controller is configured to set or adjust an operation parameter of the devices in response to the sensor data.

A system including tubing and a filter configured to be fluidly coupled to a vacuum source and to a heater/cooler unit by the tubing. The filter includes a filter container having negative air pressure in the filter container provided by the vacuum source to pull aerosol from the heater/cooler unit into the filter container and eliminate and/or reduce the aerosol emitted from the heater/cooler unit.

Systems and methods for managing scent in an environment include receiving data from sensors disposed in an environment regarding an indication that a service is being delivered in the environment and identifying remote atomizing scent diffusion devices disposed in the environment, wherein each scent diffusion device comprises a communications facility that enables transmitting signals to and receiving signals from the remote computer. Based on the indication, an electronic data structure is created defining a physical operational state of the scent diffusion devices, including data specifying at least one of a production of a scent that is intended to be a complement to the service, a fan speed of a fan in the diffusion device that moves particles carrying a scent, and a voltage of a pump of the diffusion device. The diffusion devices are caused to implement the at least one defined operational state.

Systems and methods for managing scent in an environment include disposing scent diffusion devices within the environment, wherein the diffusion devices comprise a communications facility that enables transmitting signals to and receiving signals from a non-fragrance dispensing, wide-area network gateway device that receives communication and control functions from a remote computer for distribution to the plurality of scent diffusion devices. A sensor in the environment transmits sensor data to the remote computer. A scent parameter for scenting the environment is received at the remote computer. Diffusion of a liquid from the scent diffusion devices is controlled by the network gateway device the to achieve the scent parameter, wherein controlling includes setting or adjusting an operation parameter of one or more of the scent diffusion devices in response to the sensor data.

A medium for purifying fluids containing toxic compounds can be made by a method which comprises applying a dispersion of a halogenated heterocyclic N-halamine in an inert liquid carrier to the surface of a substrate having a high surface area and allowing the inert liquid carrier to penetrate into the substrate, wherein the inert liquid carried does not react with halogen atoms in the halogenated heterocyclic N-halamine, wherein the halogenated heterocyclic N-halamine is capable of destroying the toxic compound by oxidative action, and wherein the halogenated heterocyclic N-halamine becomes deposited on the surface of the substrate after the inert liquid carrier penetrates into the substrate.

A system for integrated pest management in an environment includes devices positioned within the environment. The devices each include a communications facility that enables transmitting signals to and receiving signals from a network device. The system further includes a network to provide communication between the network device to the devices. The network device receives communication and control functions from a remote computer for distribution to the devices. The system further includes a sensor positioned within the environment to transmit sensor data to the remote computer. The sensor is configured to detect and transmit a parameter for the environment to the remote computer. The system further includes a controller to control the emission of a fluid from a source of the fluid in fluid communication with the devices. The controller is configured to set or adjust an operation parameter of the devices in response to the sensor data.

Provided are a freshness retaining agent that can be obtained by a simple method and exhibits excellent adsorption performance and antibacterial activity, a gas purification device including the freshness retaining agent, and a gas purification system. The freshness retaining agent is formed by adhering tea catechins to a surface and/or an inside of charcoal powders and adhering the charcoal powders to each other with clay interposed between the charcoal powders, thereby exhibiting excellent adsorption performance and antibacterial activity.

A mask with sterilization function is provided. The mask comprises two straps, a mask body, a functional layer, a first electrode, a second electrode, and a power inlet. The functional layer, the first electrode and the second electrode located in the mask body. The first electrode and the second electrode are located on a surface of the functional layer and are electrically connected to the power inlet. The first electrode and the second electrode are configured to input a current to the functional layer to heat the functional layer. The functional layer is a conductive layer and comprises a plurality of micropores.

Articles can be provided with odor resistance by applying a dispersion of a halogenated heterocyclic N-halamine in an inert liquid carrier onto the surface of the article and allowing the inert liquid carrier to penetrate into it. The N-halamine accordingly becomes deposited on the surface of the article after the inert liquid carrier penetrates into the article. This method can be used to provide odor resistance to a variety of substrates, including garbage bags. It can also be used to deposit other functional particulates onto the surface of substrates having sufficient porosity to take up the vehicle. For instance, such functional particles can be oxidants that display antimicrobial and/or enzyme inhibitory efficacy or particles having toxin interaction potentials through oxidative degradation or adsorption of toxic substances in air and/or water, such as fluoride uptake by metal oxide microparticles.

An air sterilization device includes a reflector, a first LED light source, and a second LED light source. The reflector may include a body part having a circular column shape having a vacant space therein and having openings formed in upper and lower surfaces thereof, a first rotary body connected to a lower surface of the body part and shaped to have a vacant space therein, and a second rotary body connected to an upper surface of the body part and shaped to have a vacant space; a first LED light source may emit UV-C rays in a direction from the first rotary body to the body part; and a second LED light source may emit UV-C rays in a direction from the second rotary body to the body part, and the reflector may reflect the light emitted from the first LED light source and the light emitted from the second LED light source.