公开(公告)号：US06715498B1

公开(公告)日：2004-04-06

申请号：US10236613

申请日：2002-09-06

申请人： Raashina Humayun ,  Patrick Christopher Joyce ,  Vishal Gauri ,  Adrianne Kay Tipton

发明人： Raashina Humayun ,  Patrick Christopher Joyce ,  Vishal Gauri ,  Adrianne Kay Tipton

IPC分类号： B08B704

CPC分类号： H01L21/67115 ,  B08B7/0021 ,  B08B7/0057 ,  H01L21/6708 ,  Y10S134/902

摘要： A supercritical process vessel with an interior for holding a supercritical fluid is provided. A wafer support for supporting a wafer within the interior of a supercritical process vessel to expose the wafer to the supercritical fluid is provided. A lamp, which is able to operate at supercritical fluid pressures within the interior of the supercritical process vessel is provided.

摘要翻译： 提供了一种具有用于保持超临界流体的内部的超临界加工容器。 提供了用于将晶片支撑在超临界处理容器的内部以将晶片暴露于超临界流体的晶片支撑件。 提供了能够在超临界流体容器内部的超临界流体压力下工作的灯。

公开(公告)号：US07074690B1

公开(公告)日：2006-07-11

申请号：US10810066

申请日：2004-03-25

申请人： Vishal Gauri ,  Raashina Humayun

发明人： Vishal Gauri ,  Raashina Humayun

IPC分类号： H01L21/443 ,  H01L21/762

CPC分类号： H01L21/76837 ,  H01L21/02164 ,  H01L21/02263 ,  H01L21/02282 ,  H01L21/31608

摘要： Methods for selectively depositing a solid material on a substrate having gaps of dimension on the order of about 100 nm or less are disclosed. The methods involve exposing the substrate to a precursor of a solid material, such that the precursor forms liquid regions in at least some of the gaps, followed by exposing the substrate to conditions that evaporate the liquid precursor from regions outside the gaps but maintain at least some of the liquid regions in the gaps. The liquid precursor remaining in the gaps is then converted to solid material, thereby selectively filling the gaps with the material.

摘要翻译： 公开了在具有约100nm或更小数量级的间隙的基板上选择性地沉积固体材料的方法。 所述方法包括将基底暴露于固体材料的前体，使得前体在至少一些间隙中形成液体区域，然后将基底暴露于从间隙外的区域蒸发液体前体的条件，但保持至少 一些液体区域在间隙中。 残留在间隙中的液体前体然后转化为固体材料，从而用材料选择性地填充间隙。

公开(公告)号：US09257302B1

公开(公告)日：2016-02-09

申请号：US13461287

申请日：2012-05-01

申请人： Feng Wang ,  Brian Lu ,  Nerissa Draeger ,  Vishal Gauri ,  Raashina Humayun ,  Michal Danek ,  Bart van Schravendijk ,  Lakshminarayana Nittala

发明人： Feng Wang ,  Victor Y. Lu ,  Brian Lu ,  Wai-Fan Yau ,  Nerissa Draeger ,  Vishal Gauri ,  Raashina Humayun ,  Michal Danek ,  Bart van Schravendijk ,  Lakshminarayana Nittala

IPC分类号： H01L21/316

CPC分类号： H01L21/76224 ,  H01L21/02126 ,  H01L21/02164 ,  H01L21/02216 ,  H01L21/02323

摘要： Provided are methods of filling gaps on a substrate by creating flowable silicon oxide-containing films. The methods involve introducing vapor-phase silicon-containing precursor and oxidant reactants into a reaction chamber containing the substrate under conditions such that a condensed flowable film is formed on the substrate. The flowable film at least partially fills gaps on the substrate. In certain embodiments, the methods involve using a catalyst in the formation of the film. The catalyst may be incorporated into one of the reactants and/or introduced as a separate reactant.

