公开(公告)号：US20130071990A1

公开(公告)日：2013-03-21

申请号：US13677126

申请日：2012-11-14

Applicant: Intermolecular, Inc.

Inventor： Imran Hashim ,  Hanhong Chen ,  Tony Chiang ,  Indranil De ,  Nobi Fuchigami ,  Edward Haywood ,  Pragati Kumar ,  Sandra Malhotra ,  Sunil Shanker

IPC: H01L21/02

CPC classification number: H01L28/65 ,  C23C16/405 ,  C23C16/45529 ,  C23C16/45531 ,  H01L21/02697 ,  H01L21/3141 ,  H01L21/31604 ,  H01L27/10852 ,  H01L28/40

Abstract: This disclosure provides (a) methods of making an oxide layer (e.g., a dielectric layer) based on yttrium and titanium, to have a high dielectric constant and low leakage characteristic and (b) related devices and structures. An oxide layer having both yttrium and titanium may be fabricated either as an amorphous oxide or as an alternating series of monolayers. In several embodiments, the oxide is characterized by a yttrium contribution to total metal that is specifically controlled. The oxide layer can be produced as the result of a reactive process, if desired, via either a PVD process or, alternatively, via an atomic layer deposition process that employs specific precursor materials to allow for a common process temperature window for both titanium and yttrium reactions.

Abstract translation: 本公开内容提供（a）制造基于钇和钛的氧化物层（例如，电介质层）的方法，以具有高介电常数和低泄漏特性，以及（b）相关的器件和结构。 具有钇和钛的氧化物层可以制成无定形氧化物或交替的单层系列。 在几个实施方案中，氧化物的特征在于对特定控制的总金属的钇贡献。 如果需要，可以通过PVD工艺或者通过使用特定的前体材料以允许钛和钇的共同工艺温度窗口的原子层沉积工艺作为反应过程的结果来生产氧化物层 反应。

公开(公告)号：US20130069201A1

公开(公告)日：2013-03-21

申请号：US13675971

申请日：2012-11-13

Applicant: Intermolecular, Inc.

Inventor： Imran Hashim ,  Hanhong Chen ,  Tony Chiang ,  Indranil De ,  Nobumichi Fuchigami ,  Edward Haywood ,  Pragati Kumar ,  Sandra Malhotra ,  Sunil Shanker

IPC: H01L49/02

CPC classification number: H01L28/65 ,  C23C16/405 ,  C23C16/45529 ,  C23C16/45531 ,  H01L21/02697 ,  H01L21/3141 ,  H01L21/31604 ,  H01L27/10852 ,  H01L28/40

Abstract: This disclosure provides (a) methods of making an oxide layer (e.g., a dielectric layer) based on yttrium and titanium, to have a high dielectric constant and low leakage characteristic and (b) related devices and structures. An oxide layer having both yttrium and titanium may be fabricated either as an amorphous oxide or as an alternating series of monolayers. In several embodiments, the oxide is characterized by a yttrium contribution to total metal that is specifically controlled. The oxide layer can be produced as the result of a reactive process, if desired, via either a PVD process or, alternatively, via an atomic layer deposition process that employs specific precursor materials to allow for a common process temperature window for both titanium and yttrium reactions.

公开(公告)号：US08900418B2

公开(公告)日：2014-12-02

申请号：US13677126

申请日：2012-11-14

Applicant: Intermolecular, Inc.

Inventor： Imran Hashim ,  Hanhong Chen ,  Tony Chiang ,  Indranil De ,  Nobi Fuchigami ,  Edward Haywood ,  Pragati Kumar ,  Sandra Malhotra ,  Sunil Shanker

IPC: C23C14/34 ,  B05D5/12 ,  H01L49/02 ,  C23C16/40 ,  C23C16/455 ,  H01L21/314 ,  H01L21/316 ,  H01L27/108 ,  H01L21/02

CPC classification number: H01L28/65 ,  C23C16/405 ,  C23C16/45529 ,  C23C16/45531 ,  H01L21/02697 ,  H01L21/3141 ,  H01L21/31604 ,  H01L27/10852 ,  H01L28/40

Abstract: This disclosure provides (a) methods of making an oxide layer (e.g., a dielectric layer) based on yttrium and titanium, to have a high dielectric constant and low leakage characteristic and (b) related devices and structures. An oxide layer having both yttrium and titanium may be fabricated either as an amorphous oxide or as an alternating series of monolayers. In several embodiments, the oxide is characterized by a yttrium contribution to total metal that is specifically controlled. The oxide layer can be produced as the result of a reactive process, if desired, via either a PVD process or, alternatively, via an atomic layer deposition process that employs specific precursor materials to allow for a common process temperature window for both titanium and yttrium reactions.

Abstract translation: 本公开内容提供（a）制造基于钇和钛的氧化物层（例如电介质层）的方法，以具有高介电常数和低泄漏特性，以及（b）相关的器件和结构。 具有钇和钛的氧化物层可以制成无定形氧化物或交替的单层系列。 在几个实施方案中，氧化物的特征在于对特定控制的总金属的钇贡献。 如果需要，可以通过PVD工艺或者通过使用特定的前体材料以允许钛和钇的共同工艺温度窗口的原子层沉积工艺，作为反应过程的结果来生产氧化物层 反应。

公开(公告)号：US20140077337A1

公开(公告)日：2014-03-20

申请号：US13737156

申请日：2013-01-09

Applicant: INTERMOLECULAR, INC.

