Add to ORKGMicrocantilevers with polymer coatings hold great promise as resonant chemical sensors. It is known that the coated cantilever sensitivity increases with coating thickness; however, the drawback of increasing the coating thickness is the increase of the frequency noise and thus the deterioration of the sensor\u27s limit of detection. In this paper, an analytical expression for the viscoelastic losses in the coating, hence the quality factor is established and is used to explain the observed increase of the frequency noise with the polymer thickness. This result is then used to demonstrate that an optimum coating thickness exists that minimise the limit of detectio
The frequency stability, sensitivity, and limit of detection of a coated-cantilever chemical sensor ...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...
Microcantilevers with polymer coatings hold great promise as resonant chemical sensors. It is known ...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Expressions describing the resonant frequency and quality factor of a dynamically driven, polymer-co...
Expressions describing the resonant frequency and quality factor of a dynamically-driven, polymer-co...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Microcantilevers used as (bio)chemical sensors are usually coated with a chemically sensitive layer....
The responses of polymer-coated and/or polymer-based microcantilever chemical sensors are analyzed. ...
The generalized characteristics of dynamically-drjven, polymer-coated microcantilever (bio) chemical...
AbstractMicrocantilevers used as (bio)chemical sensors are usually coated with a chemically sensitiv...
The equation governing the curvature of a viscoelastic microcantilever beam loaded with a uniform su...
For the purpose of enhancing the limit of detection of microcantilever-based chemical sensors, this ...
The frequency stability, sensitivity, and limit of detection of a coated-cantilever chemical sensor ...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...
Microcantilevers with polymer coatings hold great promise as resonant chemical sensors. It is known ...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Expressions describing the resonant frequency and quality factor of a dynamically driven, polymer-co...
Expressions describing the resonant frequency and quality factor of a dynamically-driven, polymer-co...
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
Microcantilevers used as (bio)chemical sensors are usually coated with a chemically sensitive layer....
The responses of polymer-coated and/or polymer-based microcantilever chemical sensors are analyzed. ...
The generalized characteristics of dynamically-drjven, polymer-coated microcantilever (bio) chemical...
AbstractMicrocantilevers used as (bio)chemical sensors are usually coated with a chemically sensitiv...
The equation governing the curvature of a viscoelastic microcantilever beam loaded with a uniform su...
For the purpose of enhancing the limit of detection of microcantilever-based chemical sensors, this ...
The frequency stability, sensitivity, and limit of detection of a coated-cantilever chemical sensor ...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...
Chemical sensing applications have seen tremendous advancements in recent years. With the increasing...