公开(公告)号：US20140170837A1

公开(公告)日：2014-06-19

申请号：US14106699

申请日：2013-12-13

Applicant: IMEC

Inventor： Benjamin Vincent ,  Geert Eneman

IPC: H01L21/322

CPC classification number: H01L21/3225 ,  H01L21/02532 ,  H01L21/02694 ,  H01L21/762 ,  H01L29/66795 ,  H01L29/785

Abstract: A method for reducing defects from an active layer is disclosed. The active layer may be part of a semiconductor in a semiconductor device. The active layer may be defined at least laterally by an isolation structure, and may physically contact an isolation structure at a contact interface. The isolation structure and the active layer may abut on a common substantially planar surface. The method may include providing a patterned stress-inducing layer on the common substantially planar surface. The stress-inducing layer may be adapted for inducing a stress field in the active layer, and induced stress field may result in a shear stress on a defect in the active layer. The method may also include performing an anneal step after providing the patterned stress-inducing layer on the common substantially planar surface. The method may additionally include removing the patterned stress-inducing layer from the common substantially planar surface.

Abstract translation: 公开了一种用于从有源层减少缺陷的方法。 有源层可以是半导体器件中的半导体的一部分。 有源层可以至少由隔离结构侧向限定，并且可以在接触界面物理地接触隔离结构。 隔离结构和有源层可以邻接在共同的基本平坦的表面上。 该方法可以包括在共同的基本上平坦的表面上提供图案化的应力诱导层。 应力诱导层可以适于在活性层中诱导应力场，并且感应应力场可能导致活性层中缺陷的剪切应力。 该方法还可以包括在将图案化的应力诱导层提供在共同的基本平坦的表面上之后执行退火步骤。 该方法可以另外包括从共同的基本平坦的表面去除图案化的应力诱导层。

公开(公告)号：US08698129B2

公开(公告)日：2014-04-15

申请号：US13723149

申请日：2012-12-20

Applicant: IMEC ,  Katholieke Universiteit Leuven, K.U. Leuven R&D

Inventor： Geert Hellings ,  Geert Eneman

IPC: H01L29/06

CPC classification number: H01L29/7782 ,  H01L29/0623 ,  H01L29/36

Abstract: An implant free quantum well transistor wherein the doped region comprises an implant region having an increased concentration of dopants with respect to the concentration of dopants of adjacent regions of the substrate, the implant region being substantially positioned at a side of the quantum well region opposing the gate region.

Abstract translation: 一种无植入物量子阱晶体管，其中所述掺杂区域包括相对于所述衬底的相邻区域的掺杂剂的浓度具有增加的掺杂剂浓度的注入区域，所述注入区域基本上位于所述量子阱区域的相对侧 门区域。

公开(公告)号：US20130161588A1

公开(公告)日：2013-06-27

申请号：US13723149

申请日：2012-12-20

Applicant: IMEC ,  Katholieke Universiteit Leuven, K.U.LEUVEN R&D

Inventor： Geert Hellings ,  Geert Eneman

IPC: H01L29/775 ,  H01L29/66

CPC classification number: H01L29/7782 ,  H01L29/0623 ,  H01L29/36

Abstract: An implant free quantum well transistor wherein the doped region comprises an implant region having an increased concentration of dopants with respect to the concentration of dopants of adjacent regions of the substrate, the implant region being substantially positioned at a side of the quantum well region opposing the gate region.

Abstract translation: 一种无植入物量子阱晶体管，其中所述掺杂区域包括相对于所述衬底的相邻区域的掺杂剂的浓度具有增加的掺杂剂浓度的注入区域，所述注入区域基本上位于所述量子阱区域的相对侧 门区域。

