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1. 发明授权

US09259705B2 Microreactor device having an essentially vertical or inclined upper portion comprising means for collection and removal of gas formed in situ during a liquid-medium reaction and method 有权
标题翻译：具有基本垂直或倾斜的上部的微反应器装置包括用于收集和去除在液体 - 介质反应期间原位形成的气体的装置和方法
公开(公告)号：US09259705B2
公开(公告)日：2016-02-16
申请号：US13698197
申请日：2011-05-26
申请人： Elena Daniela Lavric , Ronan Tanguy
发明人： Elena Daniela Lavric , Ronan Tanguy
IPC分类号： B01D19/00 , B01J19/00
CPC分类号： B01J19/0093 , B01D19/0042 , B01J2219/00783 , B01J2219/00837 , B01J2219/00873 , B01J2219/00891 , B01J2219/00905
摘要： A microreactor device (100) comprises a microcircuit (110) defining a reaction microchamber (112) containing a liquid and reaction medium (114), in which a chemical reaction takes place generating the gas (116), and is characterized in that the device (100) is disposed substantially vertically or inclined, defining an upper part (120) and a lower part (130) of the microchamber, and in that means (150) are provided in the upper part (120) of the said microcircuit for the in situ collection and removal of the gas formed during the reaction.
摘要翻译：微反应器装置（100）包括限定包含液体的反应微室（110）和反应介质（114）的微电路（110），其中产生化学反应产生气体（116），其特征在于，所述装置（100）基本上垂直或倾斜地设置，限定微型仓的上部（120）和下部（130），并且在该装置（150）中，所述装置（150）设置在所述微电路的上部（120）中，用于原位收集和去除在反应过程中形成的气体。

2. 发明申请

US20130055896A1 MICROREACTOR DEVICE HAVING AN ESSENTIALLY VERTICAL OR INCLINED UPPER PORTION COMPRISING MEANS FOR COLLECTION AND REMOVAL OF GAS FORMED IN SITU DURING A LIQUID-MEDIUM REACTION AND METHOD 有权
标题翻译：具有基本垂直或包含上部的MICROREACTOR装置，其包含用于在液体中介反应和方法期间形成的气体的收集和移除的手段
公开(公告)号：US20130055896A1
公开(公告)日：2013-03-07
申请号：US13698197
申请日：2011-05-26
申请人： Elena Daniela Lavric , Ronan Tanguy
发明人： Elena Daniela Lavric , Ronan Tanguy
IPC分类号： B01J7/00 , B01D19/00
CPC分类号： B01J19/0093 , B01D19/0042 , B01J2219/00783 , B01J2219/00837 , B01J2219/00873 , B01J2219/00891 , B01J2219/00905
摘要： A microreactor device (100) comprises a microcircuit (110) defining a reaction microchamber (112) containing a liquid and reaction medium (114), in which a chemical reaction takes place generating the gas (116), and is characterized in that the device (100) is disposed substantially vertically or inclined, defining an upper part (120) and a lower part (130) of the microchamber, and in that means (150) are provided in the upper part (120) of the said microcircuit for the in situ collection and removal of the gas formed during the reaction.
摘要翻译：微反应器装置（100）包括限定包含液体的反应微室（110）和反应介质（114）的微电路（110），其中产生化学反应产生气体（116），其特征在于，所述装置（100）基本上垂直或倾斜地设置，限定微型仓的上部（120）和下部（130），并且在该装置（150）中，所述装置（150）设置在所述微电路的上部（120）中，用于原位收集和去除在反应过程中形成的气体。

