公开(公告)号：US20110216804A1

公开(公告)日：2011-09-08

申请号：US13110684

申请日：2011-05-18

Applicant: Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

Inventor： Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

IPC: G01K17/00

CPC classification number: G01N33/54373 ,  B82Y35/00 ,  G01L1/044 ,  G01N33/5026 ,  G01N33/5029 ,  G01N33/5032 ,  Y10S977/724 ,  Y10S977/956 ,  Y10S977/958

Abstract: A microfluidic embedded nanoelectromechanical system (NEMs) force sensor provides an electrical readout. The force sensor contains a deformable member that is integrated with a strain sensor. The strain sensor converts a deformation of the deformable member into an electrical signal. A microfluidic channel encapsulates the force sensor, controls a fluidic environment around the force sensor, and improves the read out. In addition, a microfluidic embedded vacuum insulated biocalorimeter is provided. A calorimeter chamber contains a parylene membrane. Both sides of the chamber are under vacuum during measurement of a sample. A microfluidic cannel (built from parylene) is used to deliver a sample to the chamber. A thermopile, used as a thermometer is located between two layers of parylene.

Abstract translation: 微流体嵌入式纳米机电系统（NEM）力传感器提供电子读数。 力传感器包含与应变传感器集成的可变形构件。 应变传感器将可变形部件的变形转换为电信号。 微流体通道封装力传感器，控制力传感器周围的流体环境，并改善读数。 此外，还提供了微流体嵌入式真空绝缘生物量热计。 量热器室包含聚对二甲苯膜。 在测量样品期间，室的两侧都处于真空状态。 使用微流控管（由聚对二甲苯构建）将样品输送到室中。 用作温度计的热电堆位于两层聚对二甲苯之间。

公开(公告)号：US20130233420A1

公开(公告)日：2013-09-12

申请号：US13988282

申请日：2011-11-14

Applicant: Dino Di Carlo ,  Wonhee Lee

Inventor： Dino Di Carlo ,  Wonhee Lee

IPC: F17D1/00

CPC classification number: F17D1/00 ,  G01N15/1404 ,  G01N2015/1415 ,  Y10T137/85978

Abstract: A particle focusing system includes an inlet; an inertial focusing microchannel disposed in a substrate and connected to the inlet; and a pressure/flow source configured to drive a particle-containing fluid through the inertial focusing microchannel, where the inertial focusing microchannel includes a side wall having an irregular surface. The side wall includes a first irregularity protruding from a baseline surface away from a longitudinal axis of the inertial focusing microchannel. Alternatively or additionally, the first irregularity and the baseline surface form an angle more than or equal to 135 degrees. The inertial focusing microchannel may have a substantially rectangular cross-section having a height and a width, and a ratio of height to width is approximately 5:4 to 4:1. The system may also include a downstream expanding region having a side wall, where the side wall has a stepped surface.

Abstract translation: 粒子聚焦系统包括入口; 惯性聚焦微通道，设置在基板中并连接到入口; 以及压力/流动源，其构造成驱动含颗粒流体通过惯性聚焦微通道，其中惯性聚焦微通道包括具有不规则表面的侧壁。 侧壁包括从基准面突出的第一不规则部分，该第一不规则部分远离惯性聚焦微通道的纵向轴线。 或者或另外，第一不规则性和基线表面形成大于或等于135度的角度。 惯性聚焦微通道可以具有具有高度和宽度的基本上矩形的横截面，并且高度与宽度之比约为5：4至4：1。 该系统还可以包括具有侧壁的下游扩张区域，其中侧壁具有台阶表面。

公开(公告)号：US07966898B2

公开(公告)日：2011-06-28

申请号：US11830612

申请日：2007-07-30

Applicant: Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

Inventor： Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

IPC: G01L1/22

CPC classification number: G01N33/54373 ,  B82Y35/00 ,  G01L1/044 ,  G01N33/5026 ,  G01N33/5029 ,  G01N33/5032 ,  Y10S977/724 ,  Y10S977/956 ,  Y10S977/958

Abstract: A microfluidic embedded nanoelectromechanical system (NEMs) force sensor provides an electrical readout. The force sensor contains a deformable member that is integrated with a strain sensor. The strain sensor converts a deformation of the deformable member into an electrical signal. A microfluidic channel encapsulates the force sensor, controls a fluidic environment around the force sensor, and improves the read out. In addition, a microfluidic embedded vacuum insulated biocalorimeter is provided. A calorimeter chamber contains a parylene membrane. Both sides of the chamber are under vacuum during measurement of a sample. A microfluidic cannel (built from parylene) is used to deliver a sample to the chamber. A thermopile, used as a thermometer is located between two layers of parylene.

