A bond surface testing apparatus and method are presented. The bond surface testing apparatus comprises a solution chamber; a plurality of solution containers located in the solution chamber; a plurality of microfluidic pipettes; and an information capture module. Each solution container in the plur
A bond surface testing apparatus and method are presented. The bond surface testing apparatus comprises a solution chamber; a plurality of solution containers located in the solution chamber; a plurality of microfluidic pipettes; and an information capture module. Each solution container in the plurality of solution containers includes a microfluidic pipette in the plurality of microfluidic pipettes. A number of the plurality of microfluidic pipettes has a non-circular cross-section. The information capture module is physically associated with the solution chamber and is configured to capture information relating to bonding surface properties of the bonding surface.
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1. A bond surface testing apparatus for testing bonding suitability of a bonding surface, comprising: a solution chamber;a plurality of solution containers located in the solution chamber;a plurality of microfluidic pipettes configured such that each solution container in the plurality of solution c
1. A bond surface testing apparatus for testing bonding suitability of a bonding surface, comprising: a solution chamber;a plurality of solution containers located in the solution chamber;a plurality of microfluidic pipettes configured such that each solution container in the plurality of solution containers comprises a microfluidic pipette of the plurality of microfluidic pipettes such that a number of the plurality of microfluidic pipettes each comprise a cross-section, substantially perpendicular to a central axis respectively of the each microfluidic pipette, being non-circular and configured such that in response to a dispensation, of a selected solution from the each microfluidic pipette, a drop, on the bonding surface, of the dispensation comprises a selected shape that comprises a planform that comprises a non-circular shape; andan information capture module physically associated with the solution chamber and configured to capture information relating to bonding properties of the bonding surface. 2. The bond surface testing apparatus of claim 1, wherein the information relating to the bonding properties of the bonding surface comprises a two-dimensional contact angle. 3. The bond surface testing apparatus of claim 1, wherein the information capture module comprises a number of optical sensors. 4. The bond surface testing apparatus of claim 1 further comprising: at least one analysis module interfacing with the information capture module and configured to analyze the bonding properties of the bonding surface; anda structural wettability factor prediction module interfacing with the at least one analysis module and configured to predict a structural wettability factor based on the bonding properties. 5. The bond surface testing apparatus of claim 4, wherein the at least one analysis module comprises a functional group analysis module configured to identify functional groups on the bonding surface. 6. The bond surface testing apparatus of claim 5, wherein the at least one analysis module further comprises a surface energy analysis module configured to analyze surface energies of the functional groups on the bonding surface. 7. The bond surface testing apparatus of claim 6, wherein the at least one analysis module further comprises a chemical-mechanical analysis module configured to predict three-dimensional wettability curves based on data from the functional group analysis module and the surface energy analysis module. 8. The bond surface testing apparatus of claim 7, wherein the structural wettability factor prediction module is configured to predict the structural wettability factor by matching the three-dimensional wettability curves with the surface energies of the functional groups on the bonding surface. 9. A bond surface testing apparatus for testing bonding suitability of a bonding surface, comprising: a solution chamber;a plurality of solution containers located in the solution chamber;a plurality of microfluidic pipettes configured such that each solution container in the plurality of solution containers comprises a microfluidic pipette of the plurality of microfluidic pipettes such that a number of the plurality of microfluidic pipettes each comprise a cross-section, substantially perpendicular to a central axis respectively of the each microfluidic pipette, being non-circular and configured such that in response to a dispensation, of a selected solution from the each microfluidic pipette, a drop of the dispensation, on the bonding surface, comprises a selected shape that comprises a planform that comprises a non-circular shape;a plurality of solutions in the solution chamber, each microfluidic pipette configured to dispense a solution in the plurality of solutions onto the bonding surface;a plurality of stand-offs configured to engage the bonding surface;an information capture module carried by the plurality of stand-offs and configured to capture information relating to bonding properties of the bonding surface;a data transfer pathway interfacing with the information capture module;a plurality of analysis modules interfacing with the data transfer pathway and configured to analyze the bonding properties of the bonding surface; anda structural wettability factor prediction module interfacing with the data transfer pathway and configured to predict a structural wettability factor based on the bonding surface properties. 10. The bond surface testing apparatus of claim 9, wherein the information relating to the bonding properties of the bonding surface comprises a two-dimensional contact angle. 11. The bond surface testing apparatus of claim 9, wherein the information capture module comprises a number of optical sensors. 12. The bond surface testing apparatus of claim 9, wherein the plurality of analysis modules comprises a functional group analysis module configured to identify functional groups on the bonding surface. 13. The bond surface testing apparatus of claim 12, wherein the plurality of analysis modules further comprises a surface energy analysis module configured to analyze surface energies of the functional groups on the bonding surface. 14. The bond surface testing apparatus of claim 13, wherein the plurality of analysis modules comprises a chemical-mechanical analysis module configured to predict three-dimensional wettability curves based on data from the functional group analysis module and the surface energy analysis module. 15. The bond surface testing apparatus of claim 14, wherein the structural wettability factor prediction module is configured to predict the structural wettability factor by matching the three-dimensional wettability curves with the surface energies of the functional groups on the bonding surface. 16. A bond surface testing method, comprising: providing a plurality of solutions;activating a functional group on a bonding surface by dispensing a solution from the plurality of solutions onto the bonding surface, via dispensing at least one solution of the plurality of solutions comprising a planform comprising a non-circular shape onto the bonding surface via at least one microfluidic pipette associated with the solution, the microfluidic pipette comprising a cross-section, substantially perpendicular to a central axis respectively of the each microfluidic pipette, the cross-section being non-circular and producing, via dispensing the solution from the microfluidic pipette, a drop of the solution, on the bonding surface, comprising a selected shape comprising the planform comprising the non-circular shape;analyzing bonding properties on the bonding surface; andpredicting a structural wettability factor based on the bonding properties. 17. The bond surface testing method of claim 16 further comprising: capturing information relating to the bonding properties of the bonding surface, wherein the information relating to the bonding properties of the bonding surface comprises a two-dimensional contact angle. 18. The bond surface testing method of claim 16, wherein analyzing the bonding properties comprises identifying the functional groups on the bonding surface. 19. The bond surface testing method of claim 18, wherein analyzing the bonding properties further comprises analyzing surface energies on the bonding surface. 20. The bond surface testing method of claim 19, wherein analyzing the bonding properties further comprises predicting three-dimensional wettability curves based on the bonding properties.
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