Glass/resin composite structure and method for manufacturing same

The invention claimed is: 1. A method for producing a composite structure comprising a flow channel and constituted of a glass substrate and a resin substrate comprising: a step of modifying a glass substrate surface with a hydrolyzable silicon compound; a step of bringing the glass substrate into contact with the resin substrate selected from polyether ether ketone resin, polyphenylene sulfide resin or polyamide resin; and a step of heating the contact surface between the glass substrate and the resin substrate to a temperature from the melting point to the pyrolysis temperature of the resin substrate, allowing the glass substrate to adhere to the resin substrate by eliminating gaps therebetween, and causing chemical bonding between the glass substrate and the resin substrate via the hydrolyzable silicon compound. 2. The method of production according to claim 1 , wherein the glass substrate is synthetic silica glass, fused-silica glass, borosilicate glass, or soda glass. 3. The method of production according to claim 1 , wherein the hydrolyzable silicon compound comprises an alkoxy group. 4. The method of production according to claim 1 , wherein the glass substrate surface is modified with the hydrolyzable silicon compound via wet coating using a solution. 5. The method of production according to claim 1 , wherein the flow channel provided in the composite structure is a flow cell for a liquid analyzer. 6. The method of production according to claim 1 , wherein, after the contact surface between the glass substrate and the resin substrate is heated to a temperature from the melting point to the pyrolysis temperature of the resin substrate so that the glass substrate is allowed to adhere to the resin substrate by eliminating gaps therebetween, when the resin substrate is resolidified, in the contact surface between the glass substrate and the resin substrate, while the resin substrate is shrunk so that an angle formed by an end plane of a region in which the resin substrate is bonded to the glass substrate with respect to the contact surface is from 0 degrees to 90 degrees, chemical binding is caused between the glass substrate and the resin substrate via the hydrolyzable silicon compound. 7. The method of production according to claim 1 , wherein the flow channel constituted of the glass substrate chemically bonded with the resin substrate has a pressure resistance greater than or equal to 20 MPa. 8. The method of production according to claim 1 , wherein the glass substrate is a cylindrical glass tube and the resin substrate is a cylindrical resin tube, and wherein the glass substrate is brought into contact with the resin substrate by placing the cylindrical glass tube within the cylindrical resin tube. 9. A flow cell for a liquid analyzer comprising: a flow channel constituted of a glass substrate adhered to a resin substrate via chemical bonding of a hydrolyzable silicon compound, wherein the resin substrate is selected from polyether ether ketone resin, polyphenylene sulfide resin or polyamide resin, wherein the glass substrate is in contact with the resin substrate via the hydrolyzable silicon compound and the resin substrate is melted on the glass substrate. 10. The flow cell according to claim 9 , wherein the glass substrate is synthetic silica glass, fused-silica glass, borosilicate glass, or soda glass. 11. The flow cell according to claim 9 , wherein the flow channel constituted of the glass substrate chemically bonded with the resin substrate has a pressure resistance greater than or equal to 20 MPa. 12. The flow cell according to claim 9 , wherein the glass substrate is a cylindrical glass tube and the resin substrate is a cylindrical resin tube, and wherein the cylindrical glass tube is disposed within the cylindrical resin tube.