Co-mold features on a chassis shell of a mobile device

What is claimed is: 1. A mobile phone, comprising: a circuit board having a processor thereon; and a chassis shell having an integral unibody including a co-mold loop feature surrounding a button profile feature, the co-mold loop feature and the button profile feature located on the surface of the chassis shell, the co-mold loop feature preventing an independent movement of the button profile feature, wherein the co-mold loop feature is integrally bonded to both the button profile feature and a passive part of the chassis shell surrounding the co-mold loop feature; a channel formed within the chassis shell defining the co-mold loop feature and electrically insulating the button profile feature from the chassis shell; and a sensor system coupled to the circuit board and the button profile feature from an interior side of the chassis shell, wherein the sensor system is configured to detect a user interaction event based on sensor readings from the sensor system and to register the user interaction event with the processor. 2. The mobile phone of claim 1 , wherein the co-mold loop feature is non-conductive and exposed on both an exterior side and an interior side of the chassis shell to thereby electrically isolate the button profile feature from the passive part of the chassis shell. 3. The mobile phone of claim 1 , further comprising a display, wherein the chassis shell and the display hermetically seal the sensor system and the circuit board therein. 4. The mobile phone of claim 2 , wherein the sensor system is a capacitive touch sensor system capable of sensing a human touch on the button profile feature. 5. The mobile phone of claim 2 , wherein a second material is a plastic material that electrically isolates the button profile feature from the passive part of the chassis shell. 6. The mobile phone of claim 1 , wherein the passive part of the chassis shell is composed of a first material. 7. The mobile phone of claim 2 , wherein a first material is an electrically conductive material. 8. The mobile phone of claim 1 , wherein the sensor system is a tactile switch in contact with or closely spaced apart from the button profile feature. 9. The mobile phone of claim 8 , wherein the co-mold loop feature is composed of a stretchable material. 10. A method, comprising: providing a circuit board having a processor thereon; and providing a chassis shell having an integral unibody including a co-mold loop feature surrounding a button profile feature, the co-mold loop feature and the button profile feature located on the surface of the chassis shell, the co-mold loop feature preventing an independent movement of the button profile feature, wherein the co-mold loop feature is integrally bonded to both the button profile feature and a passive part of the chassis shell surrounding the co-mold loop feature, wherein the button profile feature is composed of a first material different from a second material composing the co-mold loop feature; forming a channel within the chassis shell defining the co-mold loop feature and electrically insulating the button profile feature from the chassis shell; and providing a sensor system coupled to the circuit board and the button profile feature from an interior side of the chassis shell, wherein the sensor system is configured to detect a user interaction event based on sensor readings from the sensor system and to register the user interaction event with the processor. 11. The method of claim 10 , said providing the chassis shell comprising providing a nonconductive co-mold loop feature exposed on both an exterior side and an interior side of the chassis shell to thereby electrically isolate the button profile feature from the passive part of the chassis shell. 12. The method of claim 10 , further comprising providing a display, wherein the chassis shell and the display hermetically seal the sensor system and the circuit board therein. 13. The method of claim 12 , providing a capacitive touch sensor system capable of sensing a human touch on the button profile feature. 14. The method of claim 12 , comprising providing the second material composed of a plastic material that electrically isolates the button profile feature from the passive part of the chassis shell. 15. The method of claim 10 , comprising providing the passive part of the chassis shell composed of the first material.