6-ethenyl-1-hydroxy-2H-pyridine

• 分子结构分类: 有机化合物 - 有机杂环化合物 - 吡啶及其衍生物
• 英文名称: 6-ethenyl-1-hydroxy-2H-pyridine
• 化学式: C₇H₉NO
• 分子量: 123.15
• InChiKey: XAEQIKSYYRJABM-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  1.6
• 重原子数：
  9
• 可旋转键数：
  1
• 环数：
  1.0
• sp3杂化的碳原子比例：
  0.14
• 拓扑面积：
  23.5
• 氢给体数：
  1
• 氢受体数：
  2

文献信息

• In vivo sensors having ceria nanoparticle electrodes
  申请人：Abbott Diabetes Care Inc.

  公开号：US10004439B2

  公开（公告）日：2018-06-26

  Ceria nanoparticle compositions for use as electrode materials for in vivo electrochemical analyte sensors (e.g., glucose sensors) are provided, for example to form a cathode or a reference electrode. The ceria nanoparticle compositions may be combined with a conductive material (e.g., mixed with) to form the cathode or the reference electrode, or the ceria nanoparticle compositions may be deposited over conductive material to form the cathode or the reference electrode. Electrochemical in vivo sensors for monitoring the concentration of an analyte having a reference electrode and/or a cathode that includes a ceria nanoparticle composition, and methods for monitoring an analyte concentration using the electrochemical sensors are also described. Methods of making in vivo electrochemical analyte sensors having a reference electrode and/or a cathode that includes a ceria nanoparticle composition are also provided.

  提供了用作体内电化学分析传感器（如葡萄糖传感器）电极材料的铈纳米粒子组合物，例如用于形成阴极或参比电极。铈纳米粒子组合物可与导电材料结合（如混合）以形成阴极或参比电极，或将铈纳米粒子组合物沉积在导电材料上以形成阴极或参比电极。此外，还描述了用于监测分析物浓度的体内电化学传感器，该传感器具有参比电极和/或包括铈纳米粒子组合物的阴极，以及使用该电化学传感器监测分析物浓度的方法。还提供了制作体内电化学分析传感器的方法，该传感器具有参比电极和/或包括铈纳米粒子组合物的阴极。
• Test strips having ceria nanoparticle electrodes
  申请人：Abbott Diabetes Care Inc.

  公开号：US10006880B2

  公开（公告）日：2018-06-26

  Ceria nanoparticle compositions for use with in vitro electrochemical chemical or biochemical sensors (e.g., test strip glucose sensors), for example to form a cathode or a reference electrode, are provided. The ceria nanoparticle compositions may be combined with a conductive material (e.g., mixed with) to form the cathode or the reference electrode or the ceria nanoparticle compositions may be deposited over a layer of conductive material to form the cathode or the reference electrode. Electrochemical in vitro sensors for determining the concentration of an analyte having a reference electrode and/or a cathode including a ceria nanoparticle composition, and methods for determining an analyte concentration using the electrochemical sensors are also described. Methods of making in vitro electrochemical sensors having a reference electrode and/or a cathode including a ceria nanoparticle composition are also provided.

  提供了用于体外电化学或生化传感器（如试纸葡萄糖传感器）的铈纳米粒子组合物，例如用于形成阴极或参比电极。铈纳米颗粒组合物可与导电材料结合（如混合）以形成阴极或参比电极，或将铈纳米颗粒组合物沉积在导电材料层上以形成阴极或参比电极。还描述了用于确定分析物浓度的电化学体外传感器，该传感器具有参比电极和/或包括铈纳米粒子组合物的阴极，以及使用该电化学传感器确定分析物浓度的方法。还提供了制作体外电化学传感器的方法，该传感器具有参比电极和/或包括铈纳米粒子组合物的阴极。
• In Vivo Sensors Having Ceria Nanoparticle Electrodes
  申请人：ABBOTT DIABETES CARE INC.

  公开号：US20150230737A1

  公开（公告）日：2015-08-20

  Ceria nanoparticle compositions for use as electrode materials for in vivo electrochemical analyte sensors (e.g., glucose sensors) are provided, for example to form a cathode or a reference electrode. The ceria nanoparticle compositions may be combined with a conductive material (e.g., mixed with) to form the cathode or the reference electrode, or the ceria nanoparticle compositions may be deposited over conductive material to form the cathode or the reference electrode. Electrochemical in vivo sensors for monitoring the concentration of an analyte having a reference electrode and/or a cathode that includes a ceria nanoparticle composition, and methods for monitoring an analyte concentration using the electrochemical sensors are also described. Methods of making in vivo electrochemical analyte sensors having a reference electrode and/or a cathode that includes a ceria nanoparticle composition are also provided.
• Test Strips Having Ceria Nanoparticle Electrodes
  申请人：ABBOTT DIABETES CARE INC.

  公开号：US20150247817A1

  公开（公告）日：2015-09-03

  Ceria nanoparticle compositions for use with in vitro electrochemical chemical or biochemical sensors (e.g., test strip glucose sensors), for example to form a cathode or a reference electrode, are provided. The ceria nanoparticle compositions may be combined with a conductive material (e.g., mixed with) to form the cathode or the reference electrode or the ceria nanoparticle compositions may be deposited over a layer of conductive material to form the cathode or the reference electrode. Electrochemical in vitro sensors for determining the concentration of an analyte having a reference electrode and/or a cathode including a ceria nanoparticle composition, and methods for determining an analyte concentration using the electrochemical sensors are also described. Methods of making in vitro electrochemical sensors having a reference electrode and/or a cathode including a ceria nanoparticle composition are also provided.
• [EN] IN VIVO SENSORS HAVING CERIA NANOPARTICLE ELECTRODES<br/>[FR] CAPTEURS IN VIVO POURVUS D'ÉLECTRODES À BASE DE NANOPARTICULES D'OXYDE CÉRIQUE
  申请人：ABBOTT DIABETES CARE INC

  公开号：WO2014047483A1

  公开（公告）日：2014-03-27

  Ceria nanoparticle compositions for use as electrode materials for in vivo electrochemical analyte sensors (e.g., glucose sensors) are provided, for example to form a cathode or a reference electrode. The ceria nanoparticle compositions may be combined with a conductive material (e.g., mixed with) to form the cathode or the reference electrode, or the ceria nanoparticle compositions may be deposited over conductive material to form the cathode or the reference electrode. Electrochemical in vivo sensors for monitoring the concentration of an analyte having a reference electrode and/or a cathode that includes a ceria nanoparticle composition, and methods for monitoring an analyte concentration using the electrochemical sensors are also described. Methods of making in vivo electrochemical analyte sensors having a reference electrode and/or a cathode that includes a ceria nanoparticle composition are also provided.