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公开(公告)号:US07087523B2
公开(公告)日:2006-08-08
申请号:US10621046
申请日:2003-07-16
IPC分类号: H01L21/44
CPC分类号: H05K3/125 , B33Y10/00 , H01L21/4867 , H01L21/76838 , H05K3/105 , Y10S438/962
摘要: For forming a fine structure of a desired material, nanoparticles of the same material are prepared in a suspension. A layer of the suspension is applied by a drop-on-demand printing system to a substrate. At least part of the layer is exposed to laser light for melting the nanoparticles at least partially. Upon solidification, the molten particles are sintered together to form the desired structure. Due to the low melting point of nanoparticles as compared to the melting point of bulk material, this procedure avoids damage to the substrate and provides a better control over the structure generation process. It can be used for generating metallic and non-metallic structures on various substrates. The laser light may have non-Gaussian intensity distribution or can combine multiple beams of Gaussian and non-Gaussian distribution for improving the quality of the generated structure, or it may be pulsed for improved control of the heat flow into the substrate.
摘要翻译: 为了形成所需材料的精细结构,在悬浮液中制备相同材料的纳米颗粒。 通过按需打印系统将一层悬浮液施加到基底上。 该层的至少一部分暴露于激光以至少部分地熔化纳米颗粒。 凝固后,将熔融的颗粒烧结在一起形成所需的结构。 由于与散装材料的熔点相比,纳米颗粒的熔点低,因此避免了对基材的损伤,并提供了对结构生成过程的更好控制。 它可用于在各种基底上产生金属和非金属结构。 激光可以具有非高斯强度分布,或者可以组合高斯和非高斯分布的多个波束以改善所产生的结构的质量,或者可以脉冲地改善对流入基底的热流的控制。
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公开(公告)号:US20140205761A1
公开(公告)日:2014-07-24
申请号:US14129480
申请日:2012-06-25
申请人: Patrick Galliker , Julian Schneider , Dimos Poulikakos , Vahid Sandoghdar , Mohammad Hadi Eghlidi
发明人: Patrick Galliker , Julian Schneider , Dimos Poulikakos , Vahid Sandoghdar , Mohammad Hadi Eghlidi
IPC分类号: B81C99/00
CPC分类号: B81C99/00 , B81C99/0095 , B81C2201/0184
摘要: A method for the production of nano- or microscaled ID, 2D and/or 3D depositions from an solution (6), by means of a liquid reservoir (2) for holding the ink with an outer diameter (3,D) of at least 50 nm, is proposed, wherein there is provided an electrode (7,8 or 9) in contact with said ink (6) in said capillary (2), and wherein there is a counter electrode in and/or on and/or below and/or above a substrate (15) onto which the depositions are to be produced, including the steps of: i) keeping the electrode (7, 8, 9) and the counter electrode (15, 18) on an essentially equal potential; ii) establishing a potential difference between the electrode (7, 8, 9) and the counter electrode (15, 18) leading to the growth of an ink meniscus (1) at the nozzle (3) and to the ejection of droplets (13) at this meniscus with a homogeneous size smaller than the meniscus size (11) at a homogenous ejection frequency; keeping the voltage applied while the continuously dried droplets leave behind the dispersed material which leads a structure to emerge with essentially the same diameter as a single droplet, wherein the distance between the substrate (1) and the nozzle (3) is smaller than or equal to 20 times the meniscus diameter at least at the moment of nano-droplet ejection (12); wherein the conductivity of the ink (6) is high enough to stabilize the liquid meniscus during droplet ejection;
摘要翻译: 一种用于通过液体储存器(2)从溶液(6)生产纳米或微观ID,2D和/或3D沉积物的方法,用于将油墨保持至少至少具有外径(3,D) 50nm,其中提供了与所述毛细管(2)中的所述油墨(6)接触的电极(7,8或9),并且其中在和/或之上和/或下方存在对电极 和/或在其上要生成沉积物的衬底(15)上方,包括以下步骤:i)保持电极(7,8,9)和对电极(15,18)的电位基本相等; ii)建立电极(7,8,9)和相对电极(15,18)之间的电位差,导致在喷嘴(3)处生成墨水弯液面(1)和喷射液滴(13) )在均匀喷射频率下具有小于弯月面尺寸(11)的均匀尺寸的弯月面; 保持施加的电压,而连续干燥的液滴留下分散的材料,导致结构以与单个液滴基本相同的直径出现,其中基板(1)和喷嘴(3)之间的距离小于或等于 至少在纳米液滴喷射时(12)的弯液面直径的20倍; 其中所述油墨(6)的电导率足够高以在液滴喷射期间稳定所述液体弯液面;
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公开(公告)号:US20100035375A1
公开(公告)日:2010-02-11
申请号:US11478294
申请日:2006-06-29
CPC分类号: H01L21/44 , H01L21/288 , H01L21/4867 , H01L21/76838 , H05K1/0393 , H05K1/162 , H05K3/0026 , H05K3/027 , H05K3/1241 , H05K3/4685 , H05K2201/09763 , H05K2203/107 , H05K2203/1131 , Y10S438/94
摘要: The present invention relates to systems, materials and methods for the formation of conducting, semiconducting, and dielectric layers, structures and devices from suspensions of nanoparticles. Drop-on-demand systems are used in some embodiments to fabricate various electronic structures including conductors, capacitors, FETs. Selective laser ablation is used in some embodiments to pattern more precisely the circuit elements and to form small channel devices.
