公开(公告)号：US20120120398A1

公开(公告)日：2012-05-17

申请号：US13361076

申请日：2012-01-30

申请人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

发明人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

IPC分类号： G01N21/00

CPC分类号： G01N21/7746 ,  G01N21/783 ,  G01N33/0037 ,  G01N33/0047 ,  G01N33/0049 ,  G01N33/0054 ,  G01N33/22 ,  G01N2021/773 ,  G01N2021/7789 ,  Y02A50/245 ,  Y02A50/246 ,  Y02A50/25

摘要： Micro-cavity gas or vapor sensors and gas or vapor detection methods. Optical energy is introduced into a resonant micro-cavity having a deformable coating such as a polymer. The coating swells or expands when it is exposed to or absorbs a gas or vapor, thereby changing the resonant wavelength of optical energy circulating within the micro-cavity/coating. Expansion or swelling of the coating may be reversible such that it contracts when gas or vapor diffuses from the coating. The coating deformation and/or a change of one or more optical properties of the optical energy circulating within the micro-cavity are used to detect the presence of the gas or vapor or molecules or particulates thereof

摘要翻译： 微腔气体或蒸气传感器以及气体或蒸气检测方法。 将光能引入具有可变形涂层如聚合物的共振微腔中。 当涂层暴露于或吸收气体或蒸气时，涂层膨胀或膨胀，从而改变在微腔/涂层内循环的光能的共振波长。 涂层的膨胀或膨胀可以是可逆的，使得当气体或蒸汽从涂层扩散时，其膨胀或膨胀。 使用在微腔内循环的光能的涂层变形和/或一种或多种光学特性的变化来检测气体或蒸汽或其分子或颗粒的存在

公开(公告)号：US08107081B2

公开(公告)日：2012-01-31

申请号：US12243580

申请日：2008-10-01

申请人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

发明人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

IPC分类号： G01N21/00

CPC分类号： G01N21/7746 ,  G01N21/783 ,  G01N33/0037 ,  G01N33/0047 ,  G01N33/0049 ,  G01N33/0054 ,  G01N33/22 ,  G01N2021/773 ,  G01N2021/7789 ,  Y02A50/245 ,  Y02A50/246 ,  Y02A50/25

摘要： Micro-cavity gas or vapor sensors and gas or vapor detection methods. Optical energy is introduced into a resonant micro-cavity having a deformable coating such as a polymer. The coating swells or expands when it is exposed to or absorbs a gas or vapor, thereby changing the resonant wavelength of optical energy circulating within the micro-cavity/coating. Expansion or swelling of the coating may be reversible such that it contracts when gas or vapor diffuses from the coating. The coating deformation and/or a change of one or more optical properties of the optical energy circulating within the micro-cavity are used to detect the presence of the gas or vapor or molecules or particulates thereof.

公开(公告)号：US08310677B2

公开(公告)日：2012-11-13

申请号：US13361076

申请日：2012-01-30

申请人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

发明人： Andrea M. Armani ,  Tsu-Te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

IPC分类号： G01N21/00

CPC分类号： G01N21/7746 ,  G01N21/783 ,  G01N33/0037 ,  G01N33/0047 ,  G01N33/0049 ,  G01N33/0054 ,  G01N33/22 ,  G01N2021/773 ,  G01N2021/7789 ,  Y02A50/245 ,  Y02A50/246 ,  Y02A50/25

摘要： Micro-cavity gas or vapor sensors and gas or vapor detection methods. Optical energy is introduced into a resonant micro-cavity having a deformable coating such as a polymer. The coating swells or expands when it is exposed to or absorbs a gas or vapor, thereby changing the resonant wavelength of optical energy circulating within the micro-cavity/coating. Expansion or swelling of the coating may be reversible such that it contracts when gas or vapor diffuses from the coating. The coating deformation and/or a change of one or more optical properties of the optical energy circulating within the micro-cavity are used to detect the presence of the gas or vapor or molecules or particulates thereof.

摘要翻译： 微腔气体或蒸气传感器以及气体或蒸气检测方法。 将光能引入具有可变形涂层如聚合物的共振微腔中。 当涂层暴露于或吸收气体或蒸气时，涂层膨胀或膨胀，从而改变在微腔/涂层内循环的光能的共振波长。 涂层的膨胀或膨胀可以是可逆的，使得当气体或蒸汽从涂层扩散时，其膨胀或膨胀。 使用在微腔内循环的光能的涂层变形和/或一个或多个光学特性的变化来检测气体或蒸气或其分子或微粒的存在。

公开(公告)号：US20090097031A1

公开(公告)日：2009-04-16

申请号：US12243580

申请日：2008-10-01

申请人： Andrea M. Armani ,  Tsu-te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

发明人： Andrea M. Armani ,  Tsu-te J. Su ,  Richard C. Flagan ,  Scott E. Fraser

IPC分类号： G01N21/00

CPC分类号： G01N21/7746 ,  G01N21/783 ,  G01N33/0037 ,  G01N33/0047 ,  G01N33/0049 ,  G01N33/0054 ,  G01N33/22 ,  G01N2021/773 ,  G01N2021/7789 ,  Y02A50/245 ,  Y02A50/246 ,  Y02A50/25

摘要： Micro-cavity gas or vapor sensors and gas or vapor detection methods. Optical energy is introduced into a resonant micro-cavity having a deformable coating such as a polymer. The coating swells or expands when it is exposed to or absorbs a gas or vapor, thereby changing the resonant wavelength of optical energy circulating within the micro-cavity/coating. Expansion or swelling of the coating may be reversible such that it contracts when gas or vapor diffuses from the coating. The coating deformation and/or a change of one or more optical properties of the optical energy circulating within the micro-cavity are used to detect the presence of the gas or vapor or molecules or particulates thereof.

摘要翻译： 微腔气体或蒸气传感器以及气体或蒸气检测方法。 将光能引入具有可变形涂层如聚合物的共振微腔中。 当涂层暴露于或吸收气体或蒸气时，涂层膨胀或膨胀，从而改变在微腔/涂层内循环的光能的共振波长。 涂层的膨胀或膨胀可以是可逆的，使得当气体或蒸汽从涂层扩散时，其膨胀或膨胀。 使用在微腔内循环的光能的涂层变形和/或一个或多个光学特性的变化来检测气体或其蒸气或其分子或微粒的存在。