Nanostructured deposition and devices
First Claim
1. A process of deposition comprising:
- providing a feed comprising from the group consisting of solids and fluids;
providing a thermal reactor system to produce a vapor from the feed;
providing a zone to nucleate nanoscale powders from the vapor;
providing a thermal quench of said nucleated powders at rates of at least 1000°
C. per second through a converging-diverging nozzle;
providing a substrate in the diverging section of the nozzle; and
forming a nanostructured layer over the substrate.
11 Assignments
0 Petitions
Accused Products
Abstract
Ion conducting solid electrolytes are constructed from nanoscale precursor material. Nanocrystalline powders are pressed into disc structures and sintered to the appropriate degree of densification. Metallic material is mixed with 0 to 65 vol % nanostructured electrolyte powders to form a cermet mix and then coated on each side of the disc and fitted with electrical leads. The electrical conductivity of a Ag/YSZ/Ag cell so assembled exhibited about an order of magnitude enhancement in oxygen ion conductivity. As an oxygen-sensing element in a standard O2/Ag/YSZ/Ag/N2 set up, the nanocrystalline YSZ element exhibited commercially significant oxygen ion conductivity at low temperatures. The invention can be utilized to prepare nanostructured ion conducting solid electrolytes for a wide range of applications, including sensors, oxygen pumps, fuel cells, batteries, electrosynthesis reactors and catalytic membranes.
110 Citations
18 Claims
-
1. A process of deposition comprising:
-
providing a feed comprising from the group consisting of solids and fluids;
providing a thermal reactor system to produce a vapor from the feed;
providing a zone to nucleate nanoscale powders from the vapor;
providing a thermal quench of said nucleated powders at rates of at least 1000°
C. per second through a converging-diverging nozzle;
providing a substrate in the diverging section of the nozzle; and
forming a nanostructured layer over the substrate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A process for forming a nanostructured layer on a substrate comprising:
-
feeding a raw material to a thermal reactor system, wherein the raw material is a solid or a fluid;
producing a vapor from the raw material fed into the thermal reactor system and a zone to form nucleated vapor from the vapor;
quenching thermally the nucleated vapor through a converging-diverging nozzle to form a nucleated nanoscale powder, wherein said quenching through the nozzle has a rate of at least 1000°
C. per second; and
providing a substrate in a diverging section of the converging-diverging nozzle to form a nanostructured layer on the substrate. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
-
-
17. A method for forming a nanostructured coating comprising:
-
vaporizing a liquid precursor;
delivering the vaporized liquid precursor to a boundary-layer converging diverging nozzle, thereby forming a stream comprising of nanopowders; and
delivering the stream comprising of nanopowders to a substrate, thereby forming a nanostructured coating on the substrate. - View Dependent Claims (18)
-
Specification