Abstract translation: 微流体嵌入式纳米机电系统（NEM）力传感器提供电子读数。 力传感器包含与应变传感器集成的可变形构件。 应变传感器将可变形部件的变形转换为电信号。 微流体通道封装力传感器，控制力传感器周围的流体环境，并改善读数。 此外，还提供了微流体嵌入式真空绝缘生物量热计。 量热器室包含聚对二甲苯膜。 在测量样品期间，室的两侧都处于真空状态。 使用微流控管（由聚对二甲苯构建）将样品输送到室中。 用作温度计的热电堆位于两层聚对二甲苯之间。

公开(公告)号：US20100024572A1

公开(公告)日：2010-02-04

申请号：US11830612

申请日：2007-07-30

Applicant: MICHAEL L. ROUKES ,  CHUNG-WAH FON ,  WONHEE LEE ,  HONGXING TANG ,  BLAKE WATERS AXELROD ,  JOHN LIANG TAN

Inventor： MICHAEL L. ROUKES ,  CHUNG-WAH FON ,  WONHEE LEE ,  HONGXING TANG ,  BLAKE WATERS AXELROD ,  JOHN LIANG TAN

IPC: G01L1/18 ,  B44C1/22

CPC classification number: G01N33/54373 ,  B82Y35/00 ,  G01L1/044 ,  G01N33/5026 ,  G01N33/5029 ,  G01N33/5032 ,  Y10S977/724 ,  Y10S977/956 ,  Y10S977/958

Abstract: A microfluidic embedded nanoelectromechanical system (NEMs) force sensor provides an electrical readout. The force sensor contains a deformable member that is integrated with a strain sensor. The strain sensor converts a deformation of the deformable member into an electrical signal. A microfluidic channel encapsulates the force sensor, controls a fluidic environment around the force sensor, and improves the read out. In addition, a microfluidic embedded vacuum insulated biocalorimeter is provided. A calorimeter chamber contains a parylene membrane. Both sides of the chamber are under vacuum during measurement of a sample. A microfluidic cannel (built from parylene) is used to deliver a sample to the chamber. A thermopile, used as a thermometer is located between two layers of parylene.

Abstract translation: 微流控嵌入式纳米机电系统（NEM）力传感器提供电子读数。 力传感器包含与应变传感器集成的可变形构件。 应变传感器将可变形部件的变形转换为电信号。 微流体通道封装力传感器，控制力传感器周围的流体环境，并改善读数。 此外，还提供了微流体嵌入式真空绝缘生物量热计。 量热器室包含聚对二甲苯膜。 在测量样品期间，室的两侧都处于真空状态。 使用微流控管（由聚对二甲苯构建）将样品输送到室中。 用作温度计的热电堆位于两层聚对二甲苯之间。

公开(公告)号：US08827548B2

公开(公告)日：2014-09-09

申请号：US13110684

申请日：2011-05-18

Applicant: Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

Inventor： Michael L. Roukes ,  Chung-Wah Fon ,  Wonhee Lee ,  Hongxing Tang ,  Blake Waters Axelrod ,  John Liang Tan

IPC: G01K17/02 ,  G01N25/20

CPC classification number: G01N33/54373 ,  B82Y35/00 ,  G01L1/044 ,  G01N33/5026 ,  G01N33/5029 ,  G01N33/5032 ,  Y10S977/724 ,  Y10S977/956 ,  Y10S977/958

Abstract: A microfluidic embedded nanoelectromechanical system (NEMs) force sensor provides an electrical readout. The force sensor contains a deformable member that is integrated with a strain sensor. The strain sensor converts a deformation of the deformable member into an electrical signal. A microfluidic channel encapsulates the force sensor, controls a fluidic environment around the force sensor, and improves the read out. In addition, a microfluidic embedded vacuum insulated biocalorimeter is provided. A calorimeter chamber contains a parylene membrane. Both sides of the chamber are under vacuum during measurement of a sample. A microfluidic cannel (built from parylene) is used to deliver a sample to the chamber. A thermopile, used as a thermometer is located between two layers of parylene.

