公开(公告)号：US10475601B2

公开(公告)日：2019-11-12

申请号：US15774642

申请日：2016-11-09

Applicant: Massachusetts Institute of Technology

Inventor： Jeffrey H. Lang ,  Timothy M. Swager ,  Vladimir Bulovic ,  Farnaz Niroui ,  Ellen Sletten

IPC: H01L33/06 ,  H01H13/12 ,  G01L1/24 ,  H01H11/04 ,  H01L33/04

Abstract: Devices comprising at least two electrodes with a layer disposed therebetween are disclosed. In some embodiments, the layer disposed therebetween may be an insulator. In some embodiments, the layer may be capable of being deformed. Deforming the layer may cause a change in one or more materials properties of the device, such as the electrical properties and/or the optical properties of the device.

公开(公告)号：US10014438B2

公开(公告)日：2018-07-03

申请号：US15409388

申请日：2017-01-18

Applicant: MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Inventor： Moungi G. Bawendi ,  Vladimir Bulovic ,  Seth Coe-Sullivan ,  Jean-Michel Caruge ,  Jonathan Steckel ,  Jonathan E. Halpert ,  Alexi Arango

IPC: H01L33/14 ,  H01L33/18 ,  H01L51/50 ,  H01L33/06

CPC classification number: H01L33/14 ,  B65D71/36 ,  B65D81/261 ,  B65D2571/00141 ,  B65D2571/0045 ,  B65D2571/00574 ,  B65D2571/0066 ,  B65D2571/00728 ,  B82Y20/00 ,  B82Y30/00 ,  H01L33/005 ,  H01L33/06 ,  H01L33/18 ,  H01L33/26 ,  H01L33/42 ,  H01L51/5012 ,  H01L51/502 ,  H01L51/5048 ,  H01L51/5096 ,  H01L2933/0041

Abstract: A light emitting device includes a semiconductor nanocrystal and a charge transporting layer that includes an inorganic material. The charge transporting layer can be a hole or electron transporting layer. The inorganic material can be an inorganic semiconductor.

公开(公告)号：US09841544B2

公开(公告)日：2017-12-12

申请号：US14563023

申请日：2014-12-08

Applicant: Massachusetts Institute of Technology

Inventor： Gleb M. Akselrod ,  Moungi G. Bawendi ,  Vladimir Bulovic ,  Jonathan R. Tischler ,  William A. Tisdale ,  Brian J. Walker

IPC: G02B5/28 ,  F21K2/00 ,  H01S3/0915 ,  H01L31/0232 ,  H01L51/44 ,  H01S3/16 ,  H01L51/52

CPC classification number: G02B5/288 ,  F21K2/00 ,  G02B5/28 ,  G02B5/286 ,  G02B5/287 ,  G02B2207/113 ,  H01L31/02322 ,  H01L51/447 ,  H01L51/5271 ,  H01S3/0915 ,  H01S3/168 ,  H01S3/169 ,  Y02E10/52 ,  Y02E10/549 ,  Y02P70/521

Abstract: Disclosed are a device and a method for the design and fabrication of the device for enhancing the brightness of luminescent molecules, nanostructures, and thin films. The device includes a mirror, a dielectric medium or spacer, an absorptive layer, and a luminescent layer. The absorptive layer is a continuous thin film of a strongly absorbing organic or inorganic material. The luminescent layer may be a continuous luminescent thin film or an arrangement of isolated luminescent species, e.g., organic or metal-organic dye molecules, semiconductor quantum dots, or other semiconductor nanostructures, supported on top of the absorptive layer.

公开(公告)号：US20160201881A1

公开(公告)日：2016-07-14

申请号：US14993399

申请日：2016-01-12

Applicant: Massachusetts Institute of Technology

Inventor： Patrick R. Brown ,  Geoffrey J. Supran ,  Jeffrey C. Grossman ,  Moungi G. Bawendi ,  Vladimir Bulovic

IPC: F21V14/00 ,  F21V9/16

Abstract: A light emitting device can include a light source, a first electrode, a second electrode, a first barrier layer, a second barrier layer, and an emitter layer between the first barrier layer and the second barrier layer. A method of controllably generating light can comprise two states: An ON state, wherein an emitter layer of a device (which includes a photoluminescent pixel) is illuminated with a light source in the absence of an electric field, and the emitter layer generates light through photoluminescence; and an OFF state, wherein an emitter layer of a device (which includes a photoluminescent pixel) is illuminated with a light source in the presence of a static or time-varying electric field, and the electric field or induced current results in quenching of the emitter photoluminescence.

