Compositions for sensor films used for detecting chemical analytes within sensors, such as polymer-absorption chemiresistors (i.e., conductometric sensors) are provided. Robust sensor film compositions that have low resistance, high conductivity, and greater temperature stability and sensitivity to
Compositions for sensor films used for detecting chemical analytes within sensors, such as polymer-absorption chemiresistors (i.e., conductometric sensors) are provided. Robust sensor film compositions that have low resistance, high conductivity, and greater temperature stability and sensitivity to chemical analytes are provided, as well as methods of making these sensor films. Such sensor film compositions include a matrix having a polymer resin and a plurality of conductive particles comprising an axial-geometry conductive particle. Exemplary axial-geometry conductive particles comprise graphene, such as a carbon nanotube. Blends of conductive particles are also contemplated, including blends of axial-geometry conductive particles, such as carbon nanotubes, and carbon black.
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1. A low resistance conductometric sensor film for detecting one or more chemical analytes comprising: a polymer matrix comprising a cross-linked siloxane polymer and a plurality of particles including a conductive particle species comprising graphene that is homogeneously distributed within said ma
1. A low resistance conductometric sensor film for detecting one or more chemical analytes comprising: a polymer matrix comprising a cross-linked siloxane polymer and a plurality of particles including a conductive particle species comprising graphene that is homogeneously distributed within said matrix; andwherein the low resistance conductometric sensor film exhibits a base resistance that is less than or equal to about 10 Ohm and the low resistance conductometric sensor film exhibits a change in resistance when said cross-linked siloxane polymer interacts with the one or more chemical analytes. 2. The low resistance conductometric sensor film according to claim 1 wherein said conductive particle species comprising graphene is selected from the group consisting of: nanotubes, nanofibers, whiskers, rods, filaments, caged structures, buckyballs, and mixtures thereof. 3. The low resistance conductometric sensor film according to claim 1 wherein at least one of said conductive particle species comprising graphene is a nanotube. 4. The low resistance conductometric sensor film according to claim 3 wherein said nanotube is selected from the group consisting of: single walled nanotubes, multiwalled nanotubes, and combinations thereof. 5. The low resistance conductometric sensor film according to claim 3 wherein said nanotube has a bulk electrical conductivity of greater than or equal to about 100 S/cm. 6. The low resistance conductometric sensor film according to claim 1 wherein said plurality of particles further comprises conductive carbon black particles having an N2 adsorption of about 8 to about 25 m2/g and a DBP of about 1 to about 180 ml/100 g. 7. The low resistance conductometric sensor film according to claim 1 wherein said cross-linked siloxane polymer comprises a siloxane monomer having at least one hydrocarbon side group with greater than or equal to two carbon atoms. 8. The low resistance conductometric sensor film according to claim 1 wherein said cross-linked siloxane polymer comprises a siloxane monomer with at least one hydrocarbon side group selected from the group consisting of: propyl, butyl, pentyl, hexyl, heptyl, octyl, nonyl, and decyl. 9. The low resistance conductometric sensor film according to claim 1 wherein said cross-linked siloxane polymer comprises an octylmethylsiloxane monomer. 10. The low resistance conductometric sensor film according to claim 1 wherein said conductive particle species comprising graphene has an aspect ratio of greater than about 500. 11. A low resistance conductometric sensor film for detecting one or more chemical analytes comprising: a polymer matrix comprising a cross-linked siloxane polymer and a plurality of electrically conductive particles homogeneously distributed within said matrix, wherein said plurality of electrically conductive particles comprises a first species selected from the group consisting of: carbon nanotubes, nanofibers, nanofilaments, and combinations thereof, and a second species comprising carbon black; andwherein the low resistance conductometric sensor film exhibits a change in resistance when in the presence of the one or more chemical analytes, and wherein the low resistance conductometric sensor film exhibits a base resistance that is less than or equal to about 10 Ohm. 12. The low resistance conductometric sensor film according to claim 11 wherein said carbon black has an N2 adsorption of about 8 to about 25 m2/g and a DBP of about 1 to about 180 ml/100 g. 13. The low resistance conductometric sensor film according to claim 11 wherein said cross-linked siloxane polymer comprises a siloxane monomer having at least one hydrocarbon side group with greater than or equal to two carbon atoms. 14. The low resistance conductometric sensor film according to claim 11 wherein said cross-linked siloxane polymer comprises an octylmethylsiloxane monomer. 15. The low resistance conductometric sensor film according to claim 11 wherein said first species is said carbon nanotube selected from the group consisting of: single walled nanotubes, multiwalled nanotubes, and combinations thereof. 16. The low resistance conductometric sensor film according to claim 11 wherein said first species has a bulk electrical conductivity of greater than or equal to about 100 S/cm. 17. A low resistance conductometric sensor film for detecting one or more chemical analytes comprising: a polymer matrix comprising a cross-linked siloxane polymer and a plurality of particles including a conductive particle species comprising graphene that is homogeneously distributed within said matrix; andwherein the low resistance conductometric sensor film exhibits a base resistance that is less than or equal to about 100 mOhm and the low resistance conductometric sensor further exhibits a change in resistance when said cross-linked siloxane polymer interacts with the one or more chemical analytes. 18. The low resistance conductometric sensor film according to claim 17, wherein said conductive particle species comprising graphene is selected from the group consisting of: nanotubes, nanofibers, whiskers, rods, filaments, caged structures, buckyballs, and mixtures thereof. 19. The low resistance conductometric sensor film according to claim 17, wherein said conductive particle species comprising graphene is selected from the group consisting of: single walled nanotubes, multiwalled nanotubes, and combinations thereof. 20. The low resistance conductometric sensor film according to claim 17, wherein the cross-linked siloxane polymer comprises a monomer with at least one hydrocarbon side group selected from the group consisting of: propyl, butyl, pentyl, hexyl, heptyl, octyl, nonyl, and decyl and said plurality of particles further comprises conductive carbon black particles having an N2 adsorption of about 8 to about 25 m2/g and a DBP of about 1 to about 180 ml/100 g.
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