Coated article comprising colloidal silica inclusive anti-reflective coating, and method of making the same
First Claim
1. A method of making a coated article, the method comprising:
- providing a glass substrate;
preparing a sol, the sol comprising colloidal silica having a particle size of 10-110 nm;
spin coating the sol, directly or indirectly, onto the glass substrate;
curing the sol to form a silica-inclusive anti-reflective (AR) coating, wherein the curing comprises exposing the substrate together with the sol spin coated thereon to first and second elevated temperatures, the second elevated temperature being higher than the first elevated temperature, wherein the substrate together with the sol spin coated thereon is exposed to a temperature of about 150 degrees C. for 2 minutes, followed by a temperature of about 220 degrees for 2.5 minutes; and
heat treating the glass substrate together with the AR coating at a temperature of at least about 500 degrees C.,wherein, post heat treatment, the AR coating has a b* value of 0.8 or greater.
2 Assignments
0 Petitions
Accused Products
Abstract
Certain example embodiments of this invention relate to coated articles that include anti-reflective (AR) coatings produced from colloidal silica with variable size particles in formulation, and/or methods of making the same. In certain example embodiments, the AR coatings advantageously exhibit high transmission, high transmission gain with respect to uncoated articles, and high b* values, before and/or after heat treatment. The AR coatings of certain example embodiments may be temperable or otherwise heat treatable (e.g., at temperatures of 500 degrees C. or greater) together with their supporting substrates. In certain example embodiments, the particle size for the colloidal silica is 10-110 nm, and the b* values are at least about 0.8. Certain example embodiments may be used in connection with photovoltaic devices and/or the like.
84 Citations
6 Claims
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1. A method of making a coated article, the method comprising:
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providing a glass substrate; preparing a sol, the sol comprising colloidal silica having a particle size of 10-110 nm; spin coating the sol, directly or indirectly, onto the glass substrate; curing the sol to form a silica-inclusive anti-reflective (AR) coating, wherein the curing comprises exposing the substrate together with the sol spin coated thereon to first and second elevated temperatures, the second elevated temperature being higher than the first elevated temperature, wherein the substrate together with the sol spin coated thereon is exposed to a temperature of about 150 degrees C. for 2 minutes, followed by a temperature of about 220 degrees for 2.5 minutes; and heat treating the glass substrate together with the AR coating at a temperature of at least about 500 degrees C., wherein, post heat treatment, the AR coating has a b* value of 0.8 or greater. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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- Resources
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Current AssigneeGuardian Glass LLC (KOCH Industries Incorporated)
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Original AssigneeGuardian Industries Corporation (KOCH Industries Incorporated)
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InventorsSharma, Pramod K., Lewis, Mark A.
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Primary Examiner(s)VETERE, ROBERT A
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Application NumberUS12/591,225Publication NumberTime in Patent Office1,510 DaysField of Search427/74US Class Current427/74CPC Class CodesB32B 15/082 comprising vinyl resins; co...B32B 17/10018 comprising only one glass s...B32B 17/10788 containing ethylene vinylac...C03C 17/25 by deposition from the liqu...C03C 17/36 at least one coating being ...C03C 17/3678 specially adapted for use i...C03C 2217/213 SiO2C03C 2217/732 made of a single layerC03C 2218/113 by sol-gel processesC03C 2218/116 by spin-coating, centrifuga...C03C 2218/365 Coating different sides of ...H01L 31/02168 the coatings being antirefl...Y02E 10/50 Photovoltaic [PV] energyY10T 428/259 Silicic material
