Hydrocarbon sensing methods and apparatus

What is claimed is: 1. An apparatus for sensing a hydrocarbon, the apparatus comprising: a waveguide comprising: a core; a first cladding layer disposed on a first side of the core; and a second cladding layer disposed on a second side of the core, the second cladding layer comprising a continuous film of at least one hydrophobic polymer, the continuous film defining (i) a first measurement region having a first surface with a first hydrophobicity and (ii) a second sensing region having a second surface with a second hydrophobicity greater than the first hydrophobicity; at least one first photodetector, disposed opposite the core from the first measurement region, to sense an intensity of light evanescently coupled out of the waveguide in the first measurement region; and at least one second photodetector, disposed opposite the core from the second sensing region, to sense a change in intensity of light evanescently coupled out of the waveguide in the second sensing region due to a change in refractive index in the at least one hydrophobic polymer caused by diffusion of the hydrocarbon into the at least one hydrophobic polymer via the second surface. 2. The apparatus of claim 1 , wherein the hydrocarbon comprises at least one of an aromatic hydrocarbon, a polyaromatic hydrocarbon, benzene, toluene, ethylbenzene, or xylene. 3. The apparatus of claim 1 , wherein the waveguide is a single-mode waveguide. 4. The apparatus of claim 1 , wherein the first measurement region comprises: a hydrophilic material, disposed on the continuous film of at least one hydrophobic polymer, to inhibit diffusion of the hydrocarbon into the at least one hydrophobic polymer, the hydrophilic material defining the first surface. 5. The apparatus of claim 4 , wherein the second surface is etched to provide the second hydrophobicity. 6. The apparatus of claim 5 , wherein the second surface is oxygen plasma etched to provide the second hydrophobicity. 7. The apparatus of claim 1 , wherein the second surface is textured to provide the second hydrophobicity. 8. The apparatus of claim 1 , wherein: the first measurement region comprises the at least one hydrophobic polymer disposed at a first thickness on the core, and the second measurement region comprises the at least one hydrophobic polymer disposed at a second thickness on the core, the second thickness being smaller than the first thickness. 9. The apparatus of claim 1 , wherein the continuous film comprises a plurality of layers of the at least one hydrophobic polymer. 10. The apparatus of claim 9 , wherein a surface of at least one layer in the plurality of layers is oxygen plasma etched. 11. The apparatus of claim 1 , wherein the at least one hydrophobic polymer comprises: a first hydrophobic polymer to detect a first type of hydrocarbon; and a second hydrophobic polymer to detect a second type of hydrocarbon. 12. The apparatus of claim 1 , further comprising: a processor, operably coupled to the at least one first detector and the at least one second detector, to determine the presence of the hydrocarbon based on (i) the intensity of light sensed by the at least one first photodetector and (ii) the change in intensity of light sensed by the at least one second photodetector. 13. An apparatus for sensing a hydrocarbon, the apparatus comprising: a waveguide comprising: a first cladding layer; a core disposed on the first cladding layer; a second cladding layer disposed on the core opposite the first cladding layer, the second cladding layer defining a first measurement region and a second measurement region; at least one first photodetector, in optical communication with the first measurement region, to sample a first intensity distribution of light guided by the waveguide due to a change in refractive index of the first measurement region, the change in refractive index of the first measurement region caused by diffusion of the hydrocarbon into the first measurement region; and at least one second photodetector, in optical communication with the second measurement region, to sample a second intensity distribution of light guided by the waveguide due to a change in refractive index of the second measurement region, the change in refractive index of the second measurement region caused by diffusion of the hydrocarbon into the second measurement region. 14. The apparatus of claim 13 , wherein: the first measurement region comprises a first material having a first hydrocarbon diffusivity, and the second measurement region comprises a second material having a second hydrocarbon diffusivity greater than the first hydrocarbon diffusivity. 15. The apparatus of claim 13 , wherein: the first measurement region comprises at least one hydrophobic polymer disposed at a first thickness on the core, and the second measurement region comprises the at least one hydrophobic polymer disposed at a second thickness on the core, the second thickness being smaller than the first thickness. 16. The apparatus of claim 13 , wherein: the first measurement region defines a first surface having a first hydrophobicity, and the second measurement region comprises a second surface having a second hydrophobicity greater than the first hydrophobicity. 17. An apparatus for sensing a change in hydrocarbon concentration of a fluid, the apparatus comprising: a waveguide to guide light, the waveguide defining: a reference region having a first hydrocarbon responsiveness, the first hydrocarbon responsiveness representing a first change in intensity distribution of the light guided by the waveguide at a particular hydrocarbon concentration; and a sensing region defining at least one surface to be exposed to the fluid and having a second hydrocarbon responsiveness different than the first hydrocarbon responsiveness, the second hydrocarbon responsiveness representing a second change in intensity distribution of the light guided by the waveguide at the particular hydrocarbon concentration; at least one first photodetector, in optical communication with the reference region, to sample an intensity distribution of the light guided by the waveguide in the reference region; and at least one second photodetector, in optical communication with the sensing region, to sample a change in the intensity distribution of the light guided by the waveguide in the sensing region, the change in the intensity distribution caused by diffusion of hydrocarbon from the fluid into the sensing region via the at least one surface.