公开(公告)号：US11837403B2

公开(公告)日：2023-12-05

申请号：US15931987

申请日：2020-05-14

Applicant: Massachusetts Institute of Technology ,  Analog Devices, Inc.

Inventor： Karen K. Gleason ,  Brian L. Wardle ,  Estelle Cohen ,  Yue Zhou ,  Xiaoxue Wang ,  Yosef Stein

IPC: H01G11/28 ,  H01M4/36 ,  H01M4/583 ,  H01M4/62 ,  H01G11/68 ,  H01G11/36 ,  H01G11/56 ,  H01G11/70 ,  H01M4/133

CPC classification number: H01G11/28 ,  H01G11/36 ,  H01G11/56 ,  H01G11/68 ,  H01G11/70 ,  H01M4/133 ,  H01M4/366 ,  H01M4/583 ,  H01M4/624

Abstract: Systems and methods involving nanomaterial-based electrodes, such as supercapacitor and battery electrodes that can be flexible, are described.

公开(公告)号：US10350837B2

公开(公告)日：2019-07-16

申请号：US15609557

申请日：2017-05-31

Applicant: Massachusetts Institute of Technology ,  Saab AB

Inventor： Brian L. Wardle ,  Pontus Nordin

IPC: B29C70/42 ,  C01B32/162 ,  B29C53/02 ,  C08J5/00 ,  C08J7/06 ,  B29C70/08 ,  B29C70/14 ,  B29K105/16 ,  B29K307/04 ,  B82Y30/00 ,  B82Y40/00

Abstract: The present disclosure relates to composite articles comprising non-linear elongated nanostructures and associated systems and methods. In certain embodiments, collections of carbon nanotubes or other elongated nanostructures can be used to provide mechanical reinforcement along multiple directions within a composite article.

公开(公告)号：US20190085138A1

公开(公告)日：2019-03-21

申请号：US16056745

申请日：2018-08-07

Applicant: Massachusetts Institute of Technology

Inventor： Jeonyoon Lee ,  Brian L. Wardle

IPC: C08J5/00 ,  C01B32/16 ,  C08J5/24

Abstract: Methods and systems for the fabrication of composite materials are generally described. Certain inventive methods and systems can be used to fabricate composite materials with few or no defects. According to certain embodiments, composite materials are fabricated without the use of an autoclave. In some embodiments, composite materials are fabricated in low pressure environments.

公开(公告)号：US20180332666A1

公开(公告)日：2018-11-15

申请号：US15830799

申请日：2017-12-04

Applicant: Metis Design Corporation ,  Massachusetts Institute of Technology

Inventor： Seth S. Kessler ,  Ajay Raghavan ,  Brian L. Wardle

IPC: H05B3/14 ,  H01B1/02 ,  B64D15/12 ,  B64D15/20 ,  G01N25/00 ,  G01N25/72 ,  C08K3/04 ,  B82Y99/00 ,  B64D45/00 ,  B64C1/00

CPC classification number: H05B3/145 ,  B64C2001/0072 ,  B64D15/12 ,  B64D15/20 ,  B64D2045/0085 ,  B82Y99/00 ,  C08K3/04 ,  C08K3/041 ,  G01N25/00 ,  G01N25/72 ,  H01B1/02 ,  H05B2203/003 ,  H05B2203/021 ,  H05B2214/02 ,  H05B2214/04 ,  Y02T50/43 ,  Y10S977/742

Abstract: Various applications for structured CNT-engineered materials are disclosed herein. In one application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of providing its own structural feedback. In another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of generating heat. In yet another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of functioning as an antenna, for example, for receiving, transmitting, absorbing and/or dissipating a signal. In still another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of serving as a conduit for thermal or electrical energy.

公开(公告)号：US09839073B2

公开(公告)日：2017-12-05

申请号：US15250340

申请日：2016-08-29

Applicant: Metis Design Corporation ,  Massachusetts Institute of Technology

Inventor： Seth S. Kessler ,  Ajay Raghavan ,  Brian L. Wardle

IPC: H05B1/02 ,  H05B3/14 ,  H01B1/02 ,  G01N25/72 ,  G01N25/00 ,  B64D15/20 ,  B64D15/12 ,  C08K3/04 ,  B82Y99/00 ,  B64C1/00 ,  B64D45/00

CPC classification number: H05B3/145 ,  B64C2001/0072 ,  B64D15/12 ,  B64D15/20 ,  B64D2045/0085 ,  B82Y99/00 ,  C08K3/04 ,  C08K3/041 ,  G01N25/00 ,  G01N25/72 ,  H01B1/02 ,  H05B2203/003 ,  H05B2203/021 ,  H05B2214/02 ,  H05B2214/04 ,  Y02T50/43 ,  Y10S977/742

Abstract: Various applications for structured CNT-engineered materials are disclosed herein. In one application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of providing its own structural feedback. In another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of generating heat. In yet another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of functioning as an antenna, for example, for receiving, transmitting, absorbing and/or dissipating a signal. In still another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of serving as a conduit for thermal or electrical energy.