3. 发明授权

US08875543B2 Methods and systems for forming continuous glass sheets 有权
标题翻译：用于形成连续玻璃板的方法和系统
公开(公告)号：US08875543B2
公开(公告)日：2014-11-04
申请号：US13319422
申请日：2010-05-11
申请人： Thierry Luc Alain Dannoux , Ronan Tanguy
发明人： Thierry Luc Alain Dannoux , Ronan Tanguy
IPC分类号： C03B17/06 , C03B23/047 , C03B40/04
CPC分类号： C03B17/06 , C03B23/0476 , C03B33/0215 , C03B33/06 , C03B33/091 , C03B40/04 , Y02P40/57
摘要： A method for forming a continuous glass sheet from a tube of glass includes expanding and thinning the tube of glass by drawing the tube of glass over susceptor bearing comprising a porous sidewall defining an internal chamber. The diameter of the susceptor bearing may increase between a top portion and a bottom portion. The tube of glass may be maintained at a temperature above a softening point of the glass as the tube of glass is drawn over the susceptor bearing. The tube of glass is suspended over the susceptor bearing by blowing the tube of glass away from the susceptor bearing in a radial direction with a pressurized fluid supplied to the internal chamber and emitted from the porous sidewall as the tube of glass is drawn over the susceptor bearing. Thereafter, the tube of glass is cooled and sectioned to form a continuous glass sheet.
摘要翻译：从玻璃管形成连续玻璃板的方法包括通过在包括限定内部室的多孔侧壁的基座轴承上拉制玻璃管来使玻璃管膨胀和变薄。基座轴承的直径可以在顶部和底部之间增加。当玻璃管拉过基座轴承时，玻璃管可以保持在高于玻璃软化点的温度。玻璃管悬挂在基座轴承上，当玻璃管沿径向吹动时，加压流体被供应到内部腔室并从多孔侧壁发射，因为玻璃管被拉过基座轴承。此后，将玻璃管冷却并分段以形成连续的玻璃板。

4. 发明授权

US08105557B2 Microreactor assembly incorporating interconnect backbone and diverse fluidic microstructures 失效
标题翻译：微反应器组合结合了互连骨架和不同的流体微结构
公开(公告)号：US08105557B2
公开(公告)日：2012-01-31
申请号：US12361264
申请日：2009-01-28
申请人： Jean-Pierre Henri Rene Lereboullet , Olivier Lobet , Yann P M Nedelec , Ronan Tanguy
发明人： Jean-Pierre Henri Rene Lereboullet , Olivier Lobet , Yann P M Nedelec , Ronan Tanguy
IPC分类号： B01J8/00 , B01J19/00 , B28B1/00
CPC分类号： B01J19/0093 , B01J2219/00783 , B01J2219/00804 , B01J2219/0081 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B01J2219/00889 , B01J2219/00891 , B01L3/502707 , B01L3/502715 , B01L3/565 , B01L2200/027 , B01L2200/028 , B01L2200/0689 , B01L2300/0816 , B01L2300/0874 , B01L2300/185 , C04B37/005 , C04B37/045 , C04B2237/10 , C04B2237/32
摘要： A microreactor assembly [100] is provided comprising a fluidic interconnect backbone [10] and plurality of fluidic microstructures. Interconnect input/output ports [12] of the fluidic interconnect backbone [10] are interfaced with microchannel input/output ports [14] of the fluidic microstructures at a plurality of non-polymeric interconnect seals [50]. Interconnect microchannels [15] are defined entirely by the fluidic interconnect backbone [10] and extend between the non-polymeric interconnect seals [50] without interruption by additional sealed interfaces. At least one of the fluidic microstructures [20, 30, 40] may comprise a mixing microstructure formed by a molding process. Another of the fluidic microstructures [20, 30, 40] may comprise an extruded reactor body. Still another fluidic microstructure [20, 30, 40] may comprise a quench-flow or hydrolysis microreactor formed by a hot-pressing method.
摘要翻译：提供了一种微反应器组件[100]，其包括流体互连骨架[10]和多个流体微结构。流体互连骨架[10]的互连输入/输出端口[12]在多个非聚合物互连密封件[50]处与流体显微组织的微通道输入/输出端口[14]接口连接。互连微通道[15]完全由流体互连骨架[10]限定，并在非聚合物互连密封件[50]之间延伸，而不会被额外的密封接口中断。至少一个流体微结构[20,30,40]可以包括通过模塑工艺形成的混合微结构。另一种流体微结构[20,30,40]可以包括挤出的反应器体。另一种流体微结构[20,30,40]可以包括通过热压法形成的骤冷或水解微反应器。

