Abstract: An ambient pressure Atomic Layer Deposition (ALD) technique to grow uniform silica layers onto organic substrates at low temperatures, including room temperature, is described. For example, tetramethoxysilane vapor is used alternately with ammonia vapor as a catalyst in an ambient environment.

Abstract: This invention provides a new procedure for attaching molecules to semiconductor surfaces, in particular silicon. The molecules, which include, but are not limited to porphyrins and ferrocenes, have been previously shown to be attractive candidates for molecular-based information storage. The new attachment procedure is simple, can be completed in short times, requires minimal amounts of material, is compatible with diverse molecular functional groups, and in some instances affords unprecedented attachment motifs. These features greatly enhance the integration of the molecular materials into the processing steps that are needed to create hybrid molecular/semiconductor information storage devices.

Abstract: Provided is a micro electro mechanical systems (MEMS) device for use with an elongate structure. The MEMS device includes a generally planar substrate, a device wall layer formed upon the substrate, a septum cavity formed in the device wall layer, a channel formed in the device wall layer in fluid communication with the septum cavity, and a septum element disposed in the septum cavity. The septum element is formed of a viscoelastic material. The septum element defines a septum entry surface and a septum exit surface with the septum exit surface being exposed to the channel and disposed between the septum entry surface and the channel. The septum element is without any openings formed through the septum element extending between the septum entry and exit surfaces. Methods of manufacturing and interacting with the MEMS device are also provided.

Abstract: A method of forming an organic film is provided and includes followings. An apparatus is provided and includes a gas storage chamber, an evaporator, a pressure gauge, a pyrolysis chamber connected with the gas storage chamber, and a deposition chamber. The evaporator connects with the pyrolysis chamber through the gas storage. An organic material in the evaporator is evaporated to form organic gas, wherein the organic gas is passed into the gas storage chamber. When pressure of the organic gas in the gas storage chamber, measured by the pressure gauge, reaches a predetermined value, a valve between the evaporator and the gas storage chamber is turned off and another valve is turned on for passing the organic gas into the pyrolysis chamber. The organic gas is pyrolyzed in the pyrolysis chamber to form a monomer. The monomer is delivered to the deposition chamber for deposition to form an organic film.

Abstract: A method for rendering a substrate hydrophobic includes treating the substrate with an acyloxysilane. The treatment includes impregnating the substrate with an acyloxysilane and thereafter curing (hydrolyzing and condensing the acyloxysilane) to form a silicone resin. The method is particularly useful for rendering paper hydrophobic.

Abstract: The present invention uses vacuum deposited thin films of material to create an interface that non-preferentially interacts with different domains of an underlying block copolymer film. The non-preferential interface prevents formation of a wetting layer and influences the orientation of domains in the block copolymer. The purpose of the deposited polymer is to produce nanostructured features in a block copolymer film that can serve as lithographic patterns.

Abstract: Preparation of semiconductor nanocrystals and their dispersions in solvents and other media is described. The nanocrystals described herein have small (1-10 nm) particle size with minimal aggregation and can be synthesized with high yield. The capping agents on the as-synthesized nanocrystals as well as nanocrystals which have undergone cap exchange reactions result in the formation of stable suspensions in polar and nonpolar solvents which may then result in the formation of high quality nanocomposite films.

Abstract: An apparatus for processing coating material includes a crucible having a cylindrical receptacle for receiving coating material, a drive member having a drive shaft, and a cover coupled to the drive shaft. The cover has a flat surface. The drive shaft is configured to drive the cover to rotate thereabout between a closed position where the cover covers the receptacle and the flat surface presses against the coating material to flatten the coating material, and an open position where the cover is moved away from the receptacle.

Abstract: A method for rendering a substrate hydrophobic while maintaining its biodegradability includes treating the substrate with a halosilane such that the halosilane forms a silicone resin in the interstitial spaces of the substrate. The method parameters can be controlled such that the resulting hydrophobic cellulosic substrate is compostable.

Abstract: Molybdenum (IV) amide complexes are disclosed herein corresponding in structure to Formula (I): wherein: L is —NR1R2; R1 and R2 are C1-C6-alkyl or hydrogen; R is C1-C6-alkyl; and n is zero, 1, 2 or 3. Further, methods of forming MoO2 films by atomic layer deposition (ALD) using Formula (I) complexes and Mo[N(Me)(Et)]4 are disclosed herein.