公开(公告)号：US20170183232A1

公开(公告)日：2017-06-29

申请号：US15374794

申请日：2016-12-09

Applicant: Massachusetts Institute of Technology

Inventor： Stephen A. Steiner, III ,  Brian L. Wardle ,  Richard Li

IPC: D01F9/12 ,  D06M11/79 ,  D06M15/233 ,  C23C16/22 ,  D01F9/127 ,  D06M11/45 ,  C23C16/44 ,  C01B31/02

CPC classification number: C01B32/18 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/15 ,  C01B32/16 ,  C01B2202/08 ,  C23C16/22 ,  C23C16/44 ,  D01F9/127 ,  D06M11/45 ,  D06M11/74 ,  D06M11/79 ,  D06M15/233 ,  D06M15/263 ,  D06M2101/40 ,  Y10S977/742 ,  Y10S977/843 ,  Y10T428/249924 ,  Y10T428/2918 ,  Y10T428/292 ,  Y10T428/2933 ,  Y10T428/31504 ,  Y10T428/31678 ,  Y10T428/31935 ,  Y10T442/20

Abstract: Systems and methods for the formation of nanostructures, including carbon-based nanostructures, are generally described. In certain embodiments, substrate configurations and associated methods are described.

公开(公告)号：US20170019954A1

公开(公告)日：2017-01-19

申请号：US15250340

申请日：2016-08-29

Applicant: Metis Design Corporation ,  Massachusetts Institute of Technology

Inventor： Seth S. Kessler ,  Ajay Raghavan ,  Brian L. Wardle

IPC: H05B3/14 ,  G01N25/72

CPC classification number: H05B3/145 ,  B64C2001/0072 ,  B64D15/12 ,  B64D15/20 ,  B64D2045/0085 ,  B82Y99/00 ,  C08K3/04 ,  C08K3/041 ,  G01N25/00 ,  G01N25/72 ,  H01B1/02 ,  H05B2203/003 ,  H05B2203/021 ,  H05B2214/02 ,  H05B2214/04 ,  Y02T50/43 ,  Y10S977/742

Abstract: Various applications for structured CNT-engineered materials are disclosed herein. In one application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of providing its own structural feedback. In another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of generating heat. In yet another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of functioning as an antenna, for example, for receiving, transmitting, absorbing and/or dissipating a signal. In still another application, systems are disclosed, wherein a structured CNT-engineered material forms at least part of an object capable of serving as a conduit for thermal or electrical energy.

Abstract translation: 本文公开了用于结构化CNT工程材料的各种应用。 在一个应用中，公开了一种系统，其中结构化CNT工程材料形成能够提供其自身结构反馈的对象的至少一部分。 在另一个应用中，公开了一种系统，其中结构化CNT工程材料形成能够产生热的物体的至少一部分。 在另一个应用中，公开了一种系统，其中结构化的CNT工程材料形成能够用作天线的物体的至少一部分，例如用于接收，传输，吸收和/或耗散信号。 在另一个应用中，公开了一种系统，其中结构化CNT工程材料形成能够用作热能或电能导管的物体的至少一部分。

公开(公告)号：US09506846B2

公开(公告)日：2016-11-29

申请号：US13962202

申请日：2013-08-08

Applicant: Massachusetts Institute of Technology

Inventor： Michael Rubner ,  Brian L. Wardle ,  Robert E. Cohen ,  Mehmet Toner ,  Fabio Fachin

IPC: G01N15/06 ,  G01N33/00 ,  G01N33/48 ,  B01L3/00 ,  G01N35/00 ,  G01N1/10 ,  G01N1/34 ,  G01N1/40

CPC classification number: G01N1/34 ,  B01L3/502707 ,  B01L3/502753 ,  B01L2300/0636 ,  B01L2300/0877 ,  B01L2300/0896 ,  B01L2400/086 ,  G01N2001/4088

Abstract: A microfluidic device for manipulating particles can include a substrate and one or more obstacles, each obstacle comprising a plurality of aligned nanostructures including a plurality of nanoparticles or a plurality of polymer layers, or a combination thereof. The obstacle on a substrate can be forests with intra-carbon nanotube spacing ranging between 5-100 nm for isolation of particles such as very small viruses and proteins.

