▎ 摘　　要

NOVELTY - Graphene containing composition comprises greater than or equal to 3.5% graphene component (a) containing monolayer graphene and/or multilayered graphene and graphite component (b) where multilayered graphene consists of less than or equal to 10 layers of carbon atoms. USE - A graphene containing composition e.g. multilayered hydrogen graphene composition for product e.g. paints, coatings, cement, concrete, steel, plastics, sealant, anti-corrosion agent, anti-weathering agent, salt water shield, anti-fouling agent, conductivity enhancing agent, thermal insulation barrier, electromagnetic pulse barrier, radio frequency modulation barrier, magnetic levitation agent, fire resistant agent, heat conductor, battery, capacitor storage, adhesion promoters, anti-friction additives, flooring, ships hulls, spoiling goods, fire retardant, de-icing agent, electronic circuits, insulation material and printed or three-dimensional printed circuit, Berry Phase switch, spintronic induction based transistor, a superconductor, sensors, embedded electronics, coating, concrete, cement, paints, additive, composites, sporting goods, plastics, protecting film, friction coating, steel, rubber, polymers, thermally conductive materials, filtration materials, supercapacitors, building materials, anti-corrosive agent, electromagnetic pulse barrier, radio frequency modulation barrier, wires, capacitors, glass, solar panels, and U/V protecting agents (all claimed). ADVANTAGE - Composition is low-cost, has natural binding ability, and is easy to manufacture, products on the market. Pristine condition of graphene component gives composition less hydrophobic and predominantly hydrophilic than other commercial graphene products, intact crystalline structure within graphene single sheet, good electrical conductivity, and essentially free of oxygen. Multilayered hydrogen bonded graphene composition has superior electrical and thermal conductivity. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for: (1) utilizing graphene containing composition which involves providing graphene containing composition and adding graphene containing composition to product; (2) making graphene containing composition which involves mixing isopropyl alcohol, acetone, distilled water, and graphite water to form graphite suspension, high speed blending graphite suspension at greater than or equal to 120 degrees F from 1-10 hours, applying vacuum to graphite suspension during blending, heating graphite suspension during blending, and drying blended graphite suspension to obtain graphene containing composition where distilled water is ionized water; (3) multilayered hydrogen graphene composition comprising greater than or equal to 3% hydrogen graphene containing hydrogen intercalated with graphene layers and consists of 2-8 layers of graphene, and hydrogen graphite containing hydrogen intercalated graphite layers and 20-100 layers of graphite; (4) printed or three-dimensional printed circuit comprising multilayered hydrogen graphene composition where circuit has conductivity of 2.14x 10-4 Siemens/m and resistance of 0.1 Omega .cm; (5) utilizing multilayered hydrogen graphene composition which involves providing multilayered hydrogen graphene composition and adding multilayered hydrogen graphene composition to product; and (6) manufacturing multilayered hydrogen graphene composition which involves mixing isopropyl alcohol, acetone, distilled water to ionic solvent, soaking graphite in ionic solvent for 8-24 hours to form presoaked graphite suspension, high speed blending presoaked graphite suspension at greater than or equal to 120 degrees F from 1-10 hours, applying vacuum to presoaked graphite suspension during blending, heating presoaked graphite suspension during blending, and drying blended graphite suspension to obtain multilayered hydrogen graphene composition where distilled water is ionized water.