机译:使用内在信号的光学成像和灵活的透明微电极阵列同时进行高分辨率皮层电生理的功能性大脑定位
Research Group for Implantable Microsystems, Faculty of Information Technology & Bionics, Pázmány Péter Catholic University,Doctoral School of Chemical Engineering and Material Sciences, Pannon University,Institute for Technical Physics & Material Sciences, Centre for Energy Research, Hungarian Academy of Sciences;
Department of Biochemistry, Eötvös Lóránd University;
MTA-DE Neuroscience Research Group, University of Debrecen;
Computational Neuroscience Group, Wigner Research Centre for Physics, HAS;
Computational Neuroscience Group, Wigner Research Centre for Physics, HAS;
MTA-DE Neuroscience Research Group, University of Debrecen;
Research Group for Implantable Microsystems, Faculty of Information Technology & Bionics, Pázmány Péter Catholic University,Institute for Technical Physics & Material Sciences, Centre for Energy Research, Hungarian Academy of Sciences;
Neural microelectrodes; Electrocorticography; Intrinsic optical signal imaging; Neuroimaging;
机译:双层纳米纳米微电极的透明阵列,用于大脑中的同时电生理学和双光子成像
机译:微电极阵列刺激与内在光学成像相结合:一种功能性脑图的新型工具
机译:微电极阵列刺激与内在光学成像结合:功能性脑部映射的新型工具
机译:用于同时进行皮层电位记录和本征信号光学成像的透明电极阵列
机译:穿透透明的透明,灵活的双层纳米数微电极,具有单位电生理学的能力
机译:双层纳米纳米微电极的透明阵列用于大脑中的同时电生理学和双光子成像
机译:双层 - 纳米Micro电极的透明阵列,用于同时电生理学和脑中的两光子成像