摘要翻译： 提供了通过产生可流动的含氧化硅膜在基板上填充间隙的方法。 所述方法包括将气相含硅前体和氧化剂反应物引入含有基材的反应室中，使得在基材上形成冷凝的可流动的膜。 可流动膜至少部分地填充衬底上的间隙。 在某些实施方案中，该方法包括在形成膜中使用催化剂。 催化剂可以并入到一种反应物中和/或作为单独的反应物引入。

公开(公告)号：US07524735B1

公开(公告)日：2009-04-28

申请号：US11447594

申请日：2006-06-05

申请人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

发明人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

IPC分类号： H01L21/762

CPC分类号： H01L21/31 ,  C23C16/045 ,  C23C16/401 ,  C23C16/56 ,  H01L21/02164 ,  H01L21/02271 ,  H01L21/0234 ,  H01L21/3121 ,  H01L21/3122 ,  H01L21/31608 ,  H01L21/76224

摘要： Methods of this invention relate to filling gaps on substrates with a solid dielectric material by forming a flowable film in the gap. The flowable film provides consistent, void-free gap fill. The film is then converted to a solid dielectric material. In this manner gaps on the substrate are filled with a solid dielectric material. According to various embodiments, the methods involve reacting a dielectric precursor with an oxidant to form the dielectric material. In certain embodiments, the dielectric precursor condenses and subsequently reacts with the oxidant to form dielectric material. In certain embodiments, vapor phase reactants react to form a condensed flowable film.

摘要翻译： 本发明的方法涉及通过在间隙中形成可流动的膜来填充具有固体电介质材料的衬底上的间隙。 可流动膜提供一致的，无空隙的间隙填充。 然后将膜转化成固体电介质材料。 以这种方式，用固体电介质材料填充衬底上的间隙。 根据各种实施方案，所述方法包括使电介质前体与氧化剂反应以形成电介质材料。 在某些实施方案中，电介质前体冷凝并随后与氧化剂反应以形成电介质材料。 在某些实施方案中，气相反应物反应形成冷凝的可流动的膜。

公开(公告)号：US07888233B1

公开(公告)日：2011-02-15

申请号：US12411243

申请日：2009-03-25

申请人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

发明人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

IPC分类号： H01L21/4757

CPC分类号： H01L21/31 ,  C23C16/045 ,  C23C16/401 ,  C23C16/56 ,  H01L21/02164 ,  H01L21/02271 ,  H01L21/0234 ,  H01L21/3121 ,  H01L21/3122 ,  H01L21/31608 ,  H01L21/76224

摘要： Methods of this invention relate to filling gaps on substrates with a solid dielectric material by forming a flowable film in the gap. The flowable film provides consistent, void-free gap fill. The film is then converted to a solid dielectric material. In this manner gaps on the substrate are filled with a solid dielectric material. According to various embodiments, the methods involve reacting a dielectric precursor with an oxidant to form the dielectric material. In certain embodiments, the dielectric precursor condenses and subsequently reacts with the oxidant to form dielectric material. In certain embodiments, vapor phase reactants react to form a condensed flowable film.

摘要翻译： 本发明的方法涉及通过在间隙中形成可流动的膜来填充具有固体电介质材料的衬底上的间隙。 可流动膜提供一致的，无空隙的间隙填充。 然后将膜转化成固体电介质材料。 以这种方式，用固体电介质材料填充衬底上的间隙。 根据各种实施方案，所述方法包括使电介质前体与氧化剂反应以形成电介质材料。 在某些实施方案中，电介质前体冷凝并随后与氧化剂反应以形成电介质材料。 在某些实施方案中，气相反应物反应形成冷凝的可流动的膜。

公开(公告)号：US08481403B1

公开(公告)日：2013-07-09

申请号：US12984524

申请日：2011-01-04

申请人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

发明人： Vishal Gauri ,  Raashina Humayun ,  Chi-I Lang ,  Judy H. Huang ,  Michael Barnes ,  Sunil Shanker

IPC分类号： H01L21/4757

CPC分类号： H01L21/31 ,  C23C16/045 ,  C23C16/401 ,  C23C16/56 ,  H01L21/02164 ,  H01L21/02271 ,  H01L21/0234 ,  H01L21/3121 ,  H01L21/3122 ,  H01L21/31608 ,  H01L21/76224

摘要： Methods of this invention relate to filling gaps on substrates with a solid dielectric material by forming a flowable film in the gap. The flowable film provides consistent, void-free gap fill. The film is then converted to a solid dielectric material. In this manner gaps on the substrate are filled with a solid dielectric material. According to various embodiments, the methods involve reacting a dielectric precursor with an oxidant to form the dielectric material. In certain embodiments, the dielectric precursor condenses and subsequently reacts with the oxidant to form dielectric material. In certain embodiments, vapor phase reactants react to form a condensed flowable film.

