会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 13. 发明申请
    • Nanoelectronic sensor with integral suspended micro-heater
    • 纳米电子传感器与集成悬浮微型加热器
    • US20070045756A1
    • 2007-03-01
    • US11488465
    • 2006-07-18
    • Ying-Lan ChangJean-Christophe GabrielSergei SkarupoAlexander StarChristian ValckeQian Wang
    • Ying-Lan ChangJean-Christophe GabrielSergei SkarupoAlexander StarChristian ValckeQian Wang
    • H01L29/82
    • G01K5/486B82Y10/00B82Y15/00G01K2211/00
    • A nanoelectronic sensing device includes a substrate, a nanostructure element disposed adjacent the substrate, and at least a conductive element electrically connected to the nanostructure element. The device is configured to heat at least a portion of the sensor structure including the nanostructure element. In certain embodiments, the nanostructure element comprises at least one nanotube, the nanotube being electrically connected to at least two conductors so as to permit an electric current on the order of 10 microAmps or greater to be passed through the nanotube, causing the nanotube to heat up relative to the substrate. In alternative embodiments, the sensing device includes a platform or membrane which is at least partially thermally isolated by one or more cavities, the platform supporting at least the nanostructure element adjacent to a microheater element. The heating of the sensor structure may be employed, for example, for thermoregulation, to accelerate and/or increase sensor response, and to improve other sensor characteristics.
    • 纳米电子感测装置包括衬底,邻近衬底设置的纳米结构元件和至少导电元件,电连接到纳米结构元件。 该装置构造成加热包括纳米结构元件的传感器结构的至少一部分。 在某些实施例中,纳米结构元件包括至少一个纳米管,纳米管电连接到至少两个导体,以便允许10微安或更大量级的电流通过纳米管,导致纳米管加热 相对于基底。 在替代实施例中,感测装置包括至少部分地通过一个或多个空腔热隔离的平台或膜,所述平台支撑至少与微加热器元件相邻的纳米结构元件。 可以采用传感器结构的加热,例如用于温度调节,加速和/或增加传感器响应,并改善其它传感器特性。
    • 14. 发明申请
    • Carbon dioxide nanosensor, and respiratory CO2 monitors
    • 二氧化碳纳米传感器和呼吸二氧化碳监测仪
    • US20070048181A1
    • 2007-03-01
    • US11488456
    • 2006-07-18
    • Daniel ChangYing-Lan ChangJean-Christophe GabrielVikram JoshiWilliam MickelsonJoseph NiemannJohn PassmoreAlexander StarChristian Valcke
    • Daniel ChangYing-Lan ChangJean-Christophe GabrielVikram JoshiWilliam MickelsonJoseph NiemannJohn PassmoreAlexander StarChristian Valcke
    • G01N31/22
    • G01N27/4146B82Y15/00B82Y30/00G01N33/004G01N33/497
    • An electronic system and method for detecting analytes, such as carbon dioxide, is provided, using an improved nanostructure sensor (CO2 sensor). The CO2 sensor may comprise a substrate and a nanostructure, such as a one or more carbon nanotubes disposed over the substrate (e.g., as a network). One or more conductive elements may electrically communicate with the nanostructure. A counter or gate electrode may be positioned adjacent the nanostructure. A functionalization material reactive with carbon dioxide may be included, either disposed in contact with the nanostructure or isolated by a dielectric. The sensor may be connected to a circuit responsive to changes in CO2 concentration in the environment. Embodiments are described of medical sensing systems including one or more CO2 sensors. One embodiment comprises a breath sampling cannula which is connected to a sensor unit. In an alternative, the cannula permits supplemental oxygen to be administered, while recovering and measuring analytes in breath samples. The cannula may connect to a portable processor-display unit for monitoring one or more analytes, such as CO2. Another embodiment includes a cannula configured for the monitoring of sleep disorders, such as apnea, comprising one or more sensors disposed adjacent a breath sampling channel, optionally including flow rate or other sensors. The sensors may be connected by wired or wireless links for to a processor/input/display unit. Any of the embodiments may include filters, selectively permeable membranes, absorbents, and the like to precondition the breath sample, may be configured to include complementary chemistry measurements.
    • 提供了一种用于检测分析物(如二氧化碳)的电子系统和方法,使用改进的纳米结构传感器(CO2传感器)。 CO 2传感器可以包括衬底和纳米结构,例如设置在衬底上的一个或多个碳纳米管(例如,作为网络)。 一个或多个导电元件可以与纳米结构电连通。 计数器或栅电极可以邻近纳米结构定位。 可以包括与二氧化碳反应的官能化材料,其被设置为与纳米结构接触或通过电介质隔离。 传感器可以响应于环境中二氧化碳浓度的变化而连接到电路。 描述了包括一个或多个CO 2传感器的医学感测系统的实施例。 一个实施例包括连接到传感器单元的呼吸取样套管。 在替代方案中,套管允许补充氧气,同时在呼吸样本中回收和测量分析物。 套管可以连接到便携式处理器显示单元,用于监测一个或多个分析物,例如CO 2。 另一个实施例包括配置用于监测睡眠障碍(例如呼吸暂停)的插管,其包括邻近呼吸采样通道设置的一个或多个传感器,可选地包括流速或其它传感器。 传感器可以通过有线或无线链路连接到处理器/输入/显示单元。 任何实施方案可以包括过滤器,选择性渗透膜,吸收剂等以预处理呼吸样品,可以被配置为包括互补的化学测量。