Microfluidic platforms for optical biosensing

The invention claimed is: 1. A microfluidic platform for optical biosensing, the platform comprising: an optical substrate; a layer provided on the substrate; and a channel formed within the layer and defined by the layer and the substrate through which fluid can flow, the channel including a constriction that narrows along a length of the channel to a point at which it is physically sized and configured to trap a microsphere suspended in the fluid when the fluid flows through the channel, wherein the constriction comprises two opposed inwardly-extending members that narrow a top portion of the channel, wherein the inwardly-extending members are defined by lower surfaces and upper surfaces that form opposing edges that contact opposite sides of the microsphere, and wherein the lower surfaces are horizontal, the upper surfaces are vertical, and the edges are 90-degree edges. 2. The platform of claim 1 , wherein the constriction has an inverted T-shape in cross-section. 3. The platform of claim 1 , wherein the top portion of the channel narrows to a point at which the microsphere cannot pass a specific position along the channel's length. 4. The platform of claim 1 , further comprising multiple ports formed in the layer that provide access to the channel. 5. The platform of claim 4 , wherein there are multiple ports provided at a first end of the platform that provide access to a first end of the channel and a port provided at a second end of the platform that provides access to a second end of the channel. 6. The platform of claim 5 , wherein the channel is a primary channel and further comprising auxiliary channels that extend from the multiple ports at the first end of the platform to the primary channel. 7. The platform of claim 1 , further comprising a separation coating provided on the substrate and contacting the layer. 8. A microfluidic platform for optical biosensing, the platform comprising: an optical substrate; a layer provided on the substrate; and a channel formed within the layer and defined by the layer and the substrate through which fluid can flow, the channel including a constriction that narrows along a length of the channel to a point at which it is physically sized and configured to trap a microsphere suspended in the fluid when the fluid flows through the channel, wherein the constriction comprises two opposed inwardly-extending members that narrow a top portion of the channel, wherein the constriction has a triangular cross-section and the opposed inwardly-extending members comprise opposing walls of the constriction that are angled toward each other. 9. The platform of claim 8 , wherein the top portion of the channel narrows to a point at which the microsphere cannot pass a specific position along the channel's length. 10. The platform of claim 8 , further comprising multiple ports formed in the layer that provide access to the channel. 11. The platform of claim 10 , wherein there are multiple ports provided at a first end of the platform that provide access to a first end of the channel and a port provided at a second end of the platform that provides access to a second end of the channel. 12. The platform of claim 11 , wherein the channel is a primary channel and further comprising auxiliary channels that extend from the multiple ports at the first end of the platform to the primary channel. 13. The platform of claim 8 , further comprising a separation coating provided on the substrate and contacting the layer.