Abstract translation: 微流体嵌入式纳米机电系统（NEM）力传感器提供电子读数。 力传感器包含与应变传感器集成的可变形构件。 应变传感器将可变形部件的变形转换为电信号。 微流体通道封装力传感器，控制力传感器周围的流体环境，并改善读数。 此外，还提供了微流体嵌入式真空绝缘生物量热计。 量热器室包含聚对二甲苯膜。 在测量样品期间，室的两侧都处于真空状态。 使用微流控管（由聚对二甲苯构建）将样品输送到室中。 用作温度计的热电堆位于两层聚对二甲苯之间。

公开(公告)号：US07762719B2

公开(公告)日：2010-07-27

申请号：US11578675

申请日：2005-04-20

Applicant: Chung-Wah Fon ,  Michael L. Roukes ,  Wonhee Lee ,  Hongxing Tang

Inventor： Chung-Wah Fon ,  Michael L. Roukes ,  Wonhee Lee ,  Hongxing Tang

IPC: G01K17/00

CPC classification number: G01K17/006 ,  B01L3/5027

Abstract: Microcalorimeters having low addendum heat capacities and attojoule/Kscale resolutions are provided. These microcalorimeters make use of very small calorimeter bodies composed of materials with very low heat capacities. Also provided are polymer-based microcalorimeters with thermally isolated reagent chambers. These microcalorimeters use a multi-layered polymer membrane structure to provide improved thermal isolation of a reagent chamber.

Abstract translation: 提供了具有低附加热容量和attojoule / Kscale分辨率的微量热计。 这些微量热计使用非常小的由热容量非常低的材料组成的量热仪。 还提供了具有热分离的试剂室的基于聚合物的微量热计。 这些微量热计使用多层聚合物膜结构来提供试剂室的改进的热隔离。

公开(公告)号：US20130044069A1

公开(公告)日：2013-02-21

申请号：US13643307

申请日：2011-04-05

Applicant: Wonhee Lee

Inventor： Wonhee Lee

IPC: G06F3/041

CPC classification number: G06F3/018 ,  G06F3/0233 ,  G06F3/04883 ,  H04M1/72522 ,  H04M2250/22 ,  H04M2250/70

Abstract: Disclosed are a portable terminal and a character input method thereof. Touch information corresponding to input selected by a user from a touch device is received, and a control unit calculates a region in which the touch information starts, a region in which the touch information ends, and a region in which the touch information turns. Then, the control unit determines a character corresponding to the region in which the touch information starts, the region in which the touch information ends, and the region in which the touch information turns with reference to the memory. Further, the control unit determines whether there is a motion of turning an apex of the region in a predetermined direction, and when the motion of turning the apex of the region in the predetermined direction is input, the control unit changes a character input mode. Thus, a character may be accurately and simply input by inputting a character in a predetermined region displayed on a screen larger than an existing screen by using a touch device.

Abstract translation: 公开了一种便携式终端及其字符输入方法。 接收与用户从触摸设备选择的输入对应的触摸信息，控制单元计算触摸信息开始的区域，触摸信息结束的区域以及触摸信息转动的区域。 然后，控制单元参照存储器确定触摸信息开始的区域，触摸信息结束的区域和触摸信息转动的区域对应的字符。 此外，控制单元确定是否存在沿预定方向转动该区域的顶点的运动，并且当输入沿着预定方向转动区域的顶点的运动时，控制单元改变字符输入模式。 因此，通过使用触摸装置，通过在大于现有屏幕的屏幕上显示的预定区域中输入字符，可以准确且简单地输入字符。

公开(公告)号：US07347967B2

公开(公告)日：2008-03-25

申请号：US10468835

申请日：2001-11-03

Applicant: Kiju Kim ,  Wonhee Lee ,  Jongkyun Jung

Inventor： Kiju Kim ,  Wonhee Lee ,  Jongkyun Jung

IPC: B22F3/11

CPC classification number: A61F2/30767 ,  A61C8/0006 ,  A61C8/0012 ,  A61C2008/0046 ,  A61F2/30 ,  A61F2/30771 ,  A61F2/3094 ,  A61F2/36 ,  A61F2002/30968 ,  A61F2310/00011 ,  A61L31/146 ,  B22F3/087 ,  B22F3/11