公开(公告)号：US07078312B1

公开(公告)日：2006-07-18

申请号：US10654113

申请日：2003-09-02

申请人： Siswanto Sutanto ,  Wenxian Zhu ,  Waikit Fung ,  Mayasari Lim ,  Vishal Gauri ,  George D. Papasouliotis

发明人： Siswanto Sutanto ,  Wenxian Zhu ,  Waikit Fung ,  Mayasari Lim ,  Vishal Gauri ,  George D. Papasouliotis

IPC分类号： H01L21/76

CPC分类号： H01L21/31612 ,  C23C16/045 ,  C23C16/401 ,  H01L21/02164 ,  H01L21/02274 ,  H01L21/31116 ,  H01L21/76224 ,  Y10S438/959

摘要： Plasma etch processes incorporating etch chemistries which include hydrogen. In particular, high density plasma chemical vapor deposition-etch-deposition processes incorporating etch chemistries which include hydrogen that can effectively fill high aspect ratio (typically at least 3:1, for example 6:1, and up to 10:1 or higher), narrow width (typically sub 0.13 micron, for example 0.1 micron or less) gaps while reducing or eliminating chamber loading and redeposition and improving wafer-to-wafer uniformity relative to conventional deposition-etch-deposition processes which do not incorporate hydrogen in their etch chemistries.

摘要翻译： 包括蚀刻化学的等离子体蚀刻工艺，其中包括氢。 特别地，结合蚀刻化学的高密度等离子体化学气相沉积 - 蚀刻沉积方法，其包括可以有效地填充高纵横比（通常至少3:1，例如6:1，最多10:1或更高）的氢， ，窄宽度（通常为0.13微米，例如0.1微米或更小）的间隙，同时相对于在其蚀刻中不掺入氢的常规沉积 - 蚀刻沉积工艺，减少或消除了室的负载和再沉积，并且提高了晶片到晶片的均匀性 化学品。

公开(公告)号：US06787483B1

公开(公告)日：2004-09-07

申请号：US10442846

申请日：2003-05-20

申请人： Atiye Bayman ,  Md Sazzadur Rahman ,  Weijie Zhang ,  Bart van Schravendijk ,  Vishal Gauri ,  George D. Papasoulitotis ,  Vikram Singh

发明人： Atiye Bayman ,  Md Sazzadur Rahman ,  Weijie Zhang ,  Bart van Schravendijk ,  Vishal Gauri ,  George D. Papasoulitotis ,  Vikram Singh

IPC分类号： H01L2131

CPC分类号： H01L21/02129 ,  C23C16/045 ,  C23C16/402 ,  H01J2237/3327 ,  H01L21/02131 ,  H01L21/0214 ,  H01L21/02164 ,  H01L21/02274 ,  H01L21/3144 ,  H01L21/3145 ,  H01L21/31608 ,  H01L21/31625 ,  H01L21/31629 ,  H01L21/76224

摘要： Chemical vapor deposition processes are employed to fill high aspect ratio (typically at least 3:1), narrow width (typically 1.5 microns or less and even sub 0.15 micron) gaps with significantly reduced incidence of voids or weak spots. This deposition process involves the use of hydrogen as a process gas in the reactive mixture of a plasma containing CVD reactor. The process gas also includes dielectric forming precursor molecules such as silicon and oxygen containing molecules.

