• 专利标题:   Reactor assembly comprises gas inlet and one or more gas outlets, reactor chamber containing nanoporous carbon material, first porous frit defining floor of reactor chamber, second porous frit defining ceiling of the reactor chamber.
  • 专利号:   US2021292896-A1, US11447860-B2
  • 发明人:   NAGEL C J, BRODEUR C L
  • 专利权人:   QUANTUM ELEMENTS DEV INC, QUANTUM ELEMENTS DEV INC
  • 国际专利分类:   C01B032/15, C23C016/06, C23C016/48, C23C016/52, C23C016/02, C23C016/44, B82Y030/00, B82Y040/00, C01B032/194, C23C016/04, C23C016/452, C23C016/505
  • 专利详细信息:   US2021292896-A1 23 Sep 2021 C23C-016/44 202193 English
  • 申请详细信息:   US2021292896-A1 US952923 19 Nov 2020
  • 优先权号:   US948450P, US952923

▎ 摘  要

NOVELTY - Reactor assembly comprises gas inlet and one or more gas outlets, reactor chamber containing nanoporous carbon material, first porous frit defining floor of the reactor chamber, second porous frit defining the ceiling of the reactor chamber. The porous frit has porosity that is sufficient to allow gas to permeate into reactor chamber and contains nanoporous carbon material. The reactor head space is provided above the reactor cap, 2, 3, 4, 5 or more RA coils are surrounded the reactor chamber and/or reactor head space is operably connected to one or more RA frequency generators and one or more power supplies, 2, 3, 4, 5 or more pairs of RA lamps are provided circumferentially around the RA coils and define space between the pairs of RA lamps and the RA coils, x-ray source is configured to expose the reactor chamber to x-rays. USE - Reactor assembly. ADVANTAGE - The reactor assembly improves the quality of the product. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: a apparatus, which includes housing is closed and opaque, internal gas line is transparent and external gas line in fluid connection with the housing outlet and gas inlet is opaque; and#a method for producing nanoporous carbon composition, which involves initiating gas flow in reactor assembly, independently powering each RA coil to first electromagnetic energy level, powering the one or more RA frequency generators and applying frequency to each RA coil, independently powering each RA lamp, independently powering each laser, powering the x-ray source, subjecting nanoporous carbon powder to harmonic electromagnetic resonance in ultramicropores of the nanoporous carbon powder to instantiate elemental metal nanostructure in a nanopore;#a method for instantiating elemental metal within ultramicropore of nanoporous carbon powder, which involves initiating gas flow in reactor assembly, independently powering each E/MEE pencil lamp, powering short wave lamp and long wave lamp, powering E/MEE coil, wrapping around the internal gas line, independently powering each RA coil to first electromagnetic energy level, powering the one or more RA frequency generators and applying frequency to each RA coil, independently powering each RA lamp, independently powering each laser, powering the x-ray source, independently rotating one or more E/MEE pencil lamps, subjecting the nanoporous carbon powder to harmonic electromagnetic resonance in ultramicropores of the nanoporous carbon powder to instantiate elemental metal nanostructure in a nanopore; and#a method for quantum printing elemental metal within nanoporous carbon powder, which involves initiating gas flow in reactor assembly, independently powering each E/MEE pencil lamp, powering short wave lamp and long wave lamp, powering E/MEE coil, wrapping around the internal gas line, independently powering each RA coil to first electromagnetic energy level, powering the one or more RA frequency generators and applying frequency to each RA coil, independently powering each RA lamp, independently powering each laser, powering the x-ray source, independently rotating one or more E/MEE pencil lamps, subjecting the nanoporous carbon powder to harmonic electromagnetic resonance in ultramicropores of the nanoporous carbon powder to instantiate an elemental metal nanostructure in a nanopore.