Abstract: The present invention relates to a system and a method of manufacturing a porous bio-implant having a connecting member integrally formed therewith, and more particularly, to a system and a method of manufacturing a porous bio-implant in which a connecting member is integrally formed by sintering a metal powder by a high voltage instant discharge in the state that the connecting member is inserted in a pyrex tube and then the metal powder is put in the pyrex tube. A system of manufacturing a porous bio-implant having a connecting member formed integrally therewith includes a power supply supplying a low voltage; a voltage booster for boosting the low voltage supplied from the power supply to a high voltage; a condenser charging the high voltage boosted by the voltage booster through a switch; a vacuum switch for instantaneously discharging the high voltage charged in the condenser; and a bio-implant manufacturing apparatus for manufacturing a bio-implant by the high voltage discharged instantaneously from the vacuum switch.

Abstract translation: 本发明涉及一种制造具有与其一体形成的连接部件的多孔生物植入物的系统和方法，更具体地，涉及一种制造多孔生物植入物的系统和方法，其中连接构件一体形成 通过在将连接构件插入发热管中的状态下通过高电压即时放电烧结金属粉末，然后将金属粉末放入发泡管中。 制造具有与其一体形成的连接部件的多孔生物植入物的系统包括提供低电压的电源; 用于将从电源提供的低电压升压到高电压的升压器; 电容器通过开关对由升压器升压的高压进行充电; 一个真空开关，用于瞬时放电在电容器中充电的高电压; 以及用于通过从真空开关瞬时放电的高电压来制造生物植入物的生物植入物制造装置。

公开(公告)号：US20070286254A1

公开(公告)日：2007-12-13

申请号：US11578675

申请日：2005-04-20

Applicant: Chung-Wah Fon ,  Michael Roukes ,  Wonhee Lee ,  Hongxing Tang

Inventor： Chung-Wah Fon ,  Michael Roukes ,  Wonhee Lee ,  Hongxing Tang

IPC: G01N25/20 ,  B01J19/00 ,  G01K17/00

CPC classification number: G01K17/006 ,  B01L3/5027

Abstract: Microcalorimeters having low addendum heat capacities and attojoule/Kscale resolutions are provided. These microcalorimeters make use of very small calorimeter bodies composed of materials with very low heat capacities. Also provided are polymer-based microcalorimeters with thermally isolated reagent chambers. These microcalorimeters use a multi-layered polymer membrane structure to provide improved thermal isolation of a reagent chamber.

Abstract translation: 提供了具有低附加热容量和attojoule / Kscale分辨率的微量热计。 这些微量热计使用非常小的由热容量非常低的材料组成的量热仪。 还提供了具有热分离的试剂室的基于聚合物的微量热计。 这些微量热计使用多层聚合物膜结构来提供试剂室的改进的热隔离。

公开(公告)号：US20110017597A1

公开(公告)日：2011-01-27

申请号：US12628542

申请日：2009-12-01

Applicant: Huen LEE ,  Jong-Ho CHA ,  Wonhee LEE

Inventor： Huen LEE ,  Jong-Ho CHA ,  Wonhee LEE

IPC: G01N27/26 ,  G01R3/00

CPC classification number: G01N27/4074 ,  G01N33/005 ,  Y10T29/49002

Abstract: The present invention relates to a method for fabricating an electrochemical sensor which can highly sensibly detect a hydrogen gas by adapting Me4NOH.5H2O as a proton conductor. In the present invention, Me4NOH.5H2O with a high ion conductivity and a reliable thermal stability is adapted as a proton conductor, and a carbon electrode on which a platinum dispersed in an organic solvent is loaded, is used as an anode. It is possible to fabricate a new type electrochemical sensor which adapts an ionic clathrate hydrate capable of reliably detecting hydrogen gas.

Abstract translation: 本发明涉及一种用于制造电化学传感器的方法，该方法可以通过使Me4NOH·5H2O作为质子导体高度敏感地检测氢气。 在本发明中，使用具有高离子传导性和可靠的热稳定性的Me 4 NH 5·5H 2 O作为阳极，作为质子导体，并且其上分散有有机溶剂中的铂的碳电极被用作阳极。 可以制造一种适用于能够可靠地检测氢气的离子型笼形水合物的新型电化学传感器。