Compact microfluidic structures for manipulating fluids

We claim: 1. A microfluidic apparatus comprising: (1) an inlet level comprising a first inlet channel and a second inlet channel; (2) a primary level wherein; (i) the first inlet channel is bifurcated into a first primary level transfer channel and a first primary level mixing channel, (ii) the second inlet channel is bifurcated into a second primary level transfer channel and a second primary level mixing channel, and (iii) the first primary level mixing channel and the second primary level mixing channel merge to form a first primary level merged channel, (3) a secondary level wherein; (i) the first primary level transfer channel is bifurcated into a first secondary level transfer channel and a first secondary level mixing channel, (ii) the second primary level transfer channel is bifurcated into a second secondary level transfer channel and a second secondary level mixing channel, (iii) the first primary level merged channel is trifurcated into a third secondary level transfer channel, a third secondary level mixing channel, and a fourth secondary level mixing channel, (iv) the first secondary level mixing channel and the third secondary level mixing channel merge to form a first secondary level merged channel, (v) the second secondary level mixing channel and the fourth secondary level mixing channel merge to form a second secondary level merged channel. 2. The microfluidic apparatus of 1 , further comprising: (4) a tertiary level wherein; (i) the first secondary level transfer channel is bifurcated into a first tertiary level transfer channel and a first tertiary level mixing channel, (ii) the second secondary level transfer channel is bifurcated into a second tertiary level transfer channel and a second tertiary level mixing channel, (iii) the first secondary level merged channel is trifurcated into a third tertiary level transfer channel, a third tertiary level mixing channel, and a fourth tertiary level mixing channel, (iv) the second secondary level merged channel is trifurcated into a fourth tertiary level transfer channel, a fifth tertiary level mixing channel, and a sixth tertiary level mixing channel, (v) the third secondary level transfer channel is trifurcated into a fifth tertiary level transfer channel, a seventh tertiary level mixing channel, and an eight tertiary level mixing channel, (vi) the first tertiary level mixing channel and the third tertiary level mixing channel merge to form a first tertiary level merged channel, (vii) the second tertiary level mixing channel and the sixth tertiary level mixing channel merge to form a second tertiary level merged channel, (viii) the fourth tertiary level mixing channel and the seventh tertiary level mixing channel merge to form a third tertiary level merged channel, (ix) the eighth tertiary level mixing channel and the fifth tertiary level mixing channel merge to form a fourth tertiary level merged channel. 3. The microfluidic apparatus of claim 1 , wherein the orientation of the channels causes a first fluid introduced into the first inlet channel and a second fluid introduced into the second inlet channel to form a series of successive dilutions in the first secondary level merged channel, the second secondary level merged channel, the first secondary level transfer channel, the second secondary level transfer channel and the third secondary level transfer channel. 4. The microfluidic apparatus of claim 2 , wherein the orientation of the channels causes a first fluid introduced into the first inlet channel and a second fluid introduced into the second inlet channel to form a series of successive dilutions in the first tertiary level transfer channel, the second tertiary level transfer channel, the third tertiary level transfer channel, the fourth tertiary level transfer channel, the fifth tertiary level transfer channel, the first tertiary level merged channel, the second tertiary level merged channel, the third tertiary level merged channel, and the fourth tertiary level merged channel. 5. The microfluidic apparatus of claim 2 , wherein the channels have a volume of less than or equal to about 35 nL. 6. The microfluidic apparatus of claim 5 , wherein the channels have a volume of less than or equal to about 15 nL. 7. The microfluidic apparatus of claim 6 , wherein the channels have a volume of less than or equal to about 5 nL. 8. The microfluidic apparatus of claim 6 , wherein the first and second inlet channels permit introduction of fluid fast enough to exchange the fluid in the channels in a time less than or about equal to 5 sec. 9. The microfluidic apparatus of claim 8 , wherein the first and second inlet channels permit introduction of fluid fast enough to exchange the fluid in a gradient chamber in a time less than or about equal to 2.6 sec. 10. The microfluidic apparatus of claim 1 , further comprising a port level, wherein; (i) a first inlet port and a second inlet port are connected to a first inlet port channel and a second inlet port channel, (ii) the first inlet port channel and the second inlet port channel merge to form the first inlet channel, (iii) a third inlet port channel and a fourth inlet port channel merge to form the second inlet port channel.