Abstract translation: 发光器件可以包括第一阻挡层和第二阻挡层之间的光源，第一电极，第二电极，第一阻挡层，第二阻挡层和发射极层。 可控制地产生光的方法可以包括两种状态：导通状态，其中在不存在电场的情况下，用光源照射器件的发射极层（其包括光致发光像素），并且发射极层通过 光致发光; 和OFF状态，其中在存在静态或时变电场的情况下，用光源照射装置（包括光致发光像素）的发射极层，并且电场或感应电流导致 发射体光致发光。

公开(公告)号：US09352959B1

公开(公告)日：2016-05-31

申请号：US14541065

申请日：2014-11-13

Applicant: MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Inventor： Vladimir Bulovic ,  Jeffrey Hastings Lang ,  Annie I-Jen Wang ,  Apoorva Murarka ,  Wendi Chang

IPC: H01L29/84 ,  H01L21/30 ,  B81C1/00 ,  B81C3/00 ,  H01S5/187 ,  H01S5/10 ,  H01S5/06 ,  G01L11/02 ,  G01L9/00

CPC classification number: B81C1/00158 ,  B81B2201/042 ,  B81C1/00182 ,  B81C1/00634 ,  B81C2201/0194 ,  G01L9/0005 ,  G01L9/0072 ,  G01L11/02 ,  G02B26/001 ,  G02B26/0825 ,  G02B26/0841 ,  H01L29/84 ,  H01S5/0607 ,  H01S5/1039 ,  H01S5/187

Abstract: The disclosure relates to method and apparatus for micro-contact printing of micro-electromechanical systems (“MEMS”) in a solvent-free environment. The disclosed embodiments enable forming a composite membrane over a parylene layer and transferring the composite structure to a receiving structure to form one or more microcavities covered by the composite membrane. The parylene film may have a thickness in the range of about 100 nm-2 microns; 100 nm-1 micron, 200-300 nm, 300-500 nm, 500 nm to 1 micron and 1-30 microns. Next, one or more secondary layers are formed over the parylene to create a composite membrane. The composite membrane may have a thickness of about 100 nm to 700 nm to several microns. The composite membrane's deflection in response to external forces can be measured to provide a contact-less detector. Conversely, the composite membrane may be actuated using an external bias to cause deflection commensurate with the applied bias. Applications of the disclosed embodiments include tunable lasers, microphones, microspeakers, remotely-activated contact-less pressure sensors and the like.

公开(公告)号：US20150357142A1

公开(公告)日：2015-12-10

申请号：US14763681

申请日：2014-01-28

Applicant: MASSACHUSETTS INSTITUTE OF TECHNOLOGY

Inventor： Vladimir Bulovic ,  Jeffrey H. Lang ,  Hae-Seung Lee ,  Timothy M. Swager ,  Trisha L. Andrew ,  Matthew Eric D'Asaro ,  Parag Deotare ,  Apoorva Murarka ,  Farnaz Niroui ,  Ellen Sletten ,  Annie I-Jen Wang

IPC: H01H59/00 ,  H01H49/00

CPC classification number: H01H59/0009 ,  H01H49/00 ,  H01L45/00 ,  Y10T156/10

Abstract: Electromechanical devices described herein may employ tunneling phenomena to function as low-voltage switches. Opposing electrodes may be separated by an elastically deformable layer which, in some cases, may be made up of a non-electrically conductive material. In some embodiments, the elastically deformable layer is substantially free of electrically conductive material. When a sufficient actuation voltage and/or force is applied, the electrodes are brought toward one another and, accordingly, the elastically deformable layer is compressed. Though, the elastically deformable layer prevents the electrodes from making direct contact with one another. Rather, when the electrodes are close enough to one another, a tunneling current arises therebetween. The elastically deformable layer may exhibit spring-like behavior such that, upon release of the actuation voltage and/or force, the separation distance between electrodes is restored. Thus, the electromechanical device may be actuated between open and closed switch positions.