Abstract translation: 用于操纵颗粒的微流体装置可以包括基底和一个或多个障碍物，每个障碍物包括多个对准的纳米结构，包括多个纳米颗粒或多个聚合物层，或其组合。 衬底上的障碍物可以是具有5-100nm之间的碳纳米管间隔的森林，用于分离诸如非常小的病毒和蛋白质的颗粒。

公开(公告)号：US20160083256A1

公开(公告)日：2016-03-24

申请号：US14858981

申请日：2015-09-18

Applicant: Massachusetts Institute of Technology

Inventor： Anastasios John Hart ,  Brian L. Wardle ,  Enrique J. Garcia ,  Alexander H. Slocum

IPC: C01B31/02 ,  D01F9/127

CPC classification number: C01B31/024 ,  B01J21/04 ,  B01J23/745 ,  B82B1/00 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/158 ,  C01B32/16 ,  C01B32/162 ,  C01B32/164 ,  C01B32/18 ,  C01B2202/08 ,  D01F9/127 ,  D01F9/133 ,  D06M11/74 ,  D06M23/08 ,  Y02P20/582 ,  Y02P20/584 ,  Y10S977/742 ,  Y10S977/843

Abstract: The present invention provides methods for uniform growth of nanostructures such as nanotubes (e.g., carbon nanotubes) on the surface of a substrate, wherein the long axes of the nanostructures may be substantially aligned. The nanostructures may be further processed for use in various applications, such as composite materials. For example, a set of aligned nanostructures may be formed and transferred, either in bulk or to another surface, to another material to enhance the properties of the material. In some cases, the nanostructures may enhance the mechanical properties of a material, for example, providing mechanical reinforcement at an interface between two materials or plies. In some cases, the nanostructures may enhance thermal and/or electronic properties of a material. The present invention also provides systems and methods for growth of nanostructures, including batch processes and continuous processes.

Abstract translation: 本发明提供了在衬底的表面上纳米结构例如纳米管（例如，碳纳米管）均匀生长的方法，其中纳米结构的长轴可以基本上对齐。 纳米结构可以进一步加工以用于各种应用中，例如复合材料。 例如，可以将一组对准的纳米结构体在本体或另一表面中形成并转移到另一种材料上以增强材料的性质。 在一些情况下，纳米结构可以增强材料的机械性能，例如在两个材料或层之间的界面处提供机械加强。 在一些情况下，纳米结构可以增强材料的热和/或电子性质。 本发明还提供用于生长纳米结构的系统和方法，包括间歇方法和连续方法。

公开(公告)号：US20150071849A1

公开(公告)日：2015-03-12

申请号：US14485133

申请日：2014-09-12

Applicant: Massachusetts Institute of Technology

Inventor： Stephen A. Steiner, III ,  Brian L. Wardle

IPC: C01B31/02

CPC classification number: C01B32/16 ,  B82Y30/00 ,  B82Y40/00 ,  C01B32/162 ,  C01B32/18 ,  C01B32/186 ,  C01B2202/02 ,  C01B2202/06 ,  Y10S977/742 ,  Y10S977/842 ,  Y10S977/843

Abstract: Systems and methods for the formation of carbon-based nanostructures are generally described. In some embodiments, the nanostructures may be formed on a nanopositor. The nanopositor can comprise, in some embodiments, at least one of metal atoms in a non-zero oxidation state and metalloid atoms in a non-zero oxidation state. For example, the nanopositor may comprise a metal oxide, a metalloid oxide, a metal chalcogenide, a metalloid chalcogenide, and the like. The carbon-based nanostructures may be grown by exposing the nanopositor, in the presence or absence of a growth substrate, to a set of conditions selected to cause formation of carbon-based nanostructures on the nanopositor. In some embodiments, metal or metalloid atoms in a non-zero oxidation state are not reduced to a zero oxidation state during the formation of the carbon-based nanostructures. In some cases, metal or metalloid atoms in a non-zero oxidation state do not form a carbide during the formation of the carbon-based nanostructures.

Abstract translation: 通常描述用于形成碳基纳米结构的系统和方法。 在一些实施方案中，纳米结构可以形成在纳米激光器上。 在一些实施方案中，纳米导体可以包括非零氧化态的金属原子和非零氧化态的准金属原子中的至少一种。 例如，纳米阳极剂可以包含金属氧化物，类金属氧化物，金属硫族化物，准金属硫族化物等。 碳纳米结构可以通过在存在或不存在生长衬底的情况下将纳米孔体暴露于所选择的一系列条件来生长，所述条件被选择用于在纳米反应器上形成碳基纳米结构。 在一些实施方案中，非零氧化态的金属或准金属原子在形成碳基纳米结构期间不会降低至零氧化态。 在一些情况下，非零氧化态的金属或准金属原子在形成碳基纳米结构期间不形成碳化物。