Abstract: A wipe for anti-microbial disinfecting includes a flexible substrate and an anti-microbial ion source integrated on the substrate. The flexible substrate is made entirely or in part of woven fiber cloth, non-woven fiber cloth, woven synthetic cloth, non-woven synthetic cloth, or natural fiber cloth. The anti-microbial ion source is configured to dissolve in an aqueous solution to form an anti-microbial solution. The flexible substrate is configured to absorb the anti-microbial solution for use in cleaning.

Abstract: A volatile substance delivery system includes a volatile substance container to contain a volatile substance, an outlet to deliver a volume of the volatile substance from the volatile substance container to an ambient environment, and a manual screw pump to increase pressure within the volatile substance container and promote the delivery of the volatile substance from the volatile substance container.

Abstract: An apparatus for cleaning and/or disinfecting surfaces and objects includes a spray bottle that is refillable with an aqueous solution, the spray bottle including a nozzle and a container. The apparatus further includes a conduit in communication with the nozzle and an interior of the container, an actuator for pumping the aqueous solution from the interior of the container to outside the spray bottle through the nozzle, an ultraviolet light source in communication with the conduit configured to at least partially radiate the aqueous solution in the conduit, a power source in communication with the ultraviolet light source, and an actuator in electrical communication with the power source, the actuator configured to provide power to the ultraviolet light source upon actuation of the actuator.

Abstract: A volatile substance delivery system includes a volatile substance container to contain a volatile substance, an outlet to deliver a volume of the volatile substance from the volatile substance container to an ambient environment, and a manual screw pump to increase pressure within the volatile substance container and promote the delivery of the volatile substance from the volatile substance container.

Abstract: A volatile substance delivery system includes a volatile substance container to contain a volatile substance, a volatile substance delivery structure, and a volatile substance drop delivery system to deliver a drop of the volatile substance to the volatile substance delivery structure for delivery to an ambient environment.

Abstract: A delivery apparatus includes a volatile agent source, a controller, and an emanator material. The volatile agent source stores a volume of a volatile agent such as a fragrance. The volatile agent source includes an outlet for delivery of the volatile agent from the volatile agent source. The controller controls a delivery rate of the volatile agent from the volatile agent source. The emanator material is disposed at approximately the outlet of the volatile agent source. The emanator material absorbs at least a portion of the volatile agent and maintains the volatile agent until the volatile agent evaporates into an ambient environment.

Abstract: An orientation independent delivery device. The delivery device includes a gas chamber, a delivery chamber, a gas cell, and a delivery aperture. The gas chamber includes a gas-side rigid portion and a gas-side flexible barrier. The gas-side flexible barrier is sealed to the gas-side rigid portion. The delivery chamber includes a delivery-side rigid portion and a delivery-side flexible barrier. The delivery-side flexible barrier is sealed to the delivery-side rigid portion and is oriented adjacent to the gas-side flexible barrier. The gas cell is coupled to the gas-side rigid portion of the gas chamber. The gas cell increases a gas pressure within the gas chamber to expand the gas-side flexible barrier. Expansion of the gas-side flexible barrier applies a compressive force to the delivery-side flexible barrier allowing a delivery material to escape from the delivery chamber.

Abstract: A method of dispensing a fluid comprising generating a gas from a liquid, directing the gas to an expandable gas chamber to expand a volume of the expandable gas chamber, reducing a volume of a fluid chamber in response to expansion of the expandable gas chamber to dispense an amount of the fluid from the fluid chamber, and removing the gas from the expandable gas chamber to collapse the expandable gas chamber.

Abstract: A fluid delivery device can be used to deliver fluid within a living body. The fluid delivery device includes an electrochemical pump, a reservoir, a displaceable member, and a diffuse membrane. The electrochemical pump transports water and includes an electrochemical pump product chamber to retain water transported by the electrochemical pump. The reservoir contains a fluid to be delivered. The displaceable member is positioned between the electrochemical pump product chamber and the reservoir. The displaceable member is responsive to the electrochemical pump transporting water into the electrochemical pump product chamber. The diffuse membrane generates increased pressure within the electrochemical pump product chamber.

Abstract: An apparatus and method for applying a beneficial agent to the skin is disclosed in one embodiment of the invention as including first and second chemical reactants, each being compatible with the skin. The first and second chemical reactants react with one another to generate a beneficial agent and enhance the permeability of the skin (e.g., by generating heat). The beneficial agent may then be applied to the skin while the permeability of the skin is enhanced. In selected embodiments, the first chemical reactant includes one or more metals, or alloys thereof, that are compatible (i.e., not harmful) with the skin. Similarly, in selected embodiments, the second chemical reactant may include water. In certain embodiments, the beneficial agent generated by the first and second chemical reactants includes an antioxidant such as hydrogen.

Abstract: An apparatus for delivering a beneficial agent is disclosed in one embodiment of the invention as including a water collection chamber. A water-transporting membrane is provided to communicate with the water collection chamber. An extraction chamber receives water through the water-transporting membrane, expanding the extraction chamber. A dispensing chamber, containing a beneficial agent, is configured to contract upon expanding the extraction chamber. This causes the dispensing chamber to expel the beneficial agent through a subterranean delivery channel, such as a rigid hollow spike. In certain embodiments, a rate adjustment mechanism may control the rate that water is received through the water-transporting membrane, thereby controlling the rate the beneficial agent is expelled. The water-transporting membrane has features that repel osmagent from passing through to the water collection chamber.