5. 发明申请

US20090162265A1 Microreactor Assembly Incorporating Interconnect Backbone 有权
标题翻译：微反应器装配连接骨干
公开(公告)号：US20090162265A1
公开(公告)日：2009-06-25
申请号：US12340878
申请日：2008-12-22
申请人： Stephane Poissy , Ronan Tanguy
发明人： Stephane Poissy , Ronan Tanguy
IPC分类号： B01J19/18 , B01J19/00
CPC分类号： B01J19/0093 , B01J2219/00783 , B01J2219/00804 , B01J2219/0081 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B01J2219/00889 , B01J2219/00891 , B01L3/502707 , B01L3/502715 , B01L3/565 , B01L2200/027 , B01L2200/028 , B01L2200/0689 , B01L2300/0816 , B01L2300/0874 , B01L2300/185 , C04B37/005 , C04B37/045 , C04B2237/10 , C04B2237/32
摘要： A microreactor assembly comprising a fluidic interconnect backbone and plurality of fluidic microstructures is provided. The fluidic microstructures are supported by respective portions of the fluidic interconnect backbone, The microreactor assembly comprises a plurality of non-polymeric interconnect seals associated with the interconnect input and output ports. The interconnect input port of the fluidic interconnect backbone is interfaced with the microchannel output port of a first fluidic microstructure at one of the non-polymeric interconnect seals. The interconnect output port of the fluidic interconnect backbone is interfaced with the microchannel input port of a second fluidic microstructure at another of the non-polymeric interconnect seals. The interconnect microchannel is defined entirely by the fluidic interconnect backbone and is configured such that it extends from the non-polymeric interconnect seal at the microchannel output port of the first fluidic microstructure to the non-polymeric interconnect seal at the microchannel input port of the second fluidic microstructure without interruption by additional sealed interfaces.
摘要翻译：提供了一种包括流体互连主链和多个流体微结构的微反应器组件。流体微结构由流体互连骨架的相应部分支撑。微反应器组件包括与互连输入和输出端口相关联的多个非聚合物互连密封件。流体互连主干的互连输入端口与非聚合物互连密封件之一处的第一流体微结构的微通道输出端口相接。流体互连主干的互连输出端口与另一个非聚合互连密封件处的第二流体显微组织的微通道输入端口相接合。互连微通道完全由流体互连骨架限定，并且被配置为使得其从第一流体微结构的微通道输出端口处的非聚合物互连密封件延伸到第二流体微通道的微通道输入端口处的非聚合物互连密封件通过额外的密封界面不中断流体显微组织。

6. 发明授权

US09527724B2 Direct sealing of glass microstructures 有权
标题翻译：直接密封玻璃微结构
公开(公告)号：US09527724B2
公开(公告)日：2016-12-27
申请号：US13989897
申请日：2011-11-28
申请人： Thierry Luc Alain Dannoux , Paulo Gaspar Jorge Marques , Ronan Tanguy
发明人： Thierry Luc Alain Dannoux , Paulo Gaspar Jorge Marques , Ronan Tanguy
IPC分类号： B81C1/00 , B01L3/00 , C03B23/24
CPC分类号： B81C1/00119 , B01L3/502707 , B01L2200/12 , B01L2300/0887 , B81B2201/051 , B81C1/00357 , B81C2203/036 , C03B23/245
摘要： Embodiments of methods for sealing a glass microstructure assembly comprise providing one or more side retainer members on a base plate adjacent the glass microstructure assembly, the side retainer members having a height less than an uncompressed height defined by the glass microstructure assembly. The methods also comprise compressing the glass microstructure assembly via a load bearing top plate in intimate contact with the top glass layer while heating the glass microstructure assembly and the top plate to a glass sealing temperature, the glass sealing temperature being a temperature sufficient to make glass viscous, wherein the glass microstructure assembly is compressed until the load bearing top plate contacts the side retainer members, and wherein the lower surface of the top plate maintains adhesion to the upper surface of the top glass layer at the glass sealing temperature while the load bearing plate is supported by the side retainer members.
摘要翻译：用于密封玻璃微结构组件的方法的实施例包括在邻近玻璃微结构组件的基板上提供一个或多个侧面保持器构件，侧面保持构件的高度小于由玻璃微结构组件限定的未压缩高度。所述方法还包括通过与顶部玻璃层紧密接触的承载顶板压缩玻璃微结构组件，同时将玻璃微结构组件和顶板加热至玻璃密封温度，玻璃密封温度为足以制备玻璃的温度粘性，其中玻璃微结构组件被压缩直到承载顶板接触侧保持器构件，并且其中顶板的下表面在玻璃密封温度下保持与顶部玻璃层的上表面的粘附，而承载板由侧保持构件支撑。

