• 专利标题:   Performing quantum printing metal within nanoporous carbon powder involves adding nanoporous carbon powder into reactor assembly (RA) comprises gas inlet and one or more gas outlets, reactor chamber containing nanoporous carbon powder.
  • 专利号:   US2021301399-A1, US11535933-B2
  • 发明人:   NAGEL C J
  • 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:   US2021301399-A1 30 Sep 2021 C23C-016/44 202102 English
  • 申请详细信息:   US2021301399-A1 US952925 19 Nov 2020
  • 优先权号:   US948450P, US952925

▎ 摘  要

NOVELTY - Performing quantum printing metal within nanoporous carbon powder involves adding nanoporous carbon powder into reactor assembly (RA) comprises gas inlet and one or more gas outlets, reactor chamber containing nanoporous carbon powder, 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 a gas to permeate into the reactor chamber and contain nanoporous carbon material, reactor head space is provided above the reactor cap, 2, 3, 4, 5 or more RA coils surrounding the reactor chamber and/or reactor head space are 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. USE - Method for performing quantum printing metal within nanoporous carbon powder. ADVANTAGE - The method enables to perform quantum printing metal within nanoporous carbon powder that improves the quality of the products. DETAILED DESCRIPTION - Performing quantum printing metal within nanoporous carbon powder involves adding nanoporous carbon powder into reactor assembly (RA) comprises gas inlet and one or more gas outlets, reactor chamber containing nanoporous carbon powder, 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 a gas to permeate into the reactor chamber and contain nanoporous carbon material, reactor head space is provided above the reactor cap, 2, 3, 4, 5 or more RA coils surrounding the reactor chamber and/or reactor head space are 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. The pairs of RA lamps are provided circumferentially around the RA coils and define space between pairs of RA lamps and the RA coils, one or more lasers are configured to direct laser towards the reactor chamber and computer processing unit is configured to control the power supply, frequency generator, x-ray source and one or more lasers. The gas free of metal salts and vaporized metals are added to the reactor assembly, powered the one or more RA coils to a first electromagnetic energy level. The nanoporous carbon powder is subjected to harmonic patterning to deposit elemental metal nanostructures. An INDEPENDENT CLAIM is included for a nanoporous carbon powder, which comprises metal nano-deposit array of multiple of discrete rows of metal nano-deposits.