Add to ORKGWe describe herein the construction of a simple, low-power, broadly responsive vapor sensor. Carbon black−organic polymer composites have been shown to swell reversibly upon exposure to vapors. Thin films of carbon black−organic polymer composites were deposited across two metallic leads, and swelling-induced resistance changes of the films signaled the presence of vapors. To identify and classify vapors, arrays of such vapor-sensing elements were constructed, with each element containing the same carbon black conducting phase but a different organic polymer as the insulating phase. The differing gas−solid partition coefficients for the various polymers of the sensor array produced a pattern of resistance changes that can be used to classif...
We have developed a significantly improved composite material for applications to chemiresistors, wh...
We describe a method for generating a variety of chemically diverse broadly responsive low-power vap...
Composites of tin dioxide (an n-type semiconductor) and derivatives of the conducting polymer polypy...
We describe herein the construction of a simple, low-power, broadly responsive vapor sensor. Carbon ...
We describe herein the construction of simple, low-power, broadly responsive vapor sensors. Insulati...
We describe herein the construction of a simple, low-power, broadly responsive vapor sensor. Carbon ...
Thin films of carbon black-organic polymer composites have been deposited across two metallic leads,...
To investigate the behavior of chemiresistive vapor sensors operating below or around the percolatio...
We describe a method for generating a variety of chemically diverse, broadly responsive, low power v...
Chemically sensitive resistors have been fabricated from composites of carbon black and low volatili...
A statistical metric, based on the magnitude and standard deviations along linear projections of clu...
Vapor detectors formed from composites of conductors and insulating organic polymers have been tailo...
Thin films of carbon black-organic polymer composites have been deposited across two metallic leads,...
Response data were collected for a carbon black-polymer composite electronic nose array during expos...
Poly(3,4-ethylenedioxy)thiophene−poly(styrene sulfonate) (PEDOT−PSS) was used as the conductive comp...
We have developed a significantly improved composite material for applications to chemiresistors, wh...
We describe a method for generating a variety of chemically diverse broadly responsive low-power vap...
Composites of tin dioxide (an n-type semiconductor) and derivatives of the conducting polymer polypy...
We describe herein the construction of a simple, low-power, broadly responsive vapor sensor. Carbon ...
We describe herein the construction of simple, low-power, broadly responsive vapor sensors. Insulati...
We describe herein the construction of a simple, low-power, broadly responsive vapor sensor. Carbon ...
Thin films of carbon black-organic polymer composites have been deposited across two metallic leads,...
To investigate the behavior of chemiresistive vapor sensors operating below or around the percolatio...
We describe a method for generating a variety of chemically diverse, broadly responsive, low power v...
Chemically sensitive resistors have been fabricated from composites of carbon black and low volatili...
A statistical metric, based on the magnitude and standard deviations along linear projections of clu...
Vapor detectors formed from composites of conductors and insulating organic polymers have been tailo...
Thin films of carbon black-organic polymer composites have been deposited across two metallic leads,...
Response data were collected for a carbon black-polymer composite electronic nose array during expos...
Poly(3,4-ethylenedioxy)thiophene−poly(styrene sulfonate) (PEDOT−PSS) was used as the conductive comp...
We have developed a significantly improved composite material for applications to chemiresistors, wh...
We describe a method for generating a variety of chemically diverse broadly responsive low-power vap...
Composites of tin dioxide (an n-type semiconductor) and derivatives of the conducting polymer polypy...