7. 发明申请

US20130243663A1 DIRECT SEALING OF GLASS MICROSTRUCTURES 有权
标题翻译：直接密封玻璃微结构
公开(公告)号：US20130243663A1
公开(公告)日：2013-09-19
申请号：US13989897
申请日：2011-11-28
申请人： Thierry Luc Alain Dannoux , Paulo Gaspar Jorge Marques , Ronan Tanguy
发明人： Thierry Luc Alain Dannoux , Paulo Gaspar Jorge Marques , Ronan Tanguy
IPC分类号： B81C1/00 , C03B23/24
CPC分类号： B81C1/00119 , B01L3/502707 , B01L2200/12 , B01L2300/0887 , B81B2201/051 , B81C1/00357 , B81C2203/036 , C03B23/245
摘要： Embodiments of methods for sealing a glass microstructure assembly comprise providing one or more side retainer members on a base plate adjacent the glass microstructure assembly, the side retainer members having a height less than an uncompressed height defined by the glass microstructure assembly. The methods also comprise compressing the glass microstructure assembly via a load bearing top plate in intimate contact with the top glass layer while heating the glass microstructure assembly and the top plate to a glass sealing temperature, the glass sealing temperature being a temperature sufficient to make glass viscous, wherein the glass microstructure assembly is compressed until the load bearing top plate contacts the side retainer members, and wherein the lower surface of the top plate maintains adhesion to the upper surface of the top glass layer at the glass sealing temperature while the load bearing plate is supported by the side retainer members.
摘要翻译：用于密封玻璃微结构组件的方法的实施例包括在邻近玻璃微结构组件的基板上提供一个或多个侧面保持器构件，侧面保持构件的高度小于由玻璃微结构组件限定的未压缩高度。所述方法还包括通过与顶部玻璃层紧密接触的承载顶板压缩玻璃微结构组件，同时将玻璃微结构组件和顶板加热至玻璃密封温度，玻璃密封温度为足以制备玻璃的温度粘性，其中玻璃微结构组件被压缩直到承载顶板接触侧保持器构件，并且其中顶板的下表面在玻璃密封温度下保持与顶部玻璃层的上表面的粘附，而承载板由侧保持构件支撑。

8. 发明申请

US20100180961A1 MICROFLUIDIC STRUCTURES WITH INTEGRATED DEVICES 审中-公开
标题翻译：具有集成器件的微流体结构
公开(公告)号：US20100180961A1
公开(公告)日：2010-07-22
申请号：US12596945
申请日：2007-12-21
申请人： Olivier Lobet , Paulo Gaspar Jorge Marques , Ronan Tanguy
发明人： Olivier Lobet , Paulo Gaspar Jorge Marques , Ronan Tanguy
IPC分类号： B81B1/00 , B81C1/00
CPC分类号： B81B1/00 , B01F5/14 , B01F13/0059 , B01F13/0818 , B01F13/0827 , B01J19/0093 , B01J2219/00783 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B01J2219/00889 , B01J2219/00891 , B01J2219/0093 , B01L3/5027 , B01L7/00 , B81B2201/058 , F04C2/18 , Y10T29/49826 , Y10T137/6606 , Y10T137/8593
摘要： A microfluidic device having a glass, glass-ceramic, or ceramic structure, said structure including one or more passages defined therein with at least one first passage accessible through at least one first port wherein the first passage contains at least one solid object disposed therein said solid object including a material having a coefficient of thermal expansion differeing from the glass, glass-ceramic, or ceramic of said structure, said solid object resting in said first passage substantially without compressive stress from an inside surface of said passage at room temperature.
摘要翻译：一种具有玻璃，玻璃陶瓷或陶瓷结构的微流体装置，所述结构包括限定在其中的一个或多个通道，其中至少一个第一通道可通过至少一个第一端口接近，其中第一通道包含设置在其中的至少一个固体物体，包括具有与所述结构的玻璃，玻璃陶瓷或陶瓷不同的热膨胀系数的材料的固体物体，所述固体物体在室温下基本上没有来自所述通道的内表面的压缩应力而停留在所述第一通道中。

