A nanoimprint lithography system and method for manufacturing substrates with nano-scale patterns, having a process chamber with transparent sections on both top and side walls, a robot for automatic molds and substrates loading and unloading, and optical and stage apparatuses to obtain the desired spatial relationship between the mold and substrate, with an enclosed volume referring to mold mini-chamber being formed between the mold/holder and top wall of the chamber and with the process chamber and mini-chamber being capable of both vacuuming and pressurizing, and inside the chamber, a ring shape seal assembly is installed and a mold support assembly can be installed that aids in imprinting all the way to the edge of the substrate with various embodiments for carrying out fluid pressure imprinting, separation, measurement and control of mold and substrate gap, substrate thickness, and system axial force.
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
B29C 39/02 - Moulage par coulée, c.-à-d. en introduisant la matière à mouler dans un moule ou entre des surfaces enveloppantes sans pression significative de moulageAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés
B29C 43/02 - Moulage par pressage, c.-à-d. en appliquant une pression externe pour faire couler la matière à moulerAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés
A nanoimprint system and methods for separating imprinted substrates with nano-scale patterns from mold for manufacturing. Generally, the system includes means to create, monitor, and control relative movement between the mold and substrate for separation. It is capable of controlling where and when the separation happens and finishes. The relative movement may be generated by motion stages, springs, stage driven flexures, inflatable O-rings, gas flow, and other mechanical means. It may be monitored by separation force, overhead camera, and vacuum/pressures in different area of the system. The relative movement may be any combination of stages movements and movement sequences. The separation speed, direction, and force can be well controlled in the system to achieve fast and reliable separation between mold and substrate, and at the same time maintain the pattern shape and details on the consolidated imprint resist.
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
B82Y 40/00 - Fabrication ou traitement des nanostructures
B82Y 10/00 - Nanotechnologie pour le traitement, le stockage ou la transmission d’informations, p. ex. calcul quantique ou logique à un électron
Methods for nanoimprint lithography using a deformable mold. Generally, the method includes a deformable mold fixed firmly onto a hollow mold holder around its full periphery is attached to top inner surface of the chamber and positioned underneath the transparent section. The central area of the mold is freely accessible from underneath through the opening of the mold holder. At beginning of the imprinting, the substrate with a layer of resist is positioned underneath the mold at a predetermined gap between them and a substrate is moved up to contact with the mold either under vacuum or under atmosphere. After consolidating the resist, the substrate is separated from the mold by either direct pull-down enabled by stage movement or deforming the mold enabled by differential pressure between the mold mini-chamber and the bulk volume of the chamber, or mixing of both.
B29C 59/02 - Façonnage de surface, p. ex. gaufrageAppareils à cet effet par des moyens mécaniques, p. ex. par pressage
B82Y 10/00 - Nanotechnologie pour le traitement, le stockage ou la transmission d’informations, p. ex. calcul quantique ou logique à un électron
B82Y 40/00 - Fabrication ou traitement des nanostructures
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
B29L 7/00 - Objets plats, p. ex. pellicules ou feuilles
4.
IMPRINT LITHOGRAPHY SYSTEM AND METHOD FOR MANUFACTURING
A nanoimprint lithography system and method for manufacturing substrates with nano-scale patterns, having a process chamber with transparent sections on both top and side walls, a robot for automatic molds and substrates loading and unloading, and optical and stage apparatuses to obtain the desired spatial relationship between the mold and substrate, with an enclosed volume referring to mold mini-chamber being formed between the mold/holder and top wall of the chamber and with the process chamber and mini-chamber being capable of both vacuuming and pressurizing, and inside the chamber, a ring shape seal assembly is installed and a mold support assembly can be installed that aids in imprinting all the way to the edge of the substrate with various embodiments for carrying out fluid pressure imprinting, separation, measurement and control of mold and substrate gap, substrate thickness, and system axial force.
