Add to ORKGViscous damping severely limits the performance of resonator based sensing in liquids. We present encased cantilevers that overcome this limitation with a transparent and hydrophobic encasement built around the resonator. Only a few micrometers of the cantilever probe protrude from the encasement and water does not enter the encasement. This maintains high Q-factors and reduces the thermo-mechanical noise levels by over one order of magnitude and reaches minimal detectable forces of 12 fN/•Hz in liquids. These probes expand the frontiers of cantilever based sensing. We discuss their design and fabrication with special focus on squeeze film damping and demonstrate their successful application for quantitative mass sensing of single nanoparti...
Micro and Nano-mechanical resonators are becoming increasingly ubiquitous in the areas of particle c...
Scanning probe microscopies (SPM) and cantilever-based sensors generally use low-frequency mechanica...
Nanoelectromechanical cantilevers have achieved unprecedented sensitivity in the detection of displa...
Viscous damping severely limits the performance of resonator based sensing in liquids. We present en...
The functionality of atomic force microscopy (AFM) and nanomechanical sensing can be enhanced using ...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
We have developed a sensitive method for real-time mass sensing in a fluid using a microfabricated a...
Vibrating micro- and nanomechanical mass sensors are capable of quantitatively determining attached ...
We demonstrate that miniature optomechanical disk resonators can operate in liquids as ultrafast and...
Various excitation techniques for cantilever resonators immersed in liquids have been developed to a...
Vibrating micro- and nanomechanical mass sensors are capable of quantitatively determining attached ...
Micro and nanomechanical resonators are highly sensitive, label-free analyte sensors in a range of e...
Scanning probe microscopies (SPM) and cantilever-based sensors generally use low-frequency mechanica...
Micro and Nano-mechanical resonators are becoming increasingly ubiquitous in the areas of particle c...
Scanning probe microscopies (SPM) and cantilever-based sensors generally use low-frequency mechanica...
Nanoelectromechanical cantilevers have achieved unprecedented sensitivity in the detection of displa...
Viscous damping severely limits the performance of resonator based sensing in liquids. We present en...
The functionality of atomic force microscopy (AFM) and nanomechanical sensing can be enhanced using ...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
Background: Encased cantilevers are novel force sensors that overcome major limitations of liquid sc...
We have developed a sensitive method for real-time mass sensing in a fluid using a microfabricated a...
Vibrating micro- and nanomechanical mass sensors are capable of quantitatively determining attached ...
We demonstrate that miniature optomechanical disk resonators can operate in liquids as ultrafast and...
Various excitation techniques for cantilever resonators immersed in liquids have been developed to a...
Vibrating micro- and nanomechanical mass sensors are capable of quantitatively determining attached ...
Micro and nanomechanical resonators are highly sensitive, label-free analyte sensors in a range of e...
Scanning probe microscopies (SPM) and cantilever-based sensors generally use low-frequency mechanica...
Micro and Nano-mechanical resonators are becoming increasingly ubiquitous in the areas of particle c...
Scanning probe microscopies (SPM) and cantilever-based sensors generally use low-frequency mechanica...
Nanoelectromechanical cantilevers have achieved unprecedented sensitivity in the detection of displa...