Resumes
Resumes
James Ryley Phones & Addresses
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West Chester, PA
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307 Stanton Ct, Glen Mills, PA 19342 (610) 459-1607
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Wilmington, DE
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5220 Oleander Rd, Drexel Hill, PA 19026 (610) 789-7521
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Newark, DE
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Media, PA
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Voorhees, NJ
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Haddonfield, NJ
Business Records
Name / Title
Company / Classification
Phones & Addresses
Managing
Ryley Holdings, LLC
Holding Company
Holding Company
1500 Bay Rd, Miami, FL 33139
777 S Broad St, Philadelphia, PA 19147
777 S Broad St, Philadelphia, PA 19147
Publications
Us Patents
High-Capacitance Density Thin Film Dielectrics Having Columnar Grains Formed On Base-Metal Foils
View pageUS Patent:
7981741, Jul 19, 2011
Filed:
Aug 2, 2007
Appl. No.:
11/832995
Inventors:
Lijie Bao - Wilmington DE, US
Zhigang Rick Li - Hockessin DE, US
Damien Reardon - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
Cengiz A. Palanduz - Durham NC, US
Zhigang Rick Li - Hockessin DE, US
Damien Reardon - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
Cengiz A. Palanduz - Durham NC, US
Assignee:
E. I. du Pont de Nemours and Company - Wilmington DE
International Classification:
H01L 21/8242
H01L 21/20
H01L 27/108
H01L 29/94
H01L 21/20
H01L 27/108
H01L 29/94
US Classification:
438240, 438393, 257310, 257E21008
Abstract:
Deposited thin-film dielectrics having columnar grains and high dielectric constants are formed on heat treated and polished metal foil. The sputtered dielectrics are annealed at low oxygen partial pressures.
Composite Structure Having A Fluoroelastomeric Anti-Reflective Coating With Non-Fluorinated Cross-Linking Agent
View pageUS Patent:
20070141357, Jun 21, 2007
Filed:
Dec 16, 2005
Appl. No.:
11/303599
Inventors:
Paul Bekiarian - Wilmington DE, US
James Ryley - Glen Mills PA, US
James Ryley - Glen Mills PA, US
International Classification:
B32B 27/00
B05D 7/00
B05D 7/00
US Classification:
428421000, 427534000, 427535000, 427407100
Abstract:
Optical articles, such as displays, optical lenses, windows, optical polarizers and transparent films are made as a composite structure comprising a substrate and an anti-reflective coating applied to the substrate. The anti-reflective coating comprises: A) a fluoroelastomer having cures sites selected from the group consisting of bromine atoms, chlorine atoms, iodine atoms, non-conjugated dienes, and mixtures of two or more thereof; and B) a non-fluorinated multiolefinic cross linking agent. The surface of the substrate may be treated by simultaneously bombarding the surface with an ionized inert gas, and etching the surface with an ionized reactive gas, so as to improve the adhesion of the coating to the substrate.
Methods For Forming A Thin Layer Of Particulate On A Substrate
View pageUS Patent:
20090191355, Jul 30, 2009
Filed:
Jan 28, 2008
Appl. No.:
12/011558
Inventors:
Hee Hyun Lee - Wilmington DE, US
Graciela Beatriz Blanchet - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
Graciela Beatriz Blanchet - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
International Classification:
H05B 6/02
H05H 1/00
H05H 1/00
US Classification:
427535, 427543
Abstract:
The invention is a method for forming a thin layer of particulate on a substrate by applying a layer of a composition comprising the particulate and a dispersing agent on the substrate, treating the layer with charged gas to remove the dispersing agent from the layer; and induction heating to form operative connection of the particulate.
Method For Forming A Thin Layer Of Particulate On A Substrate
View pageUS Patent:
20090191356, Jul 30, 2009
Filed:
Jul 2, 2008
Appl. No.:
12/217164
Inventors:
Hee Hyun Lee - Wilmington DE, US
Graciela Beatriz Blanchet - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
Graciela Beatriz Blanchet - Wilmington DE, US
James F. Ryley - Glen Mills PA, US
International Classification:
H05H 1/00
US Classification:
427535
Abstract:
The invention is a method for forming a thin layer of particulate on a substrate by applying a layer of a composition comprising the particulate and a dispersing agent on the substrate, treating the layer with charged gas to remove the dispersing agent from the layer; and induction heating to form operative connection of the particulate.
