Methods of rapid 3D nano/microfabrication of multifunctional shell-stabilized liquid metal pipe networks and insulating/metal liquids electro-mechanical switch and capacitive strain sensor

The invention claimed is: 1. An electric switch apparatus, comprising: a base comprising a first channel and a second channel, wherein the base comprises a flexible polymer and a strain-dependent gate coupling the first channel to the second channel; an electrode disposed in the first channel, wherein the electrode comprises a cavity and a liquid metal disposed in the cavity; and an electrically insulating liquid at least partially disposed in the second channel, wherein in a strained condition a portion of the electrically insulating liquid extends into the first channel dividing the electrode into at least two electrically isolated chambers within the first channel, and wherein in an unstrained condition the cavity of the electrode is undivided. 2. The electric switch apparatus of claim 1 , wherein the strain-dependent gate is biased closed in the unstrained position and biased open in the strained condition. 3. The electric switch apparatus of claim 1 , wherein the first channel and the second channel are arranged perpendicular to one another. 4. The electric switch apparatus of claim 1 , wherein the liquid metal comprises a gallium-based liquid metal comprising one or more of GaIn, GaInSn, and a gallium alloy. 5. The electric switch apparatus of claim 1 , wherein the electrode comprises a metal pipe having an oxidized external shell defining the cavity. 6. An electric switch apparatus, comprising: a base comprising one or more channels, wherein the base comprises a flexible polymer; an electrode disposed in at least one of the one or more channels, wherein the electrode comprises a cavity and a liquid metal disposed in the cavity and the liquid metal comprises a gallium-based liquid metal comprising one or more of GaIn, GaInSn, and a gallium alloy; and a strain dependent gate defined by opposing walls of the channel, wherein in a strained condition the strain-dependent gate maintains an open position such that the cavity of the electrode is undivided, and wherein in an unstrained condition the strain-dependent gate maintains a closed position dividing the electrode into at least two electrically isolated chambers. 7. The electric switch apparatus of claim 6 , wherein the electrode comprises a metal pipe having an oxidized external shell defining the cavity. 8. An electric switch apparatus, comprising: a base comprising a first channel and a second channel, wherein the base comprises a flexible polymer; an electrode disposed in the first channel, wherein the electrode comprises a cavity and a liquid metal disposed in the cavity, wherein the liquid metal comprises a gallium-based liquid metal comprising one or more of GaIn, GaInSn, and a gallium alloy; and an electrically insulating liquid at least partially disposed in the second channel, wherein in a strained condition a portion of the electrically insulating liquid extends into the first channel dividing the electrode into at least two electrically isolated chambers within the first channel, and wherein in an unstrained condition the cavity of the electrode is undivided. 9. The electric switch apparatus of claim 8 , wherein the base further comprises a strain-dependent gate coupling the first channel to the second channel, and the strain-dependent gate is biased closed in the unstrained position and biased open in the strained condition. 10. The electric switch apparatus of claim 8 , wherein the first channel and the second channel are arranged perpendicular to one another. 11. The electric switch apparatus of claim 8 , wherein the electrode comprises a metal pipe having an oxidized external shell defining the cavity. 12. An electric switch apparatus, comprising: a base comprising a first channel and a second channel, wherein the base comprises a flexible polymer; an electrode disposed in the first channel, wherein the electrode comprises: a cavity and a liquid metal disposed in the cavity; and a metal pipe having an oxidized external shell defining the cavity; and an electrically insulating liquid at least partially disposed in the second channel, wherein in a strained condition a portion of the electrically insulating liquid extends into the first channel dividing the electrode into at least two electrically isolated chambers within the first channel, and wherein in an unstrained condition the cavity of the electrode is undivided. 13. The electric switch apparatus of claim 12 , wherein the base further comprises a strain-dependent gate coupling the first channel to the second channel, and the strain-dependent gate is biased closed in the unstrained position and biased open in the strained condition. 14. The electric switch apparatus of claim 12 , wherein the first channel and the second channel are arranged perpendicular to one another. 15. An electric switch apparatus, comprising: a base comprising one or more channels, wherein the base comprises a flexible polymer; an electrode disposed in at least one of the one or more channels, wherein the electrode comprises: a cavity and a liquid metal disposed in the cavity; and a metal pipe having an oxidized external shell defining the cavity; and a strain dependent gate defined by opposing walls of the channel, wherein in a strained condition the strain-dependent gate maintains an open position such that the cavity of the electrode is undivided, and wherein in an unstrained condition the strain-dependent gate maintains a closed position dividing the electrode into at least two electrically isolated chambers.