Abstract:
A dispersion of IR absorption particles is provided, which includes 100 parts by weight of IR absorption particles, 5 to 30 parts by weight of diblock copolymer, and 200 to 910 parts by weight of water, wherein the diblock copolymer includes (a) first block of and (b) second block of wherein (a) first block is chemically bonded to (b) second block; R1 is H or CH3; R2 is H or CH3; R3 is R4 is C1-10 alkyl group; M⊕ is Na+, NH4+, or NH(C2H4OH)3+; m=10-20; n=2-20; and x=0-4.
Abstract:
An inkjet ink is provided. The inkjet ink includes a modified high-performance engineering plastic, a polar solvent, and a wetting agent. Additionally, a 3D printing method and a 3D printing object are provided. The modified high-performance engineering plastic includes modified polyphenylene sulfide, modified polyether-ether-ketone, modified polyether sulfone, modified polyphenylsulfone, or modified polysulfone.
Abstract:
Disclosed is a method of manufacturing an organic-inorganic composite film. The method includes co-sputtering an inorganic target and a fluorine-containing organic polymer target, thereby simultaneously depositing atoms from the inorganic target and atoms from the fluorine-containing organic polymer target on a substrate. As such, an organic-inorganic composite film is obtained. The organic-inorganic composite film includes a homogeneous, amorphous, and nonporous material composed of carbon, fluorine, oxygen and/or nitrogen, and M. M can be silicon, titanium, aluminum, chromium, or combinations thereof.
Abstract:
A method of manufacturing an iron-based alloy coating is provided, which includes (a) providing an iron-based alloy powder having a chemical formula of FeaCrbMocSidBeYf, wherein 48≦a≦50; 21≦b≦23; 18≦c≦20; 2≦d≦3; 2≦e≦4; and 0
Abstract:
A method of manufacturing an organic-inorganic composite film is provided. The method includes co-sputtering an inorganic target and a fluorine-containing organic polymer target, thereby simultaneously depositing atoms from the inorganic target and atoms from the fluorine-containing organic polymer target on a substrate. As such, an organic-inorganic composite film is obtained. The organic-inorganic composite film includes a homogeneous, amorphous, and nonporous material composed of carbon, fluorine and/or chlorine, oxygen and/or nitrogen, and inorganic element M. The inorganic element M forms chemical bondings with carbon, fluorine, chlorine, oxygen and/or nitrogen, and wherein the bond length forms therefore is less than 2.78 Å.
Abstract:
A reaction device for chemical vapor deposition is disclosed. The reaction device includes a chamber, a susceptor, an inlet pipe unit and an outlet pipe. The susceptor is disposed within the chamber. The inlet pipe unit includes a plurality of feeding openings horizontally facing the peripheral area of the susceptor to input at least one reaction gas into the chamber. The at least one reaction gas is guided to move from the peripheral area of the susceptor and along a surface of the susceptor to reach the center of the susceptor. The outlet pipe includes a discharge opening whose position is corresponding to the center of the susceptor so as to discharge the reaction gas flowing to the center of the susceptor out of the chamber.