Thiel College Greenville, PA Aug 2011 to May 2013 Athletic AssistantAmerican Eagle Warehouse Warrendale, PA Jun 2012 to Aug 2012 Material HandlerThomson, Rhodes & Cowie, P.C Pittsburgh, PA May 2010 to Dec 2011 File Clerk
Education:
Thiel College Greenville, PA 2009 to 2013 Bachelor of Science in Actuarial Studies
Dec 2011 to 2000 Technical Solutions Consultant IIMinacs
Dec 2010 to Dec 2011 Apple Tech Support TierRent-A-Center
Aug 2009 to Feb 2010 Customer Account RepresentativeCentrex Bowling Green, OH Aug 2007 to May 2009 CustodialHerman Kiefer Food and Summer Lunch Program Detroit, MI Apr 2008 to Aug 2008 Site Monitor/AccountingHershey Entertainment & Resorts Hershey, PA May 2007 to Aug 2007 Guest Relations
Education:
ITT Technical Institute Canton, MI Jul 2010 to Dec 2011 Associates in Information TechnologyBowling Green State University Bowling Green, OH Aug 2004 to May 2009 Bachelor in Arts Communications
Orthopedic Pediatric Surgery, Orthopedic Sports Medicine
Work:
Lurie Childrens Outpatient Center In Westchester 2301 Enterprise Dr, Westchester, IL 60154 7088364800 (phone), 3122277944 (fax)
Ann & Robert H Lurie Childrens Hospital Of Chicago Orthopedic Surgery & Sports Medicine 225 E Chicago Ave #69, Chicago, IL 60611 3122276190 (phone), 3122279404 (fax)
Ann & Robert H Lurie Childrens Hospital Of Chicago Outpatient Center Of New Lenox 1870 Silver Cross Blvd STE 100, New Lenox, IL 60451 8154634400 (phone), 8154634420 (fax)
Education:
Medical School Stanford University School of Medicine Graduated: 1993
Procedures:
Arthrocentesis Knee Arthroscopy Lower Arm/Elbow/Wrist Fractures and Dislocations Lower Leg/Ankle Fractures and Dislocations
Conditions:
Scoliosis or Kyphoscoliosis Fractures, Dislocations, Derangement, and Sprains Internal Derangement of Knee Internal Derangement of Knee Cartilage Intervertebral Disc Degeneration
Languages:
English Spanish
Description:
Dr. King graduated from the Stanford University School of Medicine in 1993. He works in Chicago, IL and 2 other locations and specializes in Orthopedic Pediatric Surgery and Orthopedic Sports Medicine. Dr. King is affiliated with Ann & Robert H Lurie Childrens Hospital Of Chicago, Central Dupage Hospital, Northwest Community Hospital and Northwestern Lake Forest Hospital.
Described is a coating composition adapted to enhance the adhesion of a polymeric coating or film applied to a substrate. The coating composition is interposed between the substrate and the polymeric coating and comprises (a) at least one coupling agent, partial hydrolysates thereof or mixtures thereof in a concentration greater than 25 weight percent, based on the weight of the total composition, and (b) an adhesion enhancing amount of an epoxy-containing material having at least two epoxy groups. The coating composition is substantially free of photochromic materials and colloidal particles chosen from silica, alumina or mixtures thereof. Also described is a process for using the coating composition and articles coated with the composition and additional coatings and films which can be photochromic.
Describes a photochromic plastic article, e. g. , an ophthalmic photochromic article, such as a lens, in which the article includes (1) a rigid substrate, e. g. , polymeric substrate, such as a thermoset or thermoplastic substrate, (2) a photochromic polymeric coating appended to at least one surface of the substrate, the photochromic polymeric coating containing a photochromic amount of at least one photochromic material, e. g. , spirooxazine, naphthopyran and/or fulgide, and (3) a dendritic polyester acrylate film coherently appended to the photochromic coating. Describes also the aforedescribed photochromic article having an abrasion-resistant coating affixed to the dendritic polyester acrylate film, e. g. , an abrasion-resistant coating comprising an organo silane; and a photochromic article having an antireflective coating affixed to the abrasion-resistant coating.
Eric M. King - Pittsburgh PA, US Kevin J. Stewart - Murrysville PA, US
Assignee:
Transitions Optical, Inc. - Pinellas Park FL
International Classification:
G02C 7/10 G02C 7/06
US Classification:
351164, 351168, 351177
Abstract:
Describes a multifocal optical article, e. g. , an ophthalmic article such as a lens, in which the article includes (1) a rigid optical substrate, e. g. , a transparent polymeric substrate, such as a thermoset or thermoplastic substrate, adapted to possess at least one light influencing property on at least a portion of at least one surface of the substrate, e. g. , a photochromic and/or polarizing layer, and (2) a multifocal layer of an optical quality material on said substrate having the light influencing property. Describes also the aforedescribed optical article having an abrasion-resistant coating on the multifocal layer, e. g. , an abrasion-resistant coating comprising an organo silane. A method for preparing the multifocal optical article comprising curing optical quality material between a multifocal mold and a preform comprising an optical substrate possessing the light influencing property is also described.
Describes an article, e. g. , an optical article such as a lens, in which the article includes (a) a rigid substrate, e. g. , a transparent ophthalmic substrate, such as a thermoset or thermoplastic substrate, having at least one surface suitable for accommodating a photochromic coating, and (b) a transparent photochromic coating comprising dendritic polymeric acrylate, e. g. , polyester acrylate, on at least a portion of said surface of the substrate, the coating comprising a photochromic amount of at least one photochromic material, e. g. , an organic photochromic material.
