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Quenching Properties of a Self-Referenced Fluorescence Oxygen Nanosensor under a Wide-Field Intrinsic Optical Signal Imaging System

机译：广域本征光信号成像系统下自参考荧光氧纳米传感器的猝灭特性

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Wide-field intrinsic optical signal (IOS) imaging is an excellent method to map in vivo neurological metabolic changes during brain activity. It has a spatial resolution of 50-100 mum and a wide imaging field of several cm² that cannot be achieved by regular microscopic imaging. A nano-encapsulated fluorescence dye sensor that is specifically sensitive to oxygen level was fabricated by using electrostatic layer-by-layer (LbL) self-assembly technique. Fluorescence images of the nanosensor solution were collected by a wide-field IOS imaging system under different oxygen concentrations. Mathematical models for nanosensor fluorescence were developed based on the imaging results. Correlations between the nanosensor fluorescence and oxygen concentration models indicate an inverse quenching relationship between the nanosensor fluorescence and oxygen concentration

机译：广域固有光信号（IOS）成像是一种在大脑活动过程中绘制体内神经学代谢变化的出色方法。它具有50-100 mum的空间分辨率和几cm ^{2 的宽成像范围，这是常规显微成像无法实现的。通过使用静电逐层（LbL）自组装技术，制造了一种对氧含量特别敏感的纳米封装荧光染料传感器。通过宽视野IOS成像系统在不同的氧气浓度下收集纳米传感器溶液的荧光图像。基于成像结果，开发了用于纳米传感器荧光的数学模型。纳米传感器荧光和氧浓度模型之间的相关性表明纳米传感器荧光和氧浓度之间存在逆猝灭关系}

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《》|2005年|1438-1441|共4页
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G. Zhang; M.J. McShane; C.J. Robinson;
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biomedical optical imaging; brain; fluorescence; gas sensors; nanotechnology; neurophysiology; oxygen; radiation quenching; Osub2/sub; brain activity; electrostatic layer-by-layer self-assembly; fluorescence images; fluorescence oxygen nanosensor; neurological met;

机译：生物医学光学成像;脑;荧光;气体传感器;纳米技术;神经生理学;氧气;辐射猝灭; O _{2 ;脑活性;静电层间自组装;荧光图像;荧光氧纳米传感器;神经系统;}

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Quenching Properties of a Self-Referenced Fluorescence Oxygen Nanosensor under a Wide-Field Intrinsic Optical Signal Imaging System

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