A microchip security protection glove device for protecting personal microchips implanted in the hand of the user includes a glove worn on a hand of the user. The glove is a radio frequency identification blocking material being configured for protecting a personal information stored within a personal microchip implanted within the hand of the user. The glove further includes a plurality of finger sleeves, a thumb sleeve, a back sleeve, a palm sleeve, and a wrist sleeve. The wrist sleeve has an opening where a band is positioned on. The band compresses the opening against an arm of the user when the glove is positioned on the hand of the user. An access of the glove provides passage through the glove to the personal microchip implanted within the hand of the user. The access has a flap being positioning from a closed position to an open position.

The present invention is directed to antistatic elastomeric articles and methods of making the same. The articles can be single layered or multilayered. The single layered articles possess desirable antistatic properties and desirable properties of comfort and feel. The multilayered articles have an outermost layer/surface that possesses desirable antistatic properties and an innermost layer/surface that exhibits desirable properties of comfort and feel. In preferred embodiments, the elastomeric articles are made form a nitrile/natural rubber blend. Articles of the present invention have antistatic properties measured as having a surface resistivity below about 10.sup.14 /sq and a static decay time of less than about 60 seconds.

The present invention is directed to antistatic elastomeric articles and methods of making the same. The articles can be single layered or multilayered. The single layered articles possess desirable antistatic properties and desirable properties of comfort and feel. The multilayered articles have an outermost layer/surface that possesses desirable antistatic properties and an innermost layer/surface that exhibits desirable properties of comfort and feel. In preferred embodiments, the elastomeric articles are made form a nitrile/natural rubber blend. Articles of the present invention have antistatic properties measured as having a surface resistivity below about 10.sup.14 /sq and a static decay time of less than about 60 seconds.

A medical gown (701) includes a layer of material (100) with a seam (401) disposed across the layer of material. The material can include a weave (110) of untwisted, continuous filament polyester. The material can also include a carbon filament (109). The seam is sealed by applying a tape (200) across the seam and applying heat to cause the tape to attach to the weave.

Disclosed herein are protective garments and methods for using the same. In one aspect, the garment includes a garment body configured to be worn on a portion of a wearer's body, the garment body comprising at least one protective segment configured to block a predetermined level of radiation. Also disclosed herein are method of making the disclosed garments and methods for using the disclosed garments.

A wearable charging device for the palm of one's hand. It is meant to recharge today's typical cell phone (or other electronic device) while that phone (or device) is being held and in use. A first embodiment incorporates a wireless charging station into the palm region of a wearable glove. An alternative version extends a replaceable, rechargeable power bank front or rear glove face, or into a lower cuff region of the glove.

A wearable charging device for the palm of one's hand. It is meant to recharge today's typical cell phone (or other electronic device) while that phone (or device) is being held and in use. A first embodiment incorporates a wireless charging station into the palm region of a wearable glove. An alternative version extends a replaceable, rechargeable power bank front or rear glove face, or into a lower cuff region of the glove.

A garment for measuring biological information equipped with an electrode and wiring, with which noise can be prevented from being mixed in to the biological electric signals to be read, and with which a wearer feels less discomfort, even under dry condition while the garment is worn. Static electrical charge generated while the garment is worn is suppressed to decrease the noise in the biological electric signals to be read by selecting a combination of electrically insulating materials constituting the garment that have smaller gap of frictional electrostatic voltage, as well as using the electrode and wiring that are stretchy and have high conductivity even when being stretched to reduce discomfort while the garment is worn.

A garment for measuring biological information equipped with an electrode and wiring, with which noise can be prevented from being mixed in to the biological electric signals to be read, and with which a wearer feels less discomfort, even under dry condition while the garment is worn. Static electrical charge generated while the garment is worn is suppressed to decrease the noise in the biological electric signals to be read by selecting a combination of electrically insulating materials constituting the garment that have smaller gap of frictional electrostatic voltage, as well as using the electrode and wiring that are stretchy and have high conductivity even when being stretched to reduce discomfort while the garment is worn.

A yarn comprising a plurality of bicomponent filaments having a first region comprising a first polymer composition and a second region comprising a second polymer composition, each of the first and second regions being distinct in the bicomponent filaments; each bicomponent filament comprising 5 to 60 weight percent of the first polymer composition and 95 to 40 weight percent of the second polymer composition; wherein the first polymer composition comprises aramid polymer containing 0.5 to 20 weight percent discrete homogeneously dispersed carbon particles and the second polymer composition comprises modacrylic polymer being free of discrete carbon particles; the yarn having a total content of 0.1 to 5 weight percent discrete carbon particles.