A glove of a type worn to provide masking effect between a wear's hand and another surface, such as surface of food stuff. The glove, or fragments thereof, is rendered detectable by X-ray and/or metal detection apparatus. Apparatus and/or indication means can be provided to allow a detected glove or glove portion to be allocated to a particular location and/or personnel to allow, if necessary, remedial action to be taken.

A face mask having mechanical, chemical, and electrostatic barriers to the movement of a material into and out of a face mask are described herein. Various examples of the face mask described herein use electrostatic charges to capture and, in some examples, inactivate viruses, germs, fungi, or bacteria (or other material). The use of a biocidal agent combined with electrostatic charges provides an additional measure for capturing and inactivating at least a portion of pathogen(ic) microorganisms.

Face coverings that protect the facial T-Zone region (i.e., eyes, nose, and mouth) from airborne transmission of infectious and other harmful particles are disclosed. The face coverings disclosed herein are designed to attach to the temples, frames, and/or the bridge of eyewear, which provides protection for the eyes of the wearer and dispenses of the need to adjust straps traditionally found on face masks. The face coverings may be converted to different configurations depending on the amount of protection and comfort desired by the wearer. For example, the face coverings disclosed herein can convert from a free-hanging position to a more protective configuration in which the mask conforms closely to the face of the wearer.

Face coverings that protect the facial T-Zone region (i.e., eyes, nose, and mouth) from airborne transmission of infectious and other harmful particles are disclosed. The face coverings disclosed herein are designed to attach to the temples, frames, and/or the bridge of eyewear, which provides protection for the eyes of the wearer and dispenses of the need to adjust straps traditionally found on face masks. The face coverings may be converted to different configurations depending on the amount of protection and comfort desired by the wearer. For example, the face coverings disclosed herein can convert from a free-hanging position to a more protective configuration in which the mask conforms closely to the face of the wearer.

An innovative high-energy oxidative method using metallic copper and chlorine liquid to produce a superior copper chloride II element using electromagnetic induction and magnetic forces. This invention involves copper undergoing oxidation while in its highest energy state according to basic principles of electromotive forces described in Faraday's law. The copper attaches to a magnetic receptacle and held in place by a copper lid cover. Research studies demonstrate that metallic copper is not magnetic; however, when a magnetic field approaches copper, the electrons and subatomic particles forms a higher resistance against the magnets—Generating a force field response towards the approaching magnets. The oxidation of copper in its highest energy state provides additional improvements and benefits in copper's antimicrobial and antiviral properties. This new method for oxidizing copper chloride in its highest subatomic energy state provides vast improvements and coverage in the fight against microorganisms and the invisible pathogens abroad.

Apparatuses of electrochemical antimicrobial face masks and methods for manufacturing the same are provided. In one embodiment, an electrochemical antimicrobial face mask may include an electrochemical antimicrobial section configured to inactivate microbes that are in contact with the electrochemical antimicrobial section, and a filtration section configured to provide additional protection that prevents a user from breathing in the microbes, and where the electrochemical antimicrobial section is attached to the filtration section. The electrochemical antimicrobial section may include a galvanic corrosion cell membrane configured to generate antimicrobial agents via a galvanic electrochemical reaction, a hydrophilic antimicrobial membrane configured to inactivate microbes using the antimicrobial agents, and a regeneration pad configured to supply materials to the galvanic corrosion cell membrane for generating the antimicrobial agents.

Methods and devices for rendering hand gloves antibacterial are disclosed. A hand glove comprising a non-woven, porous, and/or hydrophobic sheet can be impregnated with a sanitizing-based solution on an exterior surface. The sanitizing-based solution, which can be a porous alcohol or a non-alcohol based solution that contains functional ingredients can be used to kill germs and bacteria during initial contact with surfaces. After impregnation with the sanitizing-based solution, the hand glove can provide functionality that allows the sanitizing-based solution to uniformly adhere to the hand glove such that a gloved hand can touch and clean surfaces while keeping hands protected and safeguarded.

Methods and devices for rendering hand gloves antibacterial are disclosed. A hand glove comprising a non-woven, porous, and/or hydrophobic sheet can be impregnated with a sanitizing-based solution on an exterior surface. The sanitizing-based solution, which can be a porous alcohol or a non-alcohol based solution that contains functional ingredients can be used to kill germs and bacteria during initial contact with surfaces. After impregnation with the sanitizing-based solution, the hand glove can provide functionality that allows the sanitizing-based solution to uniformly adhere to the hand glove such that a gloved hand can touch and clean surfaces while keeping hands protected and safeguarded.

The present invention relates generally to the field of garment fabrics. More specifically, the present invention relates to an insulated garment fabric device comprised of a front layer, a rear layer and a middle layer between the front and rear layer. The front and rear layers are preferably manufactured from a fabric material. The middle layer is preferably manufactured from an insulated material such as, but not limited to, biaxially-oriented polyethylene terephthalate or heat conducting-foil. The front and rear layers may further be comprised of indicia and may be infused with a plurality of compounds. In addition, the device is comprised of a method of manufacture and use, wherein the device can be used to make garments and other objects such as, but not limited to: blankets.

A smart mask includes a first material layer, at least one display, a first sensor, and a control module. The first material layer is configured to cover a portion of a face of a person. The at least one display is connected to the first material layer and configured to display images over a mouth of the person. The first sensor is configured to detect movement of the mouth of the person and generate a signal indicative of the movement of the mouth. The control module is configured to receive the signal and display the images on the display based on the movement of the mouth.