Stirring paddle for isothermal titration calorimetry

What is claimed is: 1. A stirring paddle for an isothermal titration calorimeter comprising: a shaft having a shaft axis; a blade secured to one end of the shaft and having a length and a pair of opposing surfaces, the blade defined by: a top edge extending radially outward from the shaft axis at a first location of the shaft along the length; a bottom edge extending radially outward from the shaft axis at a second location of the shaft along the length; a first curved outer edge extending along the length between the top edge and the bottom edge; and a lip extending from the first curved outer edge at a non-zero angle relative to the opposing surfaces, wherein the blade has a twisted rectangular shape such that a rotation angle of the blade with respect to the shaft axis varies along the length. 2. The stirring paddle of claim 1 wherein the non-zero angle is approximately 90°. 3. The stirring paddle of claim 1 wherein one of the top edge is oriented at a rotation angle with respect to the shaft axis that is different than an orientation of the bottom edge with respect to the shaft axis. 4. The stirring paddle of claim 1 wherein the blade is formed of sheet metal. 5. The stirring paddle of claim 1 wherein the blade and the lip are injected molded as an integral element. 6. The stirring paddle of claim 1 wherein the blade includes a groove to receive a portion of a length of the shaft. 7. The stirring paddle of claim 1 wherein the blade is secured to the one end of the shaft by a weld. 8. The stirring paddle of claim 1 wherein the shaft has a solid cylindrical shape. 9. The stirring paddle of claim 1 where the blade and the lip are formed as an integral element. 10. An isothermal titration calorimeter comprising: a sample cell having an opening; a stirring paddle comprising: a shaft having a shaft axis and extending through the opening of the sample cell; a blade secured to one end of the shaft and having a length and a pair of opposing surfaces, the blade being disposed within the sample cell, the blade including: a top edge extending radially outward from the shaft axis at a first location of the shaft along the length; a bottom edge extending radially outward from the shaft axis at a second location of the shaft along the length; a first curved outer edge extending along the length between the top edge and the bottom edge; and a lip extending from the first curved outer edge at a non-zero angle relative to the opposing surfaces, wherein the blade has a twisted rectangular shape such that a rotation angle of the blade with respect to the shaft axis varies along the length; and an injection system comprising: a syringe pump to provide a titrant; and an injection tube in communication with the syringe pump, the injection tube having an axis that is parallel to the shaft axis and extending through the opening to dispense the titrant into the sample cell. 11. The isothermal titration calorimeter of claim 10 wherein one of the top edge is oriented at a rotation angle with respect to the shaft axis that is different than an orientation of the bottom edge with respect to the shaft axis. 12. The isothermal titration calorimeter of claim 10 wherein the non-zero angle is approximately 90°. 13. The isothermal titration calorimeter of claim 10 , wherein the blade further includes a second curved outer edge extending along the length between the top edge and the bottom edge, wherein the first curved outer edge extends from a first end of the top edge to a first end of the bottom edge and wherein the second curved outer edge extends from a second end of the top edge to a second end of the bottom edge, wherein the second curved outer edge does not include an extending lip. 14. The isothermal titration calorimeter of claim 13 , wherein the blade further includes a grove that is nominally co-linear with the shaft axis. 15. The isothermal titration calorimeter of claim 13 , wherein the top edge further includes a first angled edge at the first end of the top edge and a second angled edge at a second end of the top edge, and wherein the bottom edge further includes a first angled edge at the first end of the bottom edge and a second angled edge at a second end of the bottom edge. 16. The stirring paddle of claim 1 , wherein the blade further includes a second curved outer edge extending along the length between the top edge and the bottom edge, wherein the first curved outer edge extends from a first end of the top edge to a first end of the bottom edge and wherein the second curved outer edge extends from a second end of the top edge to a second end of the bottom edge, wherein the second curved outer edge does not include an extending lip. 17. The stirring paddle of claim 16 , wherein the blade further includes a grove that is nominally co-linear with the shaft axis. 18. The stirring paddle of claim 16 , wherein the top edge further includes a first angled edge at the first end of the top edge and a second angled edge at a second end of the top edge, and wherein the bottom edge further includes a first angled edge at the first end of the bottom edge and a second angled edge at a second end of the bottom edge. 19. The stirring paddle of claim 1 , wherein the non-zero angle is less than 90°.