B29C 39/08 - Moulage par coulée, c.-à-d. en introduisant la matière à mouler dans un moule ou entre des surfaces enveloppantes sans pression significative de moulageAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés avec des moules mobiles en introduisant la matière dans le moule par force centrifuge
B29C 43/04 - Moulage par pressage, c.-à-d. en appliquant une pression externe pour faire couler la matière à moulerAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés en utilisant des moules mobiles
B29C 59/16 - Façonnage de surface, p. ex. gaufrageAppareils à cet effet par énergie ondulatoire ou rayonnement corpusculaire
5.
MOLD AND SUBSTRATE SEPARATION FOR IMPRINT LITHOGRAPHY
A nanoimprint system and methods for separating imprinted substrates with nano-scale patterns from mold for manufacturing. Generally, the system includes means to create, monitor, and control relative movement between the mold and substrate for separation. It is capable of controlling where and when the separation happens and finishes. The relative movement may be generated by motion stages, springs, stage driven flexures, inflatable O-rings, gas flow, and other mechanical means. It may be monitored by separation force, overhead camera, and vacuum/pressures in different area of the system. The relative movement may be any combination of stages movements and movement sequences. The separation speed, direction, and force can be well controlled in the system to achieve fast and reliable separation between mold and substrate, and at the same time maintain the pattern shape and details on the consolidated imprint resist.
B29C 39/08 - Moulage par coulée, c.-à-d. en introduisant la matière à mouler dans un moule ou entre des surfaces enveloppantes sans pression significative de moulageAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés avec des moules mobiles en introduisant la matière dans le moule par force centrifuge
B29C 43/04 - Moulage par pressage, c.-à-d. en appliquant une pression externe pour faire couler la matière à moulerAppareils à cet effet pour la fabrication d'objets de longueur définie, c.-à-d. d'objets séparés en utilisant des moules mobiles
B29C 43/10 - Pressage isostatique, c.-à-d. en utilisant des organes presseurs non rigides coopérant avec des organes rigides ou des matrices
6.
Fast nanoimprinting apparatus using deformale mold
The invention disclosed apparatuses and methods to do nanoimprint lithography using a deformable mold. Generally, the apparatus has a chamber with a transparent section on its top wall, which is capable of vacuuming and pressurizing. The deformable mold fixed firmly onto a hollow mold holder around its full periphery is attached to top inner surface of the chamber and positioned underneath the transparent section. The central area of the mold is freely accessible from underneath through the opening of the mold holder. An enclosed volume referring to mold mini-chamber is formed between the mold/holder and top wall of the chamber. Inside chamber, a stage assembly is installed. A chuck to vacuumly hold a substrate is mounted on top of the stage assembly. At beginning of the imprinting, the substrate with a layer of resist is positioned underneath the mold at a predetermined gap between them. Then, the substrate is moved up to contact with the mold either under vacuum or under atmosphere. The substrate and mold may be pressed further by introducing higher pressure inside the chamber. After consolidating the resist, the substrate is separated from the mold by either direct pull-down enabled by stage movement or deforming the mold enabled by differential pressure between the mold mini-chamber and the bulk volume of the chamber, or mixing of both.
B29C 59/16 - Façonnage de surface, p. ex. gaufrageAppareils à cet effet par énergie ondulatoire ou rayonnement corpusculaire
B29C 70/44 - Façonnage ou imprégnation par compression pour la fabrication d'objets de longueur définie, c.-à-d. d'objets distincts utilisant une pression isostatique, p. ex. moulage par différence de pression, avec un sac à vide, dans un autoclave ou avec un caoutchouc expansible
B29C 35/08 - Chauffage ou durcissement, p. ex. réticulation ou vulcanisation utilisant l'énergie ondulatoire ou un rayonnement corpusculaire
B29C 43/10 - Pressage isostatique, c.-à-d. en utilisant des organes presseurs non rigides coopérant avec des organes rigides ou des matrices
7.
Nanogap electronic detector for measuring properties of a biomolecule stretched in a nanochannel, and method thereof
The present invention provides methods and apparatus for measuring a property of an sample, the apparatus can manipulate, detect, and analyze the sample composed of single molecules, single small particles or single small samples of matter by drawing the sample into a nanofluidic channel and stretching the sample within the channel, passing the stretched sample through a gap having a width of less than or equal to 20 nm of a nanogap detector positioned inside or adjacent to the nanofluidic channel and measuring an output from the nanogap detector representative of the property of the sample.