Integrated Chemical Processing Apparatus And Processes For The Preparation Thereof
View pageUS Patent:
55343287, Jul 9, 1996
Filed:
Dec 2, 1993
Appl. No.:
8/161379
Inventors:
James W. Ashmead - Middletown DE
Charles T. Blaisdell - Middletown DE
Melvin H. Johnson - Chadds Ford PA
Jack K. Nyquist - Chadds Ford PA
Joseph A. Perrotto - Landenberg PA
James F. Ryley - Drexel Hill PA
Charles T. Blaisdell - Middletown DE
Melvin H. Johnson - Chadds Ford PA
Jack K. Nyquist - Chadds Ford PA
Joseph A. Perrotto - Landenberg PA
James F. Ryley - Drexel Hill PA
Assignee:
E. I. Du Pont de Nemours and Company - Wilmington DE
International Classification:
B32B 300
US Classification:
428166
Abstract:
An integral structure is provided for chemical processing and manufacture, in which a plurality of laminae are joined together and having inlet and outlet ports connected by a three dimensionally tortuous channel. Chemicals are introduced through the inlet ports and processed along the channel, with desirable product withdrawn through the outlet ports. The laminae are of materials selected to be compatible with the chemical process, from the group consisting of elements of groups III, IV or V of the Periodic Table, ceramics, glasses, polymers, composites and metals. Processes of manufacture of the apparatus and processes utilizing the apparatus are also disclosed herein.
Waveguide Sensing Element For Use In A Sample Medium And Method Of Rear-Firing Electromagnetic Radiation
View pageUS Patent:
57241511, Mar 3, 1998
Filed:
Jul 30, 1996
Appl. No.:
8/688450
Inventors:
James Francis Ryley - Drexel Hill PA
Joseph Anthony Perrotto - Landenberg PA
Moshe Oren - Waltham MA
Ronald Jack Riegert - Newark DE
Joseph Anthony Perrotto - Landenberg PA
Moshe Oren - Waltham MA
Ronald Jack Riegert - Newark DE
Assignee:
E.I. du Pont de Nemours and Company - Wilimingon DE
International Classification:
G01N 2100
US Classification:
356432
Abstract:
A waveguide sensing element has a substrate having an input opening adapted to house an input optical fiber and an output opening adapted to house an output optical fiber. The input optical fiber transmits electromagnetic radiation, and the output optical fiber emits the electromagnetic radiation. The waveguide sensing element also has a guiding layer disposed adjacent the substrate. The guiding layer has a beveled end face. The angle of the bevel is chosen so that the guiding layer selects only those modes within a given range--i. e. , high order modes. This increases the spectral absorption measurement sensitivity as compared to a waveguide sensing element which uses the complete mode spectrum. Such a highly sensitive waveguide sensing element has been found to be particularly useful as an internal reflection spectroscopic sensing element. Moreover, the waveguide sensing element of the present invention is particularly useful in a process environment, where the corrosive effects of chemicals make on-line spectral absorption measurements difficult.
Lensed Optical Connector
View pageUS Patent:
47814314, Nov 1, 1988
Filed:
Dec 29, 1986
Appl. No.:
6/947233
Inventors:
Laurence N. Wesson - Collegeville PA
James F. Ryley - Haddonfield NJ
James F. Ryley - Haddonfield NJ
Assignee:
Labinal Components and Systems, Inc. - Elk Grove Village IL
International Classification:
G02B 638
US Classification:
350 9621
Abstract:
A low light loss expanded beam fiber optic connection is provided comprising lensed optical connector pins. Each connector pin employs a cylindrical housing in which a fiber end is precisely located along a longitudinal axis in precisely spaced relationship with an adjacent ball lens. The center of the ball lens is coaxial with the longitudinal axis of the optical fiber core and is maintained in such precisely spaced relationship by means of a spacer engaging the ball lens and the fiber end on opposed surfaces. As a result of the precise relationship, light emanating from a fiber end is disposed at the focal point of the adjacent ball lens for transmission to an adjacent, axially aligned lensed optical connector pin of similar construction.
Integrated Chemical Processing Apparatus And Processes For The Preparation Thereof
View pageUS