Electrostatic clutch

What is claimed is: 1 . An electrostatic clutch comprising: a shaft comprising a first layer that is electrically conductive; a hold attachment rotatably coupled to the shaft; a tension band comprising a second layer that is electrically conductive, wherein the tension band is wrapped around the shaft such that a first end of the tension band is coupled to the hold attachment; a dielectric material disposed between the first layer and the second layer; and a load attachment rotatably coupled to the shaft, wherein the electrostatic clutch is configured to perform functions comprising: operating in an engaged mode wherein a voltage applied between the first layer and the second layer causes the tension band to clasp the shaft and the load attachment and the hold attachment to be rotationally locked to the shaft; and operating in a disengaged mode wherein the voltage is absent and the shaft can rotate freely with respect to the load attachment and the hold attachment. 2 . The electrostatic clutch of claim 1 , further comprising a power supply configured to apply the voltage. 3 . The electrostatic clutch of claim 1 , wherein the voltage applied causes electrostatic attraction between the tension band and the shaft. 4 . The electrostatic clutch of claim 1 , wherein the dielectric material takes a form of a dielectric sleeve surrounding the shaft. 5 . The electrostatic clutch of claim 1 , wherein the dielectric material takes a form of a dielectric layer deposited on the tension band such that the dielectric layer faces the shaft. 6 . The electrostatic clutch of claim 1 , wherein the dielectric material comprises a polymer. 7 . The electrostatic clutch of claim 1 , wherein the dielectric material comprises a polyelectrolyte or polybenzimidazole. 8 . The electrostatic clutch of claim 1 , wherein the dielectric material comprises a material that exhibits a Johnsen-Rahbek effect. 9 . The electrostatic clutch of claim 1 , wherein the dielectric material comprises a material that exhibits Coulombic electroadhesion. 10 . The electrostatic clutch of any claim 1 , wherein the tension band is wrapped helically around the shaft. 11 . The electrostatic clutch of claim 1 , wherein the tension band is polished on a surface facing the dielectric material. 12 . The electrostatic clutch of claim 1 , wherein the hold attachment comprises: a tab to which the first end of the tension band is attached, the tab extending away from the shaft; and a collar that is rotatably coupled to the shaft, the collar comprising a slot that extends substantially parallel to a longitudinal axis of the shaft. 13 . The electrostatic clutch of claim 12 , further comprising a torsion spring that surrounds the shaft, the torsion spring comprising a first end and a second end, wherein the first end of the torsion spring is captured by the slot and the second end of the torsion spring is attached to the load attachment. 14 . The electrostatic clutch of claim 13 , wherein operating in the engaged mode comprises applying the voltage to cause: the tension band to clasp the shaft and the hold attachment to rotate the first end of the torsion spring via rotation of the shaft; and the torsion spring to clasp the shaft and the load attachment to be rotationally locked to the shaft and the hold attachment. 15 . The electrostatic clutch of claim 14 , wherein operating in the disengaged mode comprises discontinuing applying the voltage to cause: the tension band to release the shaft and the shaft to become free to rotate with respect to the hold attachment; and the torsion spring to release the shaft and the shaft to become free to rotate with respect to the load attachment. 16 . The electrostatic clutch of claim 1 , wherein a second end of the tension band is held against the shaft by the hold attachment. 17 . A method of operating the electrostatic clutch of claim 1 , the method comprising applying the voltage to cause the tension band to clasp the shaft and the load attachment and the hold attachment to be rotationally locked to the shaft. 18 . The method of claim 17 , further comprising discontinuing applying the voltage to cause the shaft to release from the tension band and to become free to rotate with respect to the hold attachment and the load attachment. 19 . An electrostatic clutch comprising: a shaft comprising a first layer that is electrically conductive; a hold attachment rotatably coupled to the shaft; a tension band comprising a second layer that is electrically conductive, wherein the tension band is wrapped around the shaft such that a first end of the tension band is coupled to the hold attachment; a dielectric material disposed between the first layer and the second layer; and a load attachment rotatably coupled to the shaft, wherein the electrostatic clutch is configured to perform functions comprising: operating in an engaged mode wherein a voltage applied between the first layer and the second layer causes the tension band to clasp the shaft and the load attachment and the hold attachment to be rotationally locked to the shaft; and operating in a disengaged mode wherein the voltage is absent and the shaft can rotate freely with respect to the load attachment and the hold attachment, wherein the load attachment is coupled to the hold attachment via a second end of the tension band. 20 . An electrostatic clutch comprising: a shaft comprising a first layer that is electrically conductive; a hold attachment rotatably coupled to the shaft; a tension band comprising a second layer that is electrically conductive, wherein the tension band is wrapped around the shaft such that a first end of the tension band is coupled to the hold attachment; a dielectric material disposed between the first layer and the second layer; and a load attachment rotatably coupled to the shaft; and a torsion spring that surrounds the shaft and couples the hold attachment to the load attachment, wherein the electrostatic clutch is configured to perform functions comprising: operating in an engaged mode wherein a voltage applied between the first layer and the second layer causes the tension band to clasp the shaft and the load attachment and the hold attachment to be rotationally locked to the shaft; and operating in a disengaged mode wherein the voltage is absent and the shaft can rotate freely with respect to the load attachment and the hold attachment.