摘要翻译: 本发明涉及从纳米颗粒的悬浮液形成导电,半导电和电介质层,结构和器件的系统,材料和方法。 在一些实施例中使用点播系统来制造包括导体,电容器,FET的各种电子结构。 在一些实施例中使用选择性激光烧蚀来更精确地模拟电路元件并形成小通道器件。
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公开(公告)号:US09138512B2
公开(公告)日:2015-09-22
申请号:US13218120
申请日:2011-08-25
申请人: Aldo Ferrari , Vartan Kurtcuoglu , Philipp Schoen , Jens Ulmer , Alexander Borck , Matthias Gratz , Alexander Rzany , Robert Schmiedl , Dimos Poulikakos , Bjoern Klocke
发明人: Aldo Ferrari , Vartan Kurtcuoglu , Philipp Schoen , Jens Ulmer , Alexander Borck , Matthias Gratz , Alexander Rzany , Robert Schmiedl , Dimos Poulikakos , Bjoern Klocke
CPC分类号: A61L31/14 , A61L31/022 , A61L31/10 , A61L2400/18
摘要: The present invention refers to an implant with a surface layer having a topographic modification. The topographic modification includes a line pattern with ridge and groove widths of 0.9 to 1.1 μm and a ridge height of more than 0.9 μm.
摘要翻译: 本发明涉及具有地形修改的表面层的植入物。 地形修改包括具有0.9至1.1μm的脊和沟宽度以及大于0.9μm的脊高度的线图案。
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公开(公告)号:US20120053677A1
公开(公告)日:2012-03-01
申请号:US13218120
申请日:2011-08-25
申请人: Aldo Ferrari , Vartan Kurtcuoglu , Philipp Schoen , Jens Ulmer , Alexander Borck , Matthias Gratz , Alexander Rzany , Robert Schmiedl , Dimos Poulikakos , Bjoern Klocke
发明人: Aldo Ferrari , Vartan Kurtcuoglu , Philipp Schoen , Jens Ulmer , Alexander Borck , Matthias Gratz , Alexander Rzany , Robert Schmiedl , Dimos Poulikakos , Bjoern Klocke
IPC分类号: A61F2/82
CPC分类号: A61L31/14 , A61L31/022 , A61L31/10 , A61L2400/18
摘要: The present invention refers to an implant with a surface layer having a topographic modification. The topographic modification includes a line pattern with ridge and groove widths of 0.9 to 1.1 μm and a ridge height of more than 0.9 μm.
摘要翻译: 本发明涉及具有地形修改的表面层的植入物。 地形修改包括具有0.9至1.1μm的脊和沟宽度以及大于0.9μm的脊高度的线图案。
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公开(公告)号:US20110233472A1
公开(公告)日:2011-09-29
申请号:US13003239
申请日:2009-07-06
CPC分类号: B01J35/04 , B01J23/42 , B01J23/44 , B01J23/63 , B01J35/0013 , B01J37/0009 , B01J37/0215 , B01J37/0236 , B01J37/349 , C01B3/40 , C01B2203/0233 , C01B2203/0261 , C01B2203/0283 , C01B2203/1064 , C01B2203/107 , C01B2203/1082 , C01B2203/1241 , C01B2203/1247 , Y02P20/52
摘要: A method of producing a rigid catalytically active porous ceramic is disclosed. Catalyst particles comprising a catalytically active material or a precursor thereof are mixed with a chemical additive, a ceramic binder, a carrier liquid and, optionally, substantially inert carrier particles to obtain a slurry having a gel-or paste-like consistency. The slurry may be transported to a substrate, e.g., by printing, or to a reactor cavity by a suitable flow method. The slurry is then heated to substantially evaporate said carrier liquid to obtain a rigid, catalytically active porous ceramic in situ. A catalyst obtainable by such a method and the use of such a catalyst are also disclosed.
摘要翻译: 公开了一种制备刚性催化活性多孔陶瓷的方法。 包含催化活性材料或其前体的催化剂颗粒与化学添加剂,陶瓷粘合剂,载体液体和任选的基本上惰性的载体颗粒混合,以获得具有凝胶或糊状稠度的浆料。 可以通过适当的流动方法将浆料例如通过印刷或转移到反应器腔中来运输到基底。 然后将浆料加热以使所述载体液体基本蒸发,以便原位获得刚性的催化活性多孔陶瓷。 还公开了通过这种方法获得的催化剂和这种催化剂的用途。
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公开(公告)号:US07682970B2
公开(公告)日:2010-03-23
申请号:US11478294
申请日:2006-06-29
IPC分类号: H01L21/44
CPC分类号: H01L21/44 , H01L21/288 , H01L21/4867 , H01L21/76838 , H05K1/0393 , H05K1/162 , H05K3/0026 , H05K3/027 , H05K3/1241 , H05K3/4685 , H05K2201/09763 , H05K2203/107 , H05K2203/1131 , Y10S438/94
摘要: The present invention relates to systems, materials and methods for the formation of conducting, semiconducting, and dielectric layers, structures and devices from suspensions of nanoparticles. Drop-on-demand systems are used in some embodiments to fabricate various electronic structures including conductors, capacitors, FETs. Selective laser ablation is used in some embodiments to pattern more precisely the circuit elements and to form small channel devices.
摘要翻译: 本发明涉及从纳米颗粒的悬浮液形成导电,半导电和电介质层,结构和器件的系统,材料和方法。 在一些实施例中使用点播系统来制造包括导体,电容器,FET的各种电子结构。 在一些实施例中使用选择性激光烧蚀来更精确地模拟电路元件并形成小通道器件。
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