SAPIENZA University of Roma, Department of Basic and Applied Sciences for Engineering, Via A. Scarpa, 16 00161 Roma, Italy;
Fraunhofer Institute for Material and Beam Technology IWS, Dresden, Germany;
SAPIENZA University of Roma, Department of Basic and Applied Sciences for Engineering, Via A. Scarpa, 16 00161 Roma, Italy;
Fraunhofer Institute for Applied Optics and Precision Engineering IOF, Jena, Germany;
SAPIENZA University of Roma, Department of Basic and Applied Sciences for Engineering, Via A. Scarpa, 16 00161 Roma, Italy;
Imperial College London, Department of Materials, London, UK;
Imperial College London, Department of Materials, London, UK;
Fraunhofer Institute for Material and Beam Technology IWS, Dresden, Germany;
SAPIENZA University of Roma, Department of Basic and Applied Sciences for Engineering, Via A. Scarpa, 16 00161 Roma, Italy;
University of Torino, Department of Oncology, Cancer Institute of Candiolo, Candiolo, Italy;
Imperial College London, Department of Materials, London, UK;
Horiba Scientific, Palaiseau, France;
Horiba Scientific, Palaiseau, France;
Horiba Scientific, Palaiseau, France;
Fraunhofer Institute for Applied Optics and Precision Engineering IOF, Jena, Germany;
optical biosensing; label-free biosensors; photonic crystals; Bloch surface waves; biophotonics; ovalbumin;
机译:印刷二维光子晶体,用于在潮湿条件下对胰岛素进行单步无标记生物传感
机译:基于Bloch表面波的无标记生物传感荧光一维光子晶体
机译:基于Bloch表面波的无标记生物传感荧光一维光子晶体
机译:使用一维光子水晶芯片的无标记和荧光生物传感平台
机译:用于生物传感应用的基于二维聚合物和薄膜半导体的光子晶体
机译:基于Bloch表面波的无标记生物传感荧光一维光子晶体
机译:使用一维光子晶体芯片的无标记和荧光生物传感平台