Aerosol delivery device

The invention claimed is: 1. An aerosol delivery device comprising: an atomizer comprising a liquid transport element and a heating element arranged to aerosolize an aerosol precursor composition; a body having an outlet and housing the liquid transport element and the heating element, the outlet being arranged to receive suction and deliver the aerosolized aerosol precursor composition to a user in response thereto; and a micro-pattern comprising a plurality of capillary channels radially spaced apart and formed directly in one or both of an inner surface of the body and an inner surface of a mouthpiece defining the outlet of the body arranged downstream from the atomizer and upstream from the outlet relative to a flow direction of the aerosolized aerosol precursor composition and configured to inhibit liquid droplets of the aerosol precursor from exiting the outlet in response to the suction, the plurality of capillary channels each longitudinally extending from the outlet to convey liquid toward the liquid transport element and the heating element of the atomizer so as to direct liquid away from the outlet after the suction. 2. The aerosol delivery device of claim 1 , wherein the micro-pattern is configured to entrap the liquid droplets along the surface. 3. The aerosol delivery device of claim 1 , wherein the micro-pattern is formed by etching. 4. The aerosol delivery device of claim 1 , wherein the micro-pattern is in the mouthpiece. 5. The aerosol delivery device of claim 1 , wherein the mouthpiece comprises a plurality of flutes shaped and arranged to form a ring concentric with an inner surface of the mouthpiece to create the micro-pattern for inhibiting liquid droplets of the aerosol precursor from exiting the outlet. 6. The aerosol delivery device of claim 1 , wherein the mouthpiece comprises an invert extending inwardly from the outlet, and spaced from an inner surface of the mouthpiece to create the micro-pattern for inhibiting liquid droplets of the aerosol precursor from exiting the outlet. 7. A method of forming an aerosol delivery device, the method comprising: providing an aerosol precursor composition; positioning an atomizer comprising a liquid transport element and a heating element in fluid communication with the aerosol precursor composition, the heating element being arranged to aerosolize an aerosol precursor composition; forming a body having an outlet arranged to receive suction and deliver the aerosolized aerosol precursor composition to a user in response thereto and a micro-pattern comprising a plurality of capillary channels radially spaced apart and formed directly in one or both of an inner surface of the body and an inner surface of a mouthpiece defining the outlet of the body arranged downstream from the atomizer and upstream from the outlet relative to a flow direction of the aerosolized aerosol precursor composition, the plurality of capillary channels each longitudinally extending from the outlet to convey liquid toward the liquid transport element and the heating element of the atomizer so as to direct liquid away from the outlet after the suction; and assembling the atomizer with the body, wherein the body is configured to minimize an ability of liquid droplets of the aerosol precursor to exit the outlet in response to the suction. 8. The method of claim 7 , wherein forming the body comprises molding the body with an etched mold. 9. A method of minimizing waste of an aerosol precursor composition during use of an aerosol delivery device, the method comprising: drawing air past an atomizer comprising a liquid transport element and a heating element, and out of the aerosol delivery device through an outlet of a mouthpiece, the atomizer in fluid connection with the aerosol precursor composition and arranged to aerosolize an aerosol precursor composition; and inhibiting droplets of the aerosol precursor composition from exiting the outlet of the mouthpiece in response to the draw of air using a micro-pattern comprising a plurality of capillary channels radially spaced apart and formed directly in one or both of an inner surface of the body and an inner surface of the mouthpiece defining the outlet of the body and arranged downstream from the atomizer and upstream from the outlet relative to a flow direction of the aerosolized aerosol precursor composition, the plurality of capillary channels each longitudinally extending from the outlet to convey liquid toward the liquid transport element and the heating element of the atomizer so as to direct liquid away from the outlet of the aerosol delivery device after the draw of air. 10. The method of claim 9 , wherein inhibiting the droplets from exiting comprises entrapping droplets on the micro-patterned surface.