Abstract: This invention is directed to materials and devices for sensing bio-potential signals from animals, particularly to sensing bio-potential signals to monitor humans in the medical field. In general, bio-potential sensors may be attached to the body of an animal, such as a human, in order to receive bio-potential signals such that information about the bioelectrical properties of the cells and/or tissues of the animal may be gathered. The bio-potential sensor may generally include a dry electrode that may be placed in contact with the skin of an animal to receive bio-potential signals from the animal. A dry electrode may generally include an electrically conductive solid material which may conduct electrical signals from an animal.

Abstract: This invention is directed to materials and devices for sensing bio-potential signals from animals, particularly to sensing bio-potential signals to monitor humans in the medical field. In general, bio-potential sensors may be attached to the body of an animal, such as a human, in order to receive bio-potential signals such that information about the bioelectrical properties of the cells and/or tissues of the animal may be gathered. The bio-potential sensor may generally include a dry electrode that may be placed in contact with the skin of an animal to receive bio-potential signals from the animal. A dry electrode may generally include an electrically conductive solid material which may conduct electrical signals from an animal.

Abstract: A method for purifying a suspension containing colloid-seeded nanoparticles and excess colloids is provided that includes adding to the suspension a filter aid comprising a salt. The method further includes filtering the suspension with a filter of a pore size intermediate between the average colloid-seeded nanoparticle size and the average excess colloid size, so as to form a retentate that includes the majority of the colloid-seeded nanoparticles and a filtrate that includes the majority of the excess colloids. Still further, the method includes collecting the retentate. The method may be incorporated into a method of making metallized nanoparticles, such as nanoshells, by reduction of metal ions onto the purified colloid-seed nanoparticles so as to form the metallized nanoparticles.

Abstract: Methods and apparatus for providing nanoparticles having reduced symmetry are disclosed. One embodiment of a preferred method for producing such nanoparticles includes functionalization of a nanoparticle core, partial chemical passivation or masking of the nanoparticle surface, and nucleation and deposition of colloidal particles to selectively coat a specific section of the nanostructure surface with a conducting material.

Abstract: A method for purifying a suspension containing colloid-seeded nanoparticles and excess colloids is provided that includes adding to the suspension a filter aid comprising a salt. The method further includes filtering the suspension with a filter of a pore size intermediate between the average colloid-seeded nanoparticle size and the average excess colloid size, so as to form a retentate that includes the majority of the colloid-seeded nanoparticles and a filtrate that includes the majority of the excess colloids. Still further, the method includes collecting the retentate. The method may be incorporated into a method of making metallized nanoparticles, such as nanoshells, by reduction of metal ions onto the purified colloid-seed nanoparticles so as to form the metallized nanoparticles.