Add to ORKGExpressions describing the resonant frequency and quality factor of a dynamically-driven, polymer-coated microcantilever in a viscous liquid medium have been obtained. These generalized formulas are used to describe the effects the operational medium and the coating has on the device sensitivity when used in liquid-phase chemical sensing applications. The derived expressions are shown to reduce to well-known formulas for the case of an uncoated cantilever in an invisicid [sic] medium and the case of a coated cantilever in air. The theoretical results are compared to existing chemical sensor data in aqueous and viscous solutions
AbstractMicrocantilevers used as (bio)chemical sensors are usually coated with a chemically sensitiv...
Dynamically driven microcantilevers are normally excited into resonance in the out-of-plane flexural...
The use of microcantilevers as (bio)chemical sensors usually involves the application of a chemicall...
Expressions describing the resonant frequency and quality factor of a dynamically driven, polymer-co...
The generalized characteristics of dynamically-drjven, polymer-coated microcantilever (bio) chemical...
Microcantilevers with polymer coatings hold great promise as resonant chemical sensors. It is known ...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
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...
The characteristics of resonant cantilevers in viscous liquids are analyzed. Various rectangular can...
The characteristics of microcantilevers vibrating laterally in viscous liquid media are investigated...
The characteristics of resonant cantilevers in viscous liquids are analyzed. Various rectangular can...
Microcantilevers used as (bio)chemical sensors are usually coated with a chemically sensitive layer....
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
AbstractMicrocantilevers used as (bio)chemical sensors are usually coated with a chemically sensitiv...
Dynamically driven microcantilevers are normally excited into resonance in the out-of-plane flexural...
The use of microcantilevers as (bio)chemical sensors usually involves the application of a chemicall...
Expressions describing the resonant frequency and quality factor of a dynamically driven, polymer-co...
The generalized characteristics of dynamically-drjven, polymer-coated microcantilever (bio) chemical...
Microcantilevers with polymer coatings hold great promise as resonant chemical sensors. It is known ...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
The characteristics of microcantilevers vibrating in the in-plane flexural mode (also known as later...
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...
The characteristics of resonant cantilevers in viscous liquids are analyzed. Various rectangular can...
The characteristics of microcantilevers vibrating laterally in viscous liquid media are investigated...
The characteristics of resonant cantilevers in viscous liquids are analyzed. Various rectangular can...
Microcantilevers used as (bio)chemical sensors are usually coated with a chemically sensitive layer....
Microcantilevers coated with a chemically sensitive layer are increasingly being used in chemical de...
AbstractMicrocantilevers used as (bio)chemical sensors are usually coated with a chemically sensitiv...
Dynamically driven microcantilevers are normally excited into resonance in the out-of-plane flexural...
The use of microcantilevers as (bio)chemical sensors usually involves the application of a chemicall...