公开(公告)号：US20190081156A1

公开(公告)日：2019-03-14

申请号：US16119132

申请日：2018-08-31

Applicant: IMEC VZW

Inventor： Anabela Veloso ,  Geert Eneman ,  Nadine Collaert ,  Erik Rosseel

IPC: H01L29/66 ,  H01L29/10 ,  H01L29/423 ,  H01L21/02 ,  H01L21/306 ,  H01L29/78 ,  H01L29/165 ,  H01L29/08

Abstract: A device and method for forming a vertical channel device is disclosed. The method includes: forming a vertical semiconductor pillar on a substrate, the vertical semiconductor pillar including a first pillar section, a second pillar section and a third pillar section, wherein the second pillar section is arranged between the first pillar section and the third pillar section and wherein the second pillar section is formed of a material being different from a material forming an upper portion of the first pillar section and different from a material forming a lower portion of the third pillar section; forming a spacer layer on a peripheral surface of the upper portion of the first pillar section and on a peripheral surface of the lower portion of the third pillar section; and forming a gate stack embedding the second pillar section and said upper portion of the first pillar section and said lower portion of the third pillar section, wherein the spacer layer forms a spacer between the gate stack and said upper portion of the first pillar section and between the gate stack and said lower portion of the third pillar section.

公开(公告)号：US09876080B2

公开(公告)日：2018-01-23

申请号：US15218922

申请日：2016-07-25

Applicant: IMEC VZW

Inventor： Bernardette Kunert ,  Robert Langer ,  Geert Eneman

IPC: H01L21/02 ,  H01L29/10 ,  H01L29/423 ,  H01L29/04 ,  H01L21/324 ,  H01L21/306 ,  H01L29/161 ,  H01L29/775 ,  H01L29/06 ,  H01L21/8238

CPC classification number: H01L29/1054 ,  H01L21/02381 ,  H01L21/02455 ,  H01L21/02469 ,  H01L21/02513 ,  H01L21/02524 ,  H01L21/02532 ,  H01L21/30612 ,  H01L21/3245 ,  H01L21/823807 ,  H01L21/823821 ,  H01L29/045 ,  H01L29/0673 ,  H01L29/161 ,  H01L29/42356 ,  H01L29/775

Abstract: Disclosed herein is a semiconductor structure including: (i) a monocrystalline substrate having a top surface, (ii) a non-crystalline structure overlying the monocrystalline substrate and including an opening having a width smaller than 10 microns and exposing part of the top surface of the monocrystalline substrate. The semiconductor structure also includes (iii) a buffer structure having a bottom surface abutting the part and a top surface having less than 108 threading dislocations per cm2, the buffer structure being made of a material having a first lattice constant. The semiconductor structure also includes (iv) one or more group IV monocrystalline structures abutting the buffer structure and that are made of a material having a second lattice constant, different from the first lattice constant.

公开(公告)号：US09406777B2

公开(公告)日：2016-08-02

申请号：US14667376

申请日：2015-03-24

Applicant: IMEC VZW ,  Samsung Electronics Co. Ltd.

Inventor： Seung Hun Lee ,  Geert Eneman

IPC: H01L29/66 ,  H01L21/3065 ,  H01L21/308 ,  H01L29/78 ,  H01L29/10 ,  H01L29/165 ,  H01L29/267

CPC classification number: H01L29/66545 ,  H01L21/3065 ,  H01L21/3083 ,  H01L29/1054 ,  H01L29/165 ,  H01L29/267 ,  H01L29/66636 ,  H01L29/7848

Abstract: A method for manufacturing a transistor device comprising a channel layer is disclosed. In one example, the method includes providing a substrate, epitaxially growing a strained layer on the substrate (defect free), epitaxially growing the channel layer on the epitaxially grown strained layer, and providing a gate structure on the channel layer. In this example, the method also includes selectively etching into the channel layer and at least partially in the epitaxially grown strained layer, thereby using the gate structure as a mask, and thereby creating a protrusion extending from the substrate. The protrusion may comprise a portion of the channel layer and at least an upper portion of the epitaxially grown strained layer, and may allow for elastic relaxation in the portions.

Abstract translation: 公开了一种制造包括沟道层的晶体管器件的方法。 在一个实例中，该方法包括提供衬底，在衬底上外延生长应变层（无缺陷），外延生长外延生长的应变层上的沟道层，并在沟道层上提供栅极结构。 在该示例中，该方法还包括选择性地蚀刻到沟道层中并且至少部分地在外延生长的应变层中蚀刻，从而使用栅极结构作为掩模，从而产生从衬底延伸的突起。 突起可以包括沟道层的一部分和外延生长的应变层的至少上部，并且可以允许部分中的弹性松弛。

