Add to ORKGAbstractHere we present a MEMS atomic force microscope (AFM) sensor for use inside a transmission electron microscope (TEM). This enables direct in situ TEM force measurements in the nN range. The main design challenges of the sensor are a high sensitivity and the narrow dimensions of the pole gap inside the TEM. Fabrication of the sensor was done using standard micromachining techniques, such as ion implantation, oxide growth and deep reactive ion etch. We present in situ TEM force measurements on nanotubes, which demonstrates the ability to measure spring constants of nanoscale systems
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
Abstract—The mechanical properties of carbon nanotubes have been widely employed to enhance the perf...
Abstract Here we present a MEMS atomic force microscope (AFM) sensor for use inside a transmission e...
Here, we present a MEMS atomic force microscope sensor for use inside a transmission electron micros...
Here, we present a MEMS atomic force microscope sensor for use inside a transmission electron micros...
With the ongoing miniaturisation of devices, the interest in characterising nanoscale physical prope...
Nanoindentation is a material testing method frequently used for studies of mechanical properties on...
Nanoindentation is a material testing method frequently used for studies of mechanical properties on...
With the ongoing miniaturisation of devices, the interest in characterising nanoscale physical prope...
In this work, we designed a micro-electromechanical systems (MEMS) device that allows simultaneous d...
In this work, we designed a micro-electromechanical systems (MEMS) device that allows simultaneous d...
We report fabrication as well as proof-of-concept experiments of a noninvasive sensor of weak nanosc...
Abstract—In situ mechanical characterization of nanostruc-tures, such as carbon nanotubes and metall...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
Abstract—The mechanical properties of carbon nanotubes have been widely employed to enhance the perf...
Abstract Here we present a MEMS atomic force microscope (AFM) sensor for use inside a transmission e...
Here, we present a MEMS atomic force microscope sensor for use inside a transmission electron micros...
Here, we present a MEMS atomic force microscope sensor for use inside a transmission electron micros...
With the ongoing miniaturisation of devices, the interest in characterising nanoscale physical prope...
Nanoindentation is a material testing method frequently used for studies of mechanical properties on...
Nanoindentation is a material testing method frequently used for studies of mechanical properties on...
With the ongoing miniaturisation of devices, the interest in characterising nanoscale physical prope...
In this work, we designed a micro-electromechanical systems (MEMS) device that allows simultaneous d...
In this work, we designed a micro-electromechanical systems (MEMS) device that allows simultaneous d...
We report fabrication as well as proof-of-concept experiments of a noninvasive sensor of weak nanosc...
Abstract—In situ mechanical characterization of nanostruc-tures, such as carbon nanotubes and metall...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
International audienceThe combinaison of MEMS and in-situ Transmission Electron Microscopy offers un...
Abstract—The mechanical properties of carbon nanotubes have been widely employed to enhance the perf...