9. 发明申请

US20100068107A1 METHODS OF MAKING MICROFLUIDIC DEVICES AND DEVICES RESULTING 审中-公开
标题翻译：制造微流体装置和装置的方法
公开(公告)号：US20100068107A1
公开(公告)日：2010-03-18
申请号：US12516263
申请日：2007-11-26
申请人： Ronan Tanguy
发明人： Ronan Tanguy
IPC分类号： B81C3/00 , B28B19/00 , B28B1/48 , B81C1/00 , B81B7/00
CPC分类号： B81C1/00206 , B01J2219/00783 , B01J2219/00824 , B01J2219/00831 , B01L3/5027 , B81B2201/058 , B81B2203/0353
摘要： A method of making a microfluidic device by providing first and second substrates and forming a first frit structure on the first substrate and a second frit structure on the second substrate and consolidating the first and second substrates together, with frit structures facing, so as to form a consolidated-frit-defined and consolidated-frit-surrounded recess between said first and second substrates, where the second substrate has at least one pre-formed through-hole therein, and where forming a second frit structure includes forming a frit layer within said through-hole covering the interior surface of the through-hole to a thickness sufficiently thin to produce, on consolidating the substrates and the first and second frit structures together, a through-hole having an interior surface of consolidated frit continuous with the consolidated frit surrounding the recess.
摘要翻译：一种通过提供第一和第二基底并在第一基底上形成第一玻璃料结构并在第二基底上形成第二玻璃料结构并将第一和第二基底固结在一起的方法，其中玻璃料结构面向着形成在所述第一和第二基板之间的固结玻璃料限定和固化玻璃料包围的凹部，其中所述第二基板在其中具有至少一个预先形成的通孔，并且其中形成第二玻璃料结构包括在所述第一和第二基板内形成玻璃料层通孔覆盖通孔的内表面至足够薄的厚度，以便在将基底和第一和第二玻璃料结构固结在一起时产生通孔，该通孔具有与固结的玻璃料相连的固化玻璃料的内表面凹槽

10. 发明申请

US20090191102A1 MICROREACTOR ASSEMBLY INCORPORATING INTERCONNECT BACKBONE AND DIVERSE FLUIDIC MICROSTRUCTURES 失效
标题翻译：连接互连逆流和微流体微结构的微电脑组件
公开(公告)号：US20090191102A1
公开(公告)日：2009-07-30
申请号：US12361264
申请日：2009-01-28
申请人： Jean-Pierre Henri Rene Lereboullet , Olivier Lobet , Yann P. M. Nedelec , Ronan Tanguy
发明人： Jean-Pierre Henri Rene Lereboullet , Olivier Lobet , Yann P. M. Nedelec , Ronan Tanguy
IPC分类号： B01J19/00 , C04B35/64
CPC分类号： B01J19/0093 , B01J2219/00783 , B01J2219/00804 , B01J2219/0081 , B01J2219/00824 , B01J2219/00831 , B01J2219/0086 , B01J2219/00873 , B01J2219/00889 , B01J2219/00891 , B01L3/502707 , B01L3/502715 , B01L3/565 , B01L2200/027 , B01L2200/028 , B01L2200/0689 , B01L2300/0816 , B01L2300/0874 , B01L2300/185 , C04B37/005 , C04B37/045 , C04B2237/10 , C04B2237/32
摘要： A microreactor assembly [100] is provided comprising a fluidic interconnect backbone [10] and plurality of fluidic microstructures. Interconnect input/output ports [12] of the fluidic interconnect backbone [10] are interfaced with microchannel input/output ports [14] of the fluidic microstructures at a plurality of non-polymeric interconnect seals [50]. Interconnect microchannels [15] are defined entirely by the fluidic interconnect backbone [10] and extend between the non-polymeric interconnect seals [50] without interruption by additional sealed interfaces. At least one of the fluidic microstractures [20, 30, 40] may comprise a mixing microstructure formed by a molding process. Another of the fluidic microstructures [20, 30, 40] may comprise an extruded reactor body. Still another fluidic microstructure [20, 30, 40] may comprise a quench-flow or hydrolysis microreactor formed by a hot-pressing method.
摘要翻译：提供了一种微反应器组件[100]，其包括流体互连骨架[10]和多个流体微结构。流体互连骨架[10]的互连输入/输出端口[12]在多个非聚合物互连密封件[50]处与流体显微组织的微通道输入/输出端口[14]接口连接。互连微通道[15]完全由流体互连骨架[10]限定，并在非聚合物互连密封件[50]之间延伸，而不会被额外的密封接口中断。至少一个流体微观结构[20,30,40]可以包括通过模塑工艺形成的混合微结构。另一种流体微结构[20,30,40]可以包括挤出的反应器体。另一种流体微结构[20,30,40]可以包括通过热压法形成的骤冷或水解微反应器。

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