Abstract: A method for delivering a beneficial agent is disclosed in one embodiment of the invention as including a water collection chamber. A water-transporting membrane is provided to communicate with the water collection chamber. An extraction chamber receives water through the water-transporting membrane, expanding the extraction chamber. A dispensing chamber, containing a beneficial agent, is configured to contract upon expanding the extraction chamber. This causes the dispensing chamber to expel the beneficial agent through a subterranean delivery channel, such as a rigid hollow spike. In certain embodiments, a rate adjustment mechanism may control the rate that water is received through the water-transporting membrane, thereby controlling the rate the beneficial agent is expelled. The water-transporting membrane has features that repel osmagent from passing through to the water collection chamber. The method features steady rate performance without refreshing the water chamber and low temperature sensitivity.

Abstract: An on-demand fluid dispenser to dispense fluid in response to gas generation by a gas cell. The on-demand fluid dispenser includes an expandable gas chamber, a fluid chamber, and an on-demand gas cell. The expandable gas chamber includes a moveable plunger forming a wall of the expandable gas chamber. The moveable plunger also forms a wall of the fluid chamber. The on-demand gas cell is configured to generate the gas on demand. The on-demand gas cell is also configured to direct the gas to the expandable gas chamber to expand the expandable gas chamber. Expansion of the expandable gas chamber moves the moveable plunger to reduce a volume of the fluid chamber and to dispense an amount of fluid from the fluid chamber.

Abstract: An apparatus for delivering a beneficial agent is disclosed in one embodiment of the invention as including a water collection chamber. A water-transporting membrane is provided to communicate with the water collection chamber. An extraction chamber receives water through the water-transporting membrane, expanding the extraction chamber. A dispensing chamber, containing a beneficial agent, is configured to contract upon expanding the extraction chamber. This causes the dispensing chamber to expel the beneficial agent through a subterranean delivery channel, such as a rigid hollow spike. In certain embodiments, a rate adjustment mechanism may control the rate that water is received through the water-transporting membrane, thereby controlling the rate the beneficial agent is expelled. The water-transporting membrane has features that repel osmagent from passing through to the water collection chamber.

Abstract: A disposable wound-healing device is disclosed that incorporates a housing having a fluid-impermeable material having a cavity and a perimeter that can be sealed in an air-tight manner over a wound region of a patient. The device is capable of producing a negative pressure over the wound region by either removing oxygen from within the cavity, or absorbing fluid into the cavity and then removing the fluid from the cavity. The oxygen may be removed via chemical absorption, by an electrochemical cell or by a chemical reaction that cannibalizes oxygen from the cavity. The fluid may be removed through the use of osmotic or electro-osmotic cells, or through a one-way valve. The negative partial pressure over the wound region promotes healing.

Abstract: The present invention is directed to an apparatus and method for controllably adjusting a fluid delivery device. The device includes an electrochemical pump capable of transporting a fluid. A displaceable member is positioned between a pump product chamber and a reservoir, wherein the pump product chamber is capable of retaining water generated from the pump. The displaceable member is controllably displaced upon generation of water from the electrochemical pump and the reservoir contains the fluid that is delivered upon displacement of the displaceable member.

Abstract: An apparatus for delivering a beneficial agent to a subterranean location is disclosed in one embodiment of the invention as including a water collection chamber having a substantially open end. A water-transporting membrane is provided to communicate with the water collection chamber. An extraction chamber receives water through the water-transporting membrane, expanding the extraction chamber. A dispensing chamber, containing a beneficial agent such as fertilizer, is configured to contract upon expanding the extraction chamber. This causes the dispensing chamber to expel the beneficial agent through a subterranean delivery channel, such as a rigid hollow spike. In certain embodiments, a rate adjustment mechanism may control the rate that water is received through the water-transporting membrane, thereby controlling the rate the beneficial agent is expelled from the subterranean delivery channel.

Abstract: A device for controllably releasing a fluid into an ambient environment. According to a particular embodiment of the present invention, the device comprises a housing having a fluid compartment and an orifice compartment disposed adjacent thereto and in fluid communication therewith via an orifice. The fluid compartment contains the fluid for release to the ambient environment. The orifice compartment includes a fluid exit opening covered by a removable sealing element and contains an initial quantity of fluid when the device is in an inactivated state. A fluid restrictor is disposed adjacent the orifice to restrict fluid flow from the fluid compartment into the orifice compartment in the inactivated state. A gas-generating cell is in selective communication with the fluid compartment such that gas generated by the cell is directed into the fluid compartment when the device is in an activated state.

Abstract: A fluid delivery device, comprising an electrochemical pump, wherein the pump is capable of transporting water; a pump product chamber, wherein the pump product chamber is capable of retaining water generated from the pump; a displaceable member positioned between the pump product chamber and a reservoir, wherein the displaceable member is controllably displaced upon generation of water from the electrochemical pump; a reservoir, wherein the reservoir is capable of containing a fluid which is delivered upon displacement of the displaceable member; and an housing for containing the pump, the pump product chamber, the displaceable member, and the reservoir.

Abstract: The invention includes apparatus and methods for electrotransport of a drug or other beneficial agent through a skin or mucosal membrane surface. In one embodiment, at least one of the cathode or anode electrode of an electrochemical cell is configured, at least in part, as an electroactive needle for insertion all or part way through the stratum corneum of a patient's skin. A reservoir containing a beneficial agent may be provided in fluid communication with one or more electroactive needles, in which case the electroactive needle(s) may be configured with a hollow bore interior for transport of the beneficial agent directly into a subject's tissues. In a related embodiment, an electroactive needle is configured for intravenous and/or intramuscular use. The invention also includes an electrotransport system comprising an electrochemically active porous substrate. In a further embodiment, the invention comprises an electrotransport system having one or more implantable active porous electrodes.