摘要翻译： 使用化学气相沉积方法来填充高纵横比（通常至少3:1），窄宽度（通常为1.5微米或更小甚至0.15微米以下）间隙，空隙或弱点的发生率显着降低。 该沉积工艺涉及在含等离子体CVD反应器的反应混合物中使用氢作为工艺气体。 工艺气体还包括电介质形成前体分子，例如硅和含氧分子。

公开(公告)号：US06531209B2

公开(公告)日：2003-03-11

申请号：US09728722

申请日：2000-12-01

申请人： Daniel Polis ,  Vishal Gauri

发明人： Daniel Polis ,  Vishal Gauri

IPC分类号： B32B502

CPC分类号： C03C27/10 ,  B32B18/00 ,  C04B2235/602 ,  C04B2235/6587 ,  C04B2237/064 ,  C04B2237/068 ,  C04B2237/083 ,  C04B2237/09 ,  C04B2237/343 ,  C04B2237/525 ,  C04B2237/765 ,  C04B2237/84 ,  Y10T428/24942 ,  Y10T428/24992 ,  Y10T428/31801

摘要： A suspension adhesive comprised of a matrix material and a particulate filler material is useful for bonding, sealing, repairing, and modifying ceramic, glass, and powdered metal components in a light source. A method for making the suspension adhesive includes the selection of a filler material and a volume percentage of the filler material. Additionally, a matrix material is selected and the filler material is dispersed throughout the matrix material. The suspension adhesive is used to bond and seal components to form, for example, an arc tube for a light source.

摘要翻译： 由基质材料和颗粒填料组成的悬浮粘合剂可用于在光源中粘合，密封，修复和改性陶瓷，玻璃和粉末状金属组分。 制备悬浮粘合剂的方法包括填料的选择和填料的体积百分比。 此外，选择基质材料并且填充材料分散在整个基质材料中。 悬浮粘合剂用于粘合和密封部件以形成例如用于光源的电弧管。

公开(公告)号：US07217658B1

公开(公告)日：2007-05-15

申请号：US10935909

申请日：2004-09-07

申请人： Atiye Bayman ,  George D. Papasouliotis ,  Yong Ling ,  Weijie Zhang ,  Vishal Gauri ,  Mayasari Lim

发明人： Atiye Bayman ,  George D. Papasouliotis ,  Yong Ling ,  Weijie Zhang ,  Vishal Gauri ,  Mayasari Lim

IPC分类号： H01L21/44

CPC分类号： H01L21/76837 ,  C23C16/045 ,  C23C16/402 ,  H01L21/02129 ,  H01L21/02164 ,  H01L21/02274 ,  H01L21/3144 ,  H01L21/31612 ,  H01L21/31625 ,  H01L21/31629 ,  H01L21/31633

摘要： High density plasma chemical vapor deposition and etch back processes fill high aspect ratio gaps without liner erosion or further underlying structure attack. The characteristics of the deposition process are modulated such that the deposition component of the process initially dominates the sputter component of the process. For example, reactive gasses are introduced in a gradient fashion into the HDP reactor and introduction of bias power onto the substrate is delayed and gradually increased or reactor pressure is decreased. In the case of a multi-step etch enhanced gap fill process, the invention may involve gradually modulating deposition and etch components during transitions between process steps. By carefully controlling the transitions between process steps, including the introduction of reactive species into the HDP reactor and the application of source and bias power onto the substrate, structure erosion is prevented.

摘要翻译： 高密度等离子体化学气相沉积和回蚀工艺可以填充高纵横比间隙，无需衬垫侵蚀或进一步的基础结构攻击。 调制沉积工艺的特性使得该工艺的沉积组分最初主导该工艺的溅射部件。 例如，反应性气体以梯度方式引入HDP反应器中，并且将偏置功率引入到衬底上被延迟并逐渐增加或反应器压力降低。 在多步骤蚀刻增强的间隙填充工艺的情况下，本发明可以涉及在工艺步骤之间的过渡期间逐渐调制沉积和蚀刻部件。 通过仔细控制工艺步骤之间的转变，包括将活性物质引入HDP反应器中，以及将源和偏置功率施加到衬底上，防止结构侵蚀。