Inventor： Hanhong Chen ,  Edward Haywood ,  Sandra Malhotra ,  Hiroyuki Ode

IPC: H01L29/92

CPC classification number: H01L29/92 ,  C23C16/45525 ,  H01L21/28562 ,  H01L28/65 ,  H01L28/75

Abstract: A first electrode layer for a Metal-Insulator-Metal (MIM) DRAM capacitor is formed wherein the first electrode layer contains a conductive metal oxide formed using a high temperature, low pressure ALD process. The high temperature ALD process results in a layer with enhanced crystallinity, higher density, reduced shrinkage, and lower carbon contamination. The high temperature ALD process can be used for either or both the bottom electrode and the top electrode layers.

Abstract translation: 形成金属绝缘体金属（MIM）DRAM电容器的第一电极层，其中第一电极层含有使用高温低压ALD工艺形成的导电金属氧化物。 高温ALD工艺产生了具有增强的结晶度，较高密度，降低的收缩率和较低的碳污染的层。 高温ALD工艺可以用于底部电极和顶部电极层中的一个或两个。

公开(公告)号：US20130161789A1

公开(公告)日：2013-06-27

申请号：US13738914

申请日：2013-01-10

Applicant: Intermolecular, Inc.

Inventor： Karthik Ramani ,  Sandra Malhotra ,  Hiroyuki Ode

IPC: H01L29/92

CPC classification number: H01L28/40 ,  H01L28/60 ,  H01L28/65 ,  H01L29/92

Abstract: A method for fabricating a dynamic random access memory (DRAM) capacitor stack is disclosed wherein the stack includes a first electrode, a dielectric layer, and a second electrode. The first electrode is formed from a conductive binary metal. A dielectric layer is formed over the first electrode. The dielectric layer is subjected to a milliseconds anneal process that serves to crystallize the dielectric material and decrease the concentration of oxygen vacancies.

Abstract translation: 公开了一种用于制造动态随机存取存储器（DRAM）电容器堆叠的方法，其中堆叠包括第一电极，电介质层和第二电极。 第一电极由导电二元金属形成。 在第一电极上形成电介质层。 对电介质层进行几毫秒的退火工艺，以使介电材料结晶并降低氧空位的浓度。

公开(公告)号：US20130140675A1

公开(公告)日：2013-06-06

申请号：US13738901

申请日：2013-01-10

Applicant: Intermolecular, Inc.

Inventor： Hanhong Chen ,  Sandra Malhotra ,  Hiroyuki Ode ,  Xiangxin Rui

IPC: H01L49/02

CPC classification number: H01L28/56 ,  H01L21/02175 ,  H01L21/02189 ,  H01L21/0228 ,  H01L21/02304 ,  H01L28/40

Abstract: A method for fabricating a dynamic random access memory (DRAM) capacitor includes forming a first electrode layer, forming a catalytic layer on the first electrode layer, optionally annealing the catalytic layer, forming a dielectric layer on the catalytic layer, optionally annealing the dielectric layer, forming a second electrode layer on the dielectric layer, and optionally annealing the capacitor stack. Advantageously, the electrode layers are TiN, the catalytic layer is MoO2−x where x is between 0 and 2, and the physical thickness of the catalytic layer is between about 0.5 nm and about 10 nm, and the dielectric layer is ZrO2.

Abstract translation: 一种用于制造动态随机存取存储器（DRAM）电容器的方法包括：形成第一电极层，在第一电极层上形成催化层，任选地退火催化层，在催化层上形成电介质层， 在电介质层上形成第二电极层，并且可选地对电容器堆叠进行退火。 有利地，电极层是TiN，催化剂层是MoO 2-x，其中x在0和2之间，催化层的物理厚度在约0.5nm和约10nm之间，并且电介质层是ZrO 2。

公开(公告)号：US20130127015A1

公开(公告)日：2013-05-23

申请号：US13738831

申请日：2013-01-10

Applicant: Intermolecular, Inc.

Inventor： Hanhong Chen ,  Wim Deweerd ,  Sandra Malhotra ,  Hiroyuki Ode

IPC: H01L49/02

CPC classification number: H01L28/40 ,  H01L21/02178 ,  H01L21/02181 ,  H01L21/02186 ,  H01L21/02189 ,  H01L21/02194 ,  H01L21/0228 ,  H01L27/1085 ,  H01L28/60

Abstract: A method for forming a DRAM MIM capacitor stack having low leakage current and low EOT involves the use of an compound high k dielectric material. The dielectric material further comprises a dopant. One component of the compound high k dielectric material is present in a concentration between about 30 atomic % and about 80 atomic and more preferably between about 40 atomic % and about 60 atomic %. In some embodiments, the compound high k dielectric material comprises an alloy of TiO2 and ZrO2 and further comprises a dopant of Al2O3. In some embodiments, the compound high k dielectric material comprises an admixture of TiO2 and HfO2 and further comprises a dopant of Al2O3.

Abstract translation: 用于形成具有低漏电流和低EOT的DRAM MIM电容器堆叠的方法涉及使用复合高k电介质材料。 电介质材料还包括掺杂剂。 化合物高k介电材料的一个组分以约30原子％至约80原子之间的浓度存在，更优选约40原子％至约60原子％之间。 在一些实施方案中，化合物高k介电材料包含TiO 2和ZrO 2的合金，并且还包含Al 2 O 3的掺杂剂。 在一些实施方案中，化合物高k介电材料包含TiO 2和HfO 2的混合物，并且还包含Al 2 O 3的掺杂剂。