Describes a photochromic article, e. g. , an ophthalmic photochromic plastic article, such as a lens, in which the article includes (1) a rigid substrate, e. g. , polymeric substrate, such as a thermoset or thermoplastic substrate, (2) a photochromic polymeric coating appended to at least one surface of the substrate, the photochromic polymeric coating containing a photochromic amount of at least one photochromic material, e. g. , spirooxazine, naphthopyran and/or fulgide, and (3) a film comprising a maleimide derivative coherently appended to the photochromic coating. Describes also the aforedescribed photochromic article having an abrasion-resistant coating affixed to the maleimide derivative-containing film, e. g. , an abrasion-resistant coating comprising an organo silane; and describes further a photochromic article having an antireflective coating affixed to the abrasion-resistant coating.
Optical Elements Comprising Compatiblizing Coatings And Methods Of Making The Same
Kevin W. Seybert - Pittsburgh PA, US Eric M. King - Pittsburgh PA, US Anil Kumar - Murrysville PA, US
Assignee:
Transitions Optical, Inc. - Pinellas Park FL
International Classification:
B32B 27/40 B05D 5/06
US Classification:
4284237, 428480, 359642, 427162
Abstract:
The present invention relates to optical elements, such as ophthalmic elements, including a substrate, a compatiblizing coating that optionally includes a dendritic polymer on at least a portion of the surface of the substrate and a functional organic coating, such as, but not limited to, an alignment coating, a photochromic coating, or an aligned liquid crystal coating, in contact with at least a portion of the compatiblizing coating opposite the substrate. The present invention also relates to compatiblizing coating compositions of dendritic polymers that may be used to form compatiblizing coatings on the surface of an optical element, and methods of making optical elements using the compatiblizing coatings.
Carol L. Knox - Monroeville PA, US Eric M. King - Pittsburgh PA, US James P. Colton - Trafford PA, US
Assignee:
Transitions Optical, Inc. - Pinellas Park FL
International Classification:
G02B 5/23 G02F 1/01 B32B 27/18
US Classification:
252586, 359238, 359642, 428412
Abstract:
Describes a photochromic article, e. g. , an ophthalmic photochromic plastic article, such as a lens, in which the article includes (1) a rigid substrate, e. g. , a transparent substrate such as a glass or organic polymeric substrate, as for example, a thermoset or thermoplastic substrate, (2) a photochromic polymeric coating appended to at least a portion of at least one surface of the substrate, the photochromic polymeric coating containing a photochromic amount of at least one organic photochromic material, e. g. , spirooxazine, naphthopyran, diarylethene and/or fulgide, and (3) a thermally cured transparent thermoset polymeric coating superposed on, e. g. , coherently appended to, the photochromic coating, the thermally cured polymeric coating being harder than the photochromic polymeric coating. Describes also the aforedescribed photochromic article having an abrasion-resistant coating affixed to the thermally cured polymer coating, e. g. , an abrasion-resistant coating comprising an organo silane; and a photochromic article having an antireflective coating affixed to the abrasion-resistant coating.
An electroactive optical device that includes an optical substrate; a layer that includes an electroactive material capable of linearly polarizing electromagnetic radiation; at least two transparent electrodes, spaced one from the other, and each independently in contact with the layer containing the electroactive material; a source capable of applying an electric potential between the at least two electrodes; and a birefringent layer. Electromagnetic radiation transmitting through the device includes a first polarization state in the absence of an electrical potential between the at least two electrodes and the electromagnetic radiation transmitting through the device includes a second polarization state that is different from the first polarization state, in the presence of an electrical potential between the at least two electrodes. The electroactive optical device is operable to circularly polarize or elliptically polarize transmitted radiation.
Schmidt Ocean Institute - Director of Marine Operations University of Washington - School of Oceanography - Manager of Program Operations Donjon Marine Co., Inc. - Manager US Coast Guard - Marine Operations Officer
Education:
University of Washington - School of Public Affairs - Public Administration, Maine Maritime Academy - Maritime Transportation and Nautical Science
Eric King
Work:
North Buffalo Ice Rink - Rink Guard (2010-2011) AmvetsThrift Store - Sales Associate (2008-2009) Volkers Bowling Center - Janitorial (2006-2007) Tops Markets LLC - Carts Customer Service (2001-2004)
Education:
Riverside Institute of Technology
Relationship:
Single
Eric King
Work:
United States Navy - Aviation Boatswainmate (2006-2012)
Education:
Full Sail University - Music Business
Eric King
Work:
In the back yard
Education:
St brandens
Relationship:
Single
About:
Im eric king, Yeppon St brendans and im looking for a beautiful girl
Bragging Rights:
Lol always won football
Eric King
Work:
Hitblock Entertainment Inc. - CEO,Producer,Writer (1987)
Relationship:
Married
Eric King
Work:
Best Buy - Lead Installer (2001)
Education:
LCCC - Electronics
Eric King
Work:
Navy - AZ2 (1)
Education:
MARYSVILLE-PILLCHUCK HIGHSCHOOL
Eric King (Zero1 Undergro...
Work:
Zero1 Underground - Promoter
About:
Zero1 Underground - A Professional Indy Wrestling Fed located in the Midwest. We run shows in Indiana, Michigan, and Tennessee.