Composite separator including porous substrate, heat-resistant coating layer, and electrode adhesive layer and electrochemical device using the same

What is claimed is: 1. A composite separator comprising: a porous substrate, a heat-resistant coating layer formed on both surfaces of the porous substrate, and an electrode adhesive layer, characterized in that: the electrode adhesive layer includes polypropylene-based organic particles having a melting temperature of 120° C. to 180° C. and a glass transition temperature of −30° C. to 10° C.; the composite separator has a peel strength of 30 to 110 gf/25 mm when the composite separator is stacked on a carbon sheet having a thickness of 200 μm so that the electrode adhesive layer faces the carbon sheet, the composite separator and the carbon sheet are pressed and fused at 4 MPa and 70° C. for 1 second, and then subjected to a 180 degree peel test; the polypropylene-based organic particles have a weight change rate of less than 50% upon immersion in an electrolyte solution; and a Gurley permeability satisfies the following Equation 1 and a Gurley permeability change rate (ΔP) satisfies the following: G 1 ≤300  [Equation 1] 10%≤Δ P≤ 50%  [Equation 2] wherein ΔP=(G 2 −G 1 )/G 1 ×100, G 2 is a Gurley permeability measured according to ASTM D726 in a state where the composite separator is stacked between two PTFE sheets, the composite separator and the PTFE sheets are pressed and fused at 4 MPa and 70° C., and the PTFE sheets are then removed, and G 1 is a Gurley permeability of the composite separator before the fusion, where a unit of the Gurley permeability is sec/100 cc, and wherein the weight change rate is measured according to the following equation 3, weight change rate=( W 2− W 1)/ W 1×100  [Equation 3] wherein W2 is a weight of the polypropylene-based organic particles measured after immersion in the electrolyte solution for 3 days, and W1 is a weight of the polypropylene-based organic particles measured before immersion in the electrolyte solution. 2. The composite separator of claim 1 , wherein the polypropylene-based organic particles are included in an amount of 0.5 to 2 g/m 2 in the electrode adhesive layer. 3. The composite separator of claim 1 , wherein the polypropylene-based organic particles have an average particle size of 0.01 to 0.5 μm. 4. The composite separator of claim 1 , wherein the polypropylene-based organic particles are spherical particles. 5. An electrochemical device comprising the composite separator of claim 1 .