Abstract translation: 本文所述的机电装置可以采用隧道现象作为低压开关。 相反的电极可以由可弹性变形的层隔开，在一些情况下，这些可由非导电材料组成。 在一些实施例中，弹性变形层基本上不含导电材料。 当施加足够的致动电压和/或力时，电极彼此相向，并且因此可弹性变形层被压缩。 尽管可弹性变形层防止电极彼此直接接触。 相反，当电极彼此足够接近时，在其间产生隧穿电流。 可弹性变形层可以呈现类似弹簧的行为，使得在释放致动电压和/或力时，恢复电极之间的间隔距离。 因此，可以在打开和关闭的开关位置之间致动机电装置。

公开(公告)号：US20140147951A1

公开(公告)日：2014-05-29

申请号：US14091355

申请日：2013-11-27

Applicant: Massachusetts Institute of Technology

Inventor： Vladimir Bulovic ,  Katherine Wei Song ,  Ronny Costi

IPC: H01L33/04 ,  H01L33/36

CPC classification number: H01L33/36 ,  H01L21/02057 ,  H01L27/286 ,  H01L33/005 ,  H01L33/0087 ,  H01L33/06 ,  H01L51/4233 ,  H01L51/502 ,  Y02E10/549

Abstract: A method of depositing semiconductor nanocrystals on a surface can include applying a voltage to the nanocrystals.

Abstract translation: 在表面上沉积半导体纳米晶体的方法可以包括向纳米晶体施加电压。

公开(公告)号：US20140102539A1

公开(公告)日：2014-04-17

申请号：US13785476

申请日：2013-03-05

Applicant: Massachusetts Institute of Technology

Inventor： Timothy M. Swager ,  Vladimir Bulovic ,  Ggoch Ddeul Han ,  Trisha L. Andrew

IPC: H01L51/00

CPC classification number: H01L51/0047 ,  B82Y10/00 ,  B82Y30/00 ,  C01B32/158 ,  C01B32/182 ,  H01L51/0003 ,  H01L51/4253 ,  Y02E10/549 ,  Y10S977/738 ,  Y10S977/746 ,  Y10S977/948

Abstract: Embodiments described herein provide functionalized carbon nanostructures for use in various devices, including photovoltaic devices (e.g., solar cells). In some embodiments, carbon nanostructures substituted with at least one cyclobutyl and/or cyclobutenyl group are provided. Devices including such materials may exhibit increased efficiency, increased open circuit potential, high electron/hole mobility, and/or low electrical resistance.

Abstract translation: 本文所述的实施方案提供用于各种装置的官能化碳纳米结构，包括光伏器件（例如，太阳能电池）。 在一些实施方案中，提供了被至少一个环丁基和/或环丁烯基取代的碳纳米结构。 包括这种材料的器件可以表现出提高的效率，增加的开路电位，高电子/空穴迁移率和/或低电阻。

公开(公告)号：US20130181962A1

公开(公告)日：2013-07-18

申请号：US13783525

申请日：2013-03-04

Applicant: Massachusetts Institute of Technology

Inventor： Vladimir Bulovic ,  Jonathan R. Tischler ,  Jennifer Yu

IPC: G06F3/038

CPC classification number: G06F3/038 ,  G09G3/3216 ,  G09G3/3225 ,  G09G2320/029 ,  G09G2320/043 ,  G09G2320/0693 ,  G09G2360/145

Abstract: Embodiments of the present invention provide for an array, and corresponding method of forming an array, that includes a plurality of light emitting devices. The light emitting devices are disposed over a substrate, and a photodetector detects light emitted through the substrate from the light emitting devices. Further, a substantially constant brightness may be maintained in a plurality of light emitting devices disposed over the upper surface of a substrate in an array. Light emitted through the substrate from each of the light emitting devices is measured, and the voltage level applied to each of the light emitting devices is varied to maintain a substantially constant brightness level of light emitted from the light emitting devices.

Abstract translation: 本发明的实施例提供一种阵列，以及形成阵列的相应方法，其包括多个发光器件。 发光器件设置在衬底上，并且光电检测器从发光器件检测通过衬底发射的光。 此外，可以在阵列中的衬底的上表面上设置的多个发光器件中保持基本恒定的亮度。 测量从每个发光器件通过衬底发射的光，并且改变施加到每个发光器件的电压电平，以保持从发光器件发射的光的基本上恒定的亮度水平。

公开(公告)号：US20240188422A1

公开(公告)日：2024-06-06

申请号：US18562679

申请日：2022-05-26

Applicant: Massachusetts Institute of Technology

Inventor： Vladimir Bulovic ,  Richard Swartwout

IPC: H10K85/50 ,  C07F19/00 ,  C09D11/033 ,  C09D11/037 ,  C09D11/52 ,  H10K30/10 ,  H10K30/50 ,  H10K71/15

CPC classification number: H10K85/50 ,  C07F19/005 ,  C09D11/033 ,  C09D11/037 ,  C09D11/52 ,  H10K30/10 ,  H10K30/50 ,  H10K71/15

Abstract: Semiconductor thin films and rapid methods of fabrication can include mixed cations created through recrystalization.