公开(公告)号：US09368498B2

公开(公告)日：2016-06-14

申请号：US14878012

申请日：2015-10-08

Applicant: IMEC VZW

Inventor： Geert Eneman ,  Benjamin Vincent ,  Voon Yew Thean

IPC: H01L27/088 ,  H01L29/06 ,  H01L29/10 ,  H01L29/16 ,  H01L29/161 ,  H01L29/165 ,  H01L29/78 ,  H01L21/8238

CPC classification number: H01L27/0886 ,  H01L21/823821 ,  H01L29/0649 ,  H01L29/1054 ,  H01L29/1608 ,  H01L29/161 ,  H01L29/165 ,  H01L29/7842 ,  H01L29/7849

Abstract: A FinFET device and a method for manufacturing a FinFET device is provided. An example device may comprise a substrate including at least two fin structures. Each of the at least two fin structures may be in contact with a source and drain region and each of the at least two fin structures may include a strain relaxed buffer (SRB) overlying and in contact with the substrate and an upper layer overlying and in contact with the SRB. The composition of the upper layer and the SRB may be selected such that the upper layer of a first fin structure is subjected to a first mobility enhancing strain in the as-grown state, the first mobility enhancing strain being applied in a longitudinal direction from the source region to the drain region and where at least an upper part of the upper layer of a second fin structure is strain-relaxed.

公开(公告)号：US09257539B2

公开(公告)日：2016-02-09

申请号：US14566073

申请日：2014-12-10

Applicant: IMEC VZW

Inventor： Rita Rooyackers ,  Nadine Collaert ,  Geert Eneman

IPC: H01L21/00 ,  H01L21/84 ,  H01L21/336 ,  H01L21/20 ,  H01L21/36 ,  H01L21/3205 ,  H01L21/4763 ,  H01L21/302 ,  H01L21/461 ,  H01L29/66 ,  H01L29/423 ,  H01L29/78 ,  H01L29/786 ,  H01L29/06

CPC classification number: H01L29/6681 ,  G10L2015/223 ,  H01L29/0673 ,  H01L29/42392 ,  H01L29/66545 ,  H01L29/66553 ,  H01L29/66818 ,  H01L29/785 ,  H01L29/7853 ,  H01L29/78696

Abstract: A method for manufacturing a transistor device is provided, comprising providing a plurality of parallel nanowires on a substrate; providing a dummy gate structure over a central portion of the parallel nanowires; epitaxially growing extension portions of a second material, selectively on the parallel nanowires, outside a central portion; providing a filler layer around and on top of the dummy gate structure and the extension portions; removing the dummy gate structure to create a gate trench, exposing the central portion of the parallel nanowires; providing spacer structures on the sidewalls of the gate trench, to define a final gate trench; thinning the parallel nanowires, thereby creating free space in between the nanowires and spacer structures; and selectively growing a quantum well layer on or around the parallel nanowires, at least partially filling the free space, to thereby provide a connection between the quantum well layer and extension portions.

Abstract translation: 提供了一种用于制造晶体管器件的方法，包括在衬底上提供多个平行的纳米线; 在所述平行纳米线的中心部分上提供虚拟栅极结构; 外延生长第二材料的延伸部分，选择性地在平行的纳米线上，在中心部分之外; 在所述虚拟栅极结构和所述延伸部分周围和顶部设置填充层; 去除伪栅极结构以产生栅极沟槽，暴露平行纳米线的中心部分; 在所述栅极沟槽的侧壁上提供间隔结构，以限定最终的栅极沟槽; 使平行的纳米线变薄，从而在纳米线和间隔物结构之间产生自由空间; 并且在所述平行的纳米线上或周围选择性地生长量子阱层，至少部分地填充所述自由空间，从而提供所述量子阱层和延伸部分之间的连接。

公开(公告)号：US20150179755A1

公开(公告)日：2015-06-25

申请号：US14566073

申请日：2014-12-10

Applicant: IMEC VZW

Inventor： Rita Rooyackers ,  Nadine Collaert ,  Geert Eneman

IPC: H01L29/66 ,  H01L29/78 ,  H01L29/06

CPC classification number: H01L29/6681 ,  G10L2015/223 ,  H01L29/0673 ,  H01L29/42392 ,  H01L29/66545 ,  H01L29/66553 ,  H01L29/66818 ,  H01L29/785 ,  H01L29/7853 ,  H01L29/78696

