Electrosurgical forceps for grasping, treating, and/or dividing tissue

What is claimed is: 1. An end effector assembly of an electrosurgical instrument, comprising: first and second jaw members, at least one of the first or second jaw members movable relative to the other of the first or second jaw members between a spaced-apart position and an approximated position, the first and second jaw members including first and second insulative housings and first and second electrically-conductive surfaces, wherein, in the approximated position, the first and second electrically-conductive surfaces are configured to grasp tissue therebetween; at least one stop member extending from the first or second electrically-conductive surface and configured to contact the second or first electrically-conductive surface, respectively, in the approximated position of the first and second jaw members to define a minimum gap between the first and second electrically-conductive surfaces; and a beak positioned distally of the first electrically-conductive surface and, when the first and second jaw members are in the approximated position, extending farther from the first insulative housing towards the second insulative housing than does the first electrically-conductive surface, wherein the beak is configured to reduce a gap between portions of the first and second insulative housings disposed distal to the first and second electrically-conductive surfaces, respectively, to inhibit tissue from entering a volume between the first and second jaw members from distal ends thereof in the approximated position. 2. The end effector assembly according to claim 1 , wherein the beak is distally-spaced from a distal edge of the first electrically-conductive surface. 3. The end effector assembly according to claim 1 , wherein the first and second insulative housings include side portions extending along the lateral sides of the first and second electrically-conductive surfaces, respectively. 4. The end effector assembly according to claim 3 , wherein the lateral sides of the first and second insulative housings are recessed relative to the first and second electrically-conductive surfaces, respectively. 5. The end effector assembly according to claim 4 , wherein the lateral sides of the first and second insulative housings include first portions recessed relative to the respective first and second electrically-conductive surfaces a first depth, and second portions recessed relative to the respective first and second electrically-conductive surfaces a second depth less than the first depth. 6. The end effector assembly according to claim 4 , wherein the first portions are positioned more-proximally relative to the second portions. 7. The end effector assembly according to claim 1 , wherein the beak is monolithically formed with the first insulative housing. 8. The end effector assembly according to claim 7 , wherein the beak and the insulative housing are monolithically formed via overmolding. 9. The end effector assembly according to claim 1 , wherein the at least one stop member includes a plurality of stop members. 10. The end effector assembly according to claim 1 , wherein the first and second electrically-conductive surfaces define knife channels therein configured for longitudinal reciprocation of a knife therethrough. 11. The end effector assembly according to claim 10 , wherein the at least one stop member is distally-spaced from a distal end of the knife channel of the first or second electrically-conductive surface. 12. An end effector assembly of an electrosurgical instrument, comprising: first and second jaw members, at least one of the first or second jaw members movable relative to the other between a spaced-apart position and an approximated position, the first and second jaw members including first and second insulative housings and first and second electrically-conductive surfaces raised relative to the respective first and second insulative housings, wherein, in the approximated position, the first and second electrically-conductive surfaces are configured to grasp tissue therebetween; at least one stop member extending from the first or second electrically-conductive surface and configured to contact the second or first electrically-conductive surface, respectively, in the approximated position of the first and second jaw members to define a minimum gap between the first and second electrically-conductive surfaces; and first and second beaks positioned distally of the first and second electrically-conductive surfaces, respectively, and, when the first and second jaw members are in the approximated position, extending farther from the first and second insulative housings towards the second and first insulative housings than do the first and second electrically-conductive surfaces, respectively, wherein the first and second beaks are configured to reduce a gap between portions of the first and second insulative housings disposed distal to the first and second electrically-conductive surfaces, respectively, to inhibit tissue from entering a volume between the first and second jaw members from distal ends thereof in the approximated position. 13. The end effector assembly according to claim 12 , wherein the first and second beaks are distally-spaced from distal edges of the respective first and second electrically-conductive surfaces. 14. The end effector assembly according to claim 12 , wherein the first and second insulative housings include side portions extending along the lateral sides of the first and second electrically-conductive surfaces, respectively. 15. The end effector assembly according to claim 14 , wherein the lateral sides of the first and second insulative housings include first portions recessed relative to the respective first and second electrically-conductive surfaces a first depth, and second portions recessed relative to the respective first and second electrically-conductive surfaces a second depth less than the first depth. 16. The end effector assembly according to claim 15 , wherein the first portions are positioned more-proximally relative to the second portions. 17. The end effector assembly according to claim 12 , wherein the first and second beaks are monolithically formed with the first and second insulative housings, respectively. 18. The end effector assembly according to claim 12 , wherein the first and second beaks and the first and second insulative housings, respectively, are monolithically formed via overmolding. 19. The end effector assembly according to claim 12 , wherein the first and second electrically-conductive surfaces define knife channels therein configured for longitudinal reciprocation of a knife therethrough. 20. The end effector assembly according to claim 19 , wherein the at least one stop member is distally-spaced from a distal end of the knife channel of the first or second electrically-conductive surface.