G01N 27/00 - Recherche ou analyse des matériaux par l'emploi de moyens électriques, électrochimiques ou magnétiques
G01N 33/487 - Analyse physique de matériau biologique de matériau biologique liquide
B82Y 35/00 - Procédés ou appareils pour la mesure ou l’analyse des nanostructures
C12Q 1/68 - Procédés de mesure ou de test faisant intervenir des enzymes, des acides nucléiques ou des micro-organismesCompositions à cet effetProcédés pour préparer ces compositions faisant intervenir des acides nucléiques
B01L 3/00 - Récipients ou ustensiles pour laboratoires, p. ex. verrerie de laboratoireCompte-gouttes
8.
IMPRINT LITHOGRAPHY WITH IMPROVED SUBSTRATE/MOLD SEPARATION
In imprint lithography, a mold (300) having a pattern of projecting and recessed regions is pressed into a moldable surface (302) on a substrate (301) The thus-imprinted moldable surface (302) is permitted to at least partially harden to retain the Imprint, and the substrate (301) and mold (300) are separated. In accordance with the invention, the substrate (301) is separated from the mold (300) by bending laterally distal regions (300A and 300B) (regions away from the center toward the edges) of the mold (300) transversely away from the interface and transversely restraining the substrate (301) The mold (300) can then be easily separated from the substrate (301) by transverse displacement (300) Apparatus for effecting such separation is also described (e. g. Figs 5 and 6).
G03F 7/00 - Production par voie photomécanique, p. ex. photolithographique, de surfaces texturées, p. ex. surfaces impriméesMatériaux à cet effet, p. ex. comportant des photoréservesAppareillages spécialement adaptés à cet effet
9.
Method and apparatus to apply surface release coating for imprint mold
In imprint lithography, the mold is coated with a surface release layer for a non-sticking separation. Bonding strength of the release layer to the mold depends on the cleanness of the surface and the process of release layer deposition. In accordance with the invention, the mold is disposed in an evacuable chamber, cleaned to remove surface organic contamination and coated with the surface release layer in a chamber, all without relocation or undesired time delay. The chamber encloses a support chuck for the mold or substrate, a surface cleaner unit adjacent the support, a heating source adjacent the support, and advantageously, sensors of measuring chamber pressure, vapor partial pressure and moisture concentration. A vapor source connected to the chamber supplies release surfactant vapor. The mold is cleaned, and the cleaning is followed by vapor phase deposition of the surfactant. The mold is advantageously heated. Typical ways of cleaning include exposure to ozone or plasma ion etch. Surfactant vapor may be generated by liquid surface vaporization, liquid injection or spray vaporization. A surface adhesion promoter can be coated on the substrate by a similar method with the same apparatus.
C23C 16/00 - Revêtement chimique par décomposition de composés gazeux, ne laissant pas de produits de réaction du matériau de la surface dans le revêtement, c.-à-d. procédés de dépôt chimique en phase vapeur [CVD]
B05D 3/00 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides
B05D 3/02 - Traitement préalable des surfaces sur lesquelles des liquides ou d'autres matériaux fluides doivent être appliquésTraitement ultérieur des revêtements appliqués, p. ex. traitement intermédiaire d'un revêtement déjà appliqué, pour préparer les applications ultérieures de liquides ou d'autres matériaux fluides par cuisson
10.
Die imprint by double side force-balanced press for step-and-repeat imprint lithography
In accordance with the invention, step-and-repeat imprint lithography is effected by applying balanced pressing forces from both sides of a substrate. The pressing forces are substantially equal in amplitude and opposite in direction. With the pressing forces thus balanced, the fixture that steps and holds the substrate does not bear the load of imprinting. The balance allows use of a high resolution aligning stage to carry the substrate and to maintain high accuracy of positioning without being shifted by change of load. With this method, sufficient imprint pressure can be used to obtain high quality patterning, a thin and uniform residual layer, and a high fidelity pattern.