Abstract: A method for manufacturing a transistor device is provided, comprising providing a plurality of parallel nanowires on a substrate; providing a dummy gate structure over a central portion of the parallel nanowires; epitaxially growing extension portions of a second material, selectively on the parallel nanowires, outside a central portion; providing a filler layer around and on top of the dummy gate structure and the extension portions; removing the dummy gate structure to create a gate trench, exposing the central portion of the parallel nanowires; providing spacer structures on the sidewalls of the gate trench, to define a final gate trench; thinning the parallel nanowires, thereby creating free space in between the nanowires and spacer structures; and selectively growing a quantum well layer on or around the parallel nanowires, at least partially filling the free space, to thereby provide a connection between the quantum well layer and extension portions.

Abstract translation: 提供了一种用于制造晶体管器件的方法，包括在衬底上提供多个平行的纳米线; 在所述平行纳米线的中心部分上提供虚拟栅极结构; 外延生长第二材料的延伸部分，选择性地在平行的纳米线上，在中心部分之外; 在所述虚拟栅极结构和所述延伸部分周围和顶部设置填充层; 去除伪栅极结构以产生栅极沟槽，暴露平行纳米线的中心部分; 在所述栅极沟槽的侧壁上提供间隔结构，以限定最终的栅极沟槽; 使平行的纳米线变薄，从而在纳米线和间隔物结构之间产生自由空间; 并且在所述平行的纳米线上或周围选择性地生长量子阱层，至少部分地填充所述自由空间，从而提供所述量子阱层和延伸部分之间的连接。

公开(公告)号：US20130154112A1

公开(公告)日：2013-06-20

申请号：US13713932

申请日：2012-12-13

Applicant: IMEC ,  Katholieke Universiteit Leuven, K.U. Leuven R&D

Inventor： Wenqi Zhang ,  Wei-E Wang ,  Geert Eneman ,  Eric Beyne ,  Andrej Ivankovic

IPC: H01L21/48 ,  H01L21/18 ,  H01L23/538

CPC classification number: H01L21/4853 ,  H01L21/185 ,  H01L23/3178 ,  H01L23/481 ,  H01L23/49827 ,  H01L23/5384 ,  H01L24/03 ,  H01L24/05 ,  H01L24/06 ,  H01L24/13 ,  H01L24/14 ,  H01L25/0657 ,  H01L2224/02235 ,  H01L2224/0401 ,  H01L2224/05009 ,  H01L2224/05546 ,  H01L2224/05562 ,  H01L2224/0557 ,  H01L2224/05573 ,  H01L2224/05647 ,  H01L2224/13023 ,  H01L2224/13025 ,  H01L2224/13111 ,  H01L2224/14181 ,  H01L2225/06513 ,  H01L2225/06517 ,  H01L2225/06541 ,  H01L2225/06565 ,  H01L2924/00014 ,  H01L2924/01029 ,  H01L2924/01322 ,  H01L2924/00 ,  H01L2224/05552

Abstract: The disclosure is related to a substrate suitable for use in a stack of interconnected substrates, comprising: a base layer having a front side and a back side surface parallel to the plane of the base layer; one or more interconnect structures, each of said structures comprising: a via filled with an electrically conductive material, said via running through the complete thickness of the base layer, thereby forming an electrical connection between said front side and back side surfaces of the base layer, and on the back side surface of the base layer: a landing pad and a micro-bump in electrical connection with said filled via; characterized in that the backside surface of said base layer comprises one or more isolation ring trenches each of said trenches surrounding one or more of said interconnect structures. The disclosure is equally related to methods for producing said substrates and stacks of substrates.

Abstract translation: 本公开涉及适用于互连基板堆叠的基板，包括：基底层，其具有平行于基底层的平面的前侧和后侧表面; 一个或多个互连结构，每个所述结构包括：填充有导电材料的通孔，所述通孔穿过基底层的整个厚度，由此在基底层的所述前侧和后侧表面之间形成电连接 并且在所述基底层的背侧表面上：与所述填充的通孔电连接的着陆垫和微凸起; 其特征在于，所述基底层的背面包括一个或多个隔离环沟槽，每个所述沟槽围绕一个或多个所述互连结构。 本公开内容同样涉及用于生产所述衬底和衬底叠层的方法。