Electrode testing fixture and system for material characterization and standardization

What is claimed is: 1. A fixture assembly for testing or measuring at least a portion of a battery electrode, the fixture assembly comprising: a top plate comprising a plurality of holes for creating a low-pressure region along a top surface of the top plate to hold the at least a portion of the battery electrode to the top plate; a baseplate comprising a bottom plate, and a plurality of side walls extending upward from the bottom plate and defining a vacuum chamber with the top plate; a connector attached to the baseplate and configured to be connected to a vacuum hose for drawing air from the vacuum chamber to pull the at least a portion of the battery electrode to the top plate; and a support member attached to the baseplate and configured to hold the fixture assembly in place relative to a measuring device that measures a physical characteristic of the at least a portion of the battery electrode, wherein at least one of the plurality of side walls comprise an inner ledge on which the top plate is disposed such that the top surface of the top plate is flush with top surfaces of the plurality of side walls, and the baseplate comprises a plurality of support pegs for supporting the top plate relative to the bottom plate, the plurality of support pegs extending within the vacuum chamber and from the bottom plate. 2. The fixture assembly of claim 1 , wherein the plurality of holes of the top plate comprise an array of holes arranged in rows and columns. 3. The fixture assembly of claim 1 , wherein the plurality of holes of the top plate comprise two rows of slots arranged closer to opposite sides of the top plate than a centerline of the top plate and do not include other slots. 4. The fixture assembly of claim 1 , wherein the plurality of holes of the top plate comprise rows of holes arranged closer to opposite sides of the top plate than a centerline of the top plate and do not include other holes. 5. The fixture assembly of claim 1 , wherein the plurality of holes comprise a first set of holes and a second set of holes, the second set of holes being sized differently than the first set of holes. 6. The fixture assembly of claim 1 , wherein the plurality of holes comprise a first set of holes and a second set of holes, the second set of holes being shaped differently than the first set of holes. 7. The fixture assembly of claim 1 , wherein the plurality of holes comprise first rows of holes that are laterally offset from second rows of holes of the top plate. 8. The fixture assembly of claim 1 , wherein the plurality of side walls are configured to hold the top plate. 9. The fixture assembly of claim 1 , wherein the plurality of support pegs are laterally offset from the plurality of holes of the top plate. 10. The fixture assembly of claim 1 , wherein at least two of the top plate, the baseplate, the connector and the support member are integrally formed as a single part. 11. The fixture assembly of claim 1 , wherein: two of the plurality of side walls comprise guides; and the support member is ring-shaped and comprises two pair of tabs extending upward and configured to at least one of engage with and slide adjacent to the guides to position the support member relative to the bottom plate. 12. A characterization system comprising: an instrument; a fixture assembly for testing or measuring at least a portion of a battery electrode, the fixture assembly comprising a top plate comprising a plurality of holes for creating a low-pressure region along a top surface of the top plate to hold the at least a portion of the battery electrode to the top plate; a baseplate comprising a bottom plate, and a plurality of side walls extending upward from the bottom plate and defining a vacuum chamber with the top plate; a connector attached to the baseplate and configured to be connected to a vacuum hose for drawing air from the vacuum chamber to pull the at least a portion of the battery electrode to the top plate; and a support member attached to the baseplate and configured to hold the fixture assembly in place relative to a measuring device that measures a physical characteristic of the at least a portion of the battery electrode, wherein the fixture assembly is disposed on or in the instrument; a vacuum pump connected to the connector of the fixture assembly and configured to draw air from the fixture assembly; and a network device configured to control operation of the instrument and the vacuum pump to hold the at least a portion of the battery electrode to the top plate and measure the physical characteristic of the at least a portion of the battery electrode. 13. The characterization system of claim 12 , wherein the instrument comprises at least one sensor configured to measure the physical characteristic of the at least a portion of the battery electrode. 14. The characterization system of claim 12 , wherein: the instrument comprises a support plate with a recessed portion; and the support member is disposed at least partially within the recessed portion and prevents lateral movement of the fixture assembly relative to the support plate. 15. The fixture assembly of claim 1 , wherein the plurality of support pegs and the bottom plate are integrally formed as a single part. 16. The fixture assembly of claim 1 , wherein: the plurality of support pegs are disposed within and distributed throughout the vacuum chamber to support respective portions of the top plate relative to the bottom plate; and the top plate is disposed on the plurality of support pegs. 17. A characterization system for testing and measuring parameters of at least a portion of a battery electrode, the characterization system comprising: an instrument comprising a support plate, the support plate comprising a recessed portion; a fixture assembly comprising i) a top plate with a plurality of holes, ii) an inner cavity fluidically coupled to the plurality of holes, and iii) a support member, wherein the fixture assembly is disposed on the support plate such that at least a portion of the support member is disposed in the recessed portion of the support plate; a vacuum pump connected to the fixture assembly and configured to draw air from the inner cavity to pull the at least a portion of the battery electrode to the top plate; and a network device configured to control operation of the instrument and the vacuum pump to hold the at least a portion of the battery electrode to the top plate and measure the parameters of the at least a portion of the battery electrode. 18. The characterization system of claim 17 , wherein the fixture assembly comprises a baseplate comprising: a bottom plate; a plurality of side walls extending upward from the bottom plate and defining a vacuum chamber with the top plate; and a plurality of support pegs disposed between the top plate and the bottom plate. 19. The characterization system of claim 17 , wherein: the fixture assembly comprises a plurality of side walls; the plurality of side walls comprise guides; and the support member is ring-shaped and comprises two pair of tabs extending upward and configured to at least one of engage with and slide adjacent to the guides to i) position the support member relative to the top plate, and ii) position the top plate relative to the support plate of the instrument. 20. The characterization system of claim 17 , wherein: the plurality of holes comprise a first set of holes and a second set of holes; and the first set of holes are a