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    • 3. 发明申请
    • Electrochemical fabrication process for forming multilayer multimaterial microprobe structures
    • 用于形成多层多材料微探针结构的电化学制造工艺
    • US20050189959A1
    • 2005-09-01
    • US11029182
    • 2005-01-03
    • Adam CohenAnanda KumarMichael LockardDennis Smalley
    • Adam CohenAnanda KumarMichael LockardDennis Smalley
    • G01R31/02H01L21/20
    • B81C1/00111C23C18/1605C23C18/1651C25D1/003G01R3/00
    • Some embodiments of the invention are directed to the electrochemical fabrication of microprobes which are formed from a core material and a material that partially coats the surface of the probe. Other embodiments are directed to the electrochemical fabrication of microprobes which are formed from a core material and a material that completely coats the surface of each layer from which the probe is formed including interlayer regions. These first two groups of embodiments incorporate both the core material and the coating material during the formation of each layer. Still other embodiments are directed to the electrochemical fabrication of microprobe arrays that are partially encapsulated by a dielectric material during a post layer formation coating process. In even further embodiments, the electrochemical fabrication of microprobes from two or more materials may occur by incorporating a coating material around each layer of the structure without locating the coating material in inter-layer regions.
    • 本发明的一些实施方案涉及由芯材料和部分涂覆探针的表面的材料形成的微针的电化学制造。 其它实施方案涉及由核心材料形成的微结构的电化学制造,以及完全涂覆形成探针的每个层的表面的材料,包括中间层区域。 这些前两组实施例在形成每个层期间都包括芯材料和涂层材料。 另外的其它实施例涉及在后层形成涂覆过程中由电介质材料部分封装的微探针阵列的电化学制造。 在甚至进一步的实施方案中,来自两种或更多种材料的微结构的电化学制造可以通过在结构的每一层周围并入涂层材料而不将涂层材料定位在层间区域中而进行。
    • 10. 发明申请
    • Methods of Reducing Interlayer Discontinuities in Electrochemically Fabricated Three-Dimensional Structures
    • 减少电化学三维结构中层间不连续性的方法
    • US20070199825A1
    • 2007-08-30
    • US11668955
    • 2007-01-30
    • Adam CohenMichael LockardDennis Smalley
    • Adam CohenMichael LockardDennis Smalley
    • C25D5/02
    • C25D5/02B33Y10/00C23C18/1605C23C18/1651C25D1/003H01P11/006
    • Disclosed methods reduce the discontinuities that between individual layers of a structure that is formed at least in part using electrochemical fabrication techniques. Discontinuities may exist between layers of a structure as a result of up-facing or down-facing regions defined in data descriptive of the structure or they may exist as a result of building limitations, e.g., those that result in non-parallel orientation between a building axis and sidewall surfaces of layers. Methods for reducing discontinuities may be applied to all regions or only to selected regions of the structure. Methods may be tailored to improve the accuracy between an original design of the structure and the structure as fabricated or they may simply be used to smooth the discontinuities between layers. Methods may include deposition operations that selectively favor filling of the discontinuities and/or etching operations that selectively favor removal of material from protrusions that define discontinuities.
    • 公开的方法减少了使用电化学制造技术至少部分形成的结构的各个层之间的不连续性。 结构的层之间可能存在不连续性,这是由于在描述结构的数据中定义的面向上或向下的区域的结果,或者它们可能由于构建限制而存在,例如导致在 建筑轴线和层的侧壁表面。 用于减少不连续性的方法可以应用于所有区域或仅应用于结构的选定区域。 可以调整方法以提高结构的原始设计和所制造的结构之间的精度,或者可以简单地用于平滑层之间的不连续性。 方法可以包括选择性地有利于填充不连续性和/或蚀刻操作的沉积操作,其选择性地有利于从限定不连续性的突起中去除材料。