Abstract: The embodiments disclose a method of surface tension control to reduce trapped gas bubbles in an imprint including modifying chemistry aspects of interfacial surfaces of an imprint template and a substrate to modify surface tensions, differentiating the interfacial surface tensions to control interfacial flow rates of a pre-cured liquid resist and controlling pre-cured liquid resist interfacial flow rates to reduce trapping gas and prevent trapped gas bubble defects in cured imprinted resist.

Abstract: A method of producing a parylene coating on at least one surface of at least one component includes providing a first gas containing parylene monomers and depositing the parylene monomers on the at least one surface of the component by supplying the first gas containing the parylene monomers by a first nozzle to the at least one surface, wherein the component is disposed in an environment at atmospheric pressure.

Abstract: A glass-flake loaded organic sealant system is useful for sealing active layers such as those in electronic devices and solar cells.

Abstract: Coating an elongate, uncoated conductive element with a substantially continuous barrier layer. An uncoated conductive element is around a frame comprising spaced supports. During deposition, the relative position of the conductive element to the frame is adjusted so that all sections of the conductive element are physically separated from the supports for a time that is sufficient to form a desired coating of barrier material on all sections of the conductive element.

Abstract: A gas-barrier film comprising an organic layer and an inorganic layer on a substrate film, wherein the organic layer is formed by vacuum vapor deposition of a composition containing a radical-polymerizable monomer and a polymerization initiator, followed by curing the composition, the polymerization initiator being liquid at 30° C. under one atmosphere and/or having a melting point of not higher than 30° C. The gas-barrier film has a low water vapor permeability.

Abstract: A thin film of a uniform film thickness is formed even without increasing the film deposition rate. The temperature of an evaporation device disposed in an evaporation chamber is raised in advance, and an organic material is dropped from a supply unit onto an evaporation surface of the evaporation device; and when the organic material is evaporated, a heated carrier gas is introduced into the evaporation chamber, and is mixed in the evaporation chamber and is introduced into a discharger. While a molecular flow is formed in the discharger in a case that only the organic material vapor is introduced into the discharger, the pressure within the discharger is raised due to the carrier gas, so that a viscous flow is formed and the mixed gas is filled in the discharger and is uniformly discharged. The organic material may be supplied by a small amount and the film deposition rate may not become too high.

Abstract: Disclosed is a barrier laminate comprising at least one organic layer and at least one inorganic layer, wherein the organic layer is formed by vacuum vapor deposition of a composition containing a radical-polymerizing monomer and a polymerization initiator, followed by curing the composition, and the polymerization initiator is liquid at 30° C. under one atmosphere and/or has a melting point of not higher than 30° C.

Abstract: In a metal processing method, a photoresist liquid is applied to both surfaces of a metal plate (210) to form photoresist films (220, 230), respectively (Step S102). Subsequently, the photoresist films (220, 230) are exposed and developed so that the photoresist films (220, 230) is removed while leaving the photoresist films (220, 230) corresponding to portions in which a hole is to be formed (Step S103). Next, metal thin films (240, 250) are formed on both the surfaces of the metal plate (210), respectively, on which the photoresist films (220, 230) are formed (Step S104). Subsequently, the photoresist films (220, 230) are removed, and metal thin films (245, 255) are also removed, which are formed on the photoresist films (220, 230), respectively (Step S105). Finally, the metal plate (210) is immersed in an etchant to be etched, to thereby form a high-precision hole in the metal plate (210) (Step S106).

Abstract: Disclosed is a precursor composition comprising: a compound selected from a compound represented by the formula: Si(OR1)4 and a compound represented by the formula Ra(Si)(OR2)4?a (in the formulas R1 represents a monovalent organic group; R represents a hydrogen atom, a fluorine atom or a monovalent organic group; R2 represents a monovalent organic group; and a is an integer ranging from 1 to 3, provided that R, R1 and R2 may be the same or different from one another) a thermally degradable organic compound; an element having a catalyst activity; urea; and the like. A porous thin film produced from the precursor composition is irradiated with ultraviolet ray, and then subjected to gas-phase reaction with a hydrophobic compound. A porous thin film thus prepared can be used for the manufacture of a semiconductor device.

Abstract: A method for depositing a conformal film on a substrate in a plasma processing chamber of a plasma processing system, the substrate being disposed on a chuck, the chuck being coupled to a cooling apparatus, is disclosed. The method includes flowing a first gas mixture into the plasma processing chamber at a first pressure, wherein the first gas mixture includes at least carbon, and wherein the first gas mixture has a condensation temperature. The method also includes cooling the chuck below the condensation temperature using the cooling apparatus thereby allowing at least some of the first gas mixture to condense on a surface of the substrate. The method further includes venting the first gas mixture from the processing chamber; flowing a second gas mixture into the plasma processing chamber, the second gas mixture being different in composition from the first gas mixture; and striking a plasma to form the conformal film.

Abstract: Provided are biodegradable polylactic acid based film compositions. In one form, the film composition provided includes from 90 to 99 wt. % of one or more polylactic acid resins and from 1 to 10 wt. % of one or more polyterpene resin additives based on the total film structure. The film exhibits a lower water vapor transmission rate. Also provided are methods of making and using such film compositions.

Abstract: Porous media may be infused with a layer of chemical upon an extended surface of the porous media by forming a vapor of the chemical and condensing the vapor onto exposed surfaces of the porous media.

Abstract: An organic thin film deposition system is disclosed. The organic thin film deposition system includes: a plurality of crucibles each having an inlet capable of selectively being opened and closed; an organic composite material made up of two or more organic materials and having an initial composition ratio, the organic composite material for placing in the plurality of crucibles; and a transferring unit for controlling a position of the plurality of crucibles.

Abstract: A gas barrier film having excellent gas barrier properties (e.g., barrier properties against water vapor), a production process of the film, and a device provided with the film are provided. A gas barrier film 10 having high gas barrier properties (e.g., barrier properties against water vapor) is obtainable by forming an anchor layer 12 on at least one side of a base film 11 and forming a barrier layer 13 on the anchor layer, wherein the anchor layer is formed from a cured product of a polymerizable composition containing at least a silicone (meth)acrylate monomer and/or prepolymer, and the barrier layer contains a metal or a metal compound.

Abstract: A method of producing a gas barrier laminate comprises: the steps of forming an inorganic compound layer on a substrate by vapor-phase film deposition, applying surface roughening treatment to a surface of the inorganic compound layer, and subsequently forming an organic compound layer on the roughened surface of the inorganic compound layer by flash evaporation.

Abstract: A copolymer composition comprising monomers copolymerized in the following percentages by weight: (a) from about 20% to about 95% of a monomer, or mixture of monomers, of formula (I): CnF2n+1(CH2)x[(CF2CF2)y(CH2CH2)z]m-L-C(O)—C(R)?CH2??(I) wherein R is H, Cl, F or CH3, L is O, S, NH, S—(CH2)rO, S—(CH2)rNH, OC(O)NH—CH2CH2O, NHC(O)NHCH2CH2O, S—(CH2)rOC(O)NHCH2CH2O, or S(CH2)rNHC(O)NHCH2CH2O, and (b) from about 5% to about 80% of at least one of: (i) an alkyl (meth)acrylate monomer having a linear, branched or cyclic alkyl group of from about 6 to about 18 carbons; or (II) a monomer of formula (II) (R2)2N—R3—O—C(O)—C(R)?CH2??(II) wherein R is H, Cl, F or CH3, each R2 is independently a C1 to C4 alkyl; and R3 is a divalent linear or branched C1 to C4 alkylene; and wherein the nitrogen is from about 40% to 100% salinized; or (iii) a mixture thereof.

Abstract: Methods are provided for vapor deposition coating of hydrophobic materials and applications thereof. The method for making a hydrophobic material includes providing a natural mineral, providing a silicone-based material, heating the silicone-based material to release vaporous molecules of the silicone-based material, and depositing the vaporous molecules of the silicone-based material to form a layer of the silicone-based material on surfaces of the natural mineral.

Abstract: An object is to improve use efficiency of an evaporation material, to reduce manufacturing cost of a light-emitting device, and to reduce manufacturing time needed for a light-emitting device including a layer containing an organic compound. The pressure of a film formation chamber is reduced, a plate is rapidly heated by heat conduction or heat radiation by using a heat source, a material layer on a plate is vaporized in a short time to be evaporated to a substrate on which the material layer is to be formed (formation substrate), and then the material layer is formed on the formation substrate. The area of the plate that is heated rapidly is set to have the same size as the formation substrate and film formation on the formation substrate is completed by one application of heat.

Abstract: A process for treating a surface of an aluminium component and an aluminium component of this kind are described. The process described is characterized in that a silicon oxide layer is applied to the surface of the aluminium component.

Abstract: The invention relates to a method of manufacturing a patterned media Ni stamper comprising depositing a perfluorodecyltrichlorosilane release layer. The release layer eliminates bonding at the master-stamper interface. A permanent master for manufacturing a patterned media stamper is also provided.

Abstract: By coating a base material with a film of a fluoropolymer such as PTFE, the coefficient of friction of the base material is lowered and the slipperiness of the base material is thus improved. Thus, it is intended to provide a medical instrument, for example, a guide wire for introducing a catheter. A medical instrument which has, on at least a part of a base material, a hydrophilic polymer film and a fluoropolymer film located as the upper layer thereof.

Abstract: Disclosed is a barrier laminate comprising at least one organic layer and at least one inorganic layer, wherein the organic layer is formed by vacuum vapor deposition of a composition containing a radical-polymerizing monomer and a polymerization initiator, followed by curing the composition, and the polymerization initiator is liquid at 30° C. under one atmosphere and/or has a melting point of not higher than 30° C.

Abstract: An improved vapor-phase deposition method and apparatus for the application of multilayered films/coatings on substrates is described. The method is used to deposit multilayered coatings where the thickness of an oxide-based layer in direct contact with a substrate is controlled as a function of the chemical composition of the substrate, whereby a subsequently deposited layer bonds better to the oxide-based layer. The improved method is used to deposit multilayered coatings where an oxide-based layer is deposited directly over a substrate and a SAM organic-based layer is directly deposited over the oxide-based layer. Typically a series of alternating layers of oxide-based layer and organic-based layer are applied.

Abstract: An organic vapor jet printing system includes a pump for increasing the pressure of an organic flux.

Abstract: The present disclosure is drawn to a method for improving the durability of an ink printed on a substrate. In an aspect, the method comprises: (a) providing a substrate having an ink printed thereon; (b) applying an organosilane to the ink to form a coating over the ink, wherein the organosilane is of the formula X—SiR1R2R3, wherein R1, R2 and R3 are all hydrolysable groups, and X comprises an a nucleophilic nitrogen-containing group which is covalently bonded to Si in X—SiR1R2R3 via a non-hydrolysable linker group; and (c) curing the organosilane. The present disclosure further describes a substrate having an ink printed thereon, wherein the ink has a coating thereon formed by applying an organosilane to the ink and curing the organosilane.

Abstract: Disclosed is a light emitting device manufacturing apparatus including a plurality of processing chambers for performing a substrate processing for forming, on a target substrate, a light emitting device having multiple layers including an organic layer, wherein each of the plurality of processing chambers is configured to perform a substrate process on the target substrate while maintaining the target substrate such that its device forming surface, on which the light emitting device is to be formed, is oriented toward a direction opposite to a direction of gravity.

Abstract: To improve the use efficiency of a vapor-deposition material, reduce the manufacturing cost of a light-emitting device including a layer containing an organic compound, and shorten the manufacturing time for manufacturing a light-emitting device. Inside of a film formation chamber is made in a reduced pressure state, and conductive-surface substrate is energized, so that the conductive-surface substrate is heated rapidly, and a material layer over the conductive-surface substrate is evaporated in a short period of time to be vapor-deposited on a film formation substrate, whereby film formation of the material layer is performed on the film formation substrate. Note that the heating area of the conductive-surface substrate which is rapidly heated is set to be the same size as the film formation substrate so that film formation on one film formation substrate is completed by one heating.

Abstract: This disclosure relates to compositions that include (a) at least one substituted or unsubstituted cyclic alkene, and (b) an antioxidant composition including at least one compound of Formula (I): R1 through R4 in Formula (I) are described in the specification.

Abstract: Disclosed is a barrier laminate comprising at least one organic layer and at least one inorganic layer, wherein the organic layer is formed by vacuum vapor deposition of a composition containing a radical-polymerizing monomer and a polymerization initiator, followed by curing the composition, and the polymerization initiator is liquid at 30° C. under one atmosphere and/or has a melting point of not higher than 30° C.

Abstract: The present invention is a plurality of metal-containing complexes of a multidentate ketoiminate.

Abstract: A polymer having at least one urea linkage prepared by: (i) reacting (a) at least one diisocyanate, polyisocyanate, or mixture thereof, having isocyanate groups, and (b) at least one fluorinated compound selected from the formula (I): Rf(CH2CF2)p(CH2CH2)q(R1)r—XH??Formula (I) wherein p and q are each independently an integer of 1 to 3; r is 0 or 1; X is —O—, —NH— or —S—; R1 is a divalent radical selected from the group consisting of —S(CH2)n—, n is an integer of 2 to 4; s is an integer of 1 to 50; R2, R3, and R4 are each independently hydrogen or an alkyl group containing 1 to 6 carbon atoms; and Rf is a perfluoroalkyl group having 1 to 6 carbon atoms; and (i) reacting with (c) water, a linking agent, or a mixture thereof and methods for treating substrates therewith.

Abstract: Conductive polymer coatings and methods of forming the same are provided.

Abstract: A coating film to prevent a conspicuous fingerprint has a water contact angle of no less than 60° so that most of water contained in fingerprints on the coating film evaporates without forming a layer adsorbed on the coating film. Further, the coating film has lipophilicity and has a diiodomethane contact angle of no more than 45° so that the coating film exhibits enhanced affinity to fingerprints, which primarily contain oily components.

Abstract: In a method for coating substrates with materials to be vaporized in a vacuum coating system, the vaporization material is deposited on the substrate by double vaporization using an intermediate carrier. The intermediate carrier is continuously moved and.

Abstract: A system of fabricating a composite membrane from a membrane substrate using solvent-less vapor deposition followed by in-situ polymerization. A first monomer and a second monomer are directed into a mixing chamber in a deposition chamber. The first monomer and the second monomer are mixed in the mixing chamber providing a mixed first monomer and second monomer. The mixed first monomer and second monomer are solvent-less vapor deposited onto the membrane substrate in the deposition chamber. The membrane substrate and the mixed first monomer and second monomer are heated to produce in-situ polymerization and provide the composite membrane.

Abstract: The present invention is a method for producing a composite including a matrix and a dispersed material dispersed in the matrix. The method includes introducing a raw material for dispersed material which constitutes a dispersed material into a fluid including a melt of a raw material for matrix which constitutes a matrix or a solution containing a raw material for matrix by a vapor deposition method, to obtain a composite.

Abstract: The present invention relates to solid solution inducing layer for the preparation of weak epitaxial films of non-planar phthalocyanine and the thin film of non-planar phthalocyanine generated from the weak epitaxial growth on the solid solution inducing layer and organic thin film transistor based on the weak rpitaxy growth thin film of non-planar phthalocyanine. The solid solution inducing layer is prepared at certain substrate temperature by vapor co-deposition of any two inducing layer molecules presented by Formula I and Formula II. The solid solution inducing layer has uniformed structure, of which the lattice parameter and electronic structure can be controlled by adjusting the component proportion, the solid solution inducing layer can epitaxially grow a high quality thin film of non-planar phthalocyanine and fabricate high performance transistor device based on such epitaxial thin film.

Abstract: Disclosed herein is a thermoelectric module including an insulating sealing part formed on portions of a thermoelectric module part or the entirety thereof, the thermoelectric module part including thermoelectric elements, electrodes, and substrates, and a method of sealing the thermoelectric module using a parylene coating method. When the thermoelectric module is coated with parylene, which is a new material having insulation, the parylene is penetrated between the thermoelectric elements to form an insulating separator. The insulating separator efficiently prevents corrosion due to water adsorption, thereby making it possible to improve reliability of the thermoelectric module.

Abstract: A coating composition is provided. The composition comprises as component I, a) a polyaspartic acid ester comprising the reaction product of one more diamines, one or more difunctional acrylate-containing compounds and one or more maleic/fumaric acid esters; b) at least one moisture scavenger; c) at least one deaerator; d) at least one plasticizer; and e) optionally additives; and as component II, one or more polyisocyanates. Methods of making and applying the composition to a substrate are also provided. The coating is particularly suitable for use as a gel coat.

Abstract: A method for treating a surface of a substrate. A functional chemical is applied onto the surface of the substrate for improving the adhesion of silicone to the substrate. The functional chemical is applied in an amount of at least 5 mg/m2 onto the surface of the substrate by using a steam application beam to form a functional chemical layer on the substrate. The functional chemical includes double bonds, silane hydride, or vinyl silane reactive groups, or oligomeric or polymeric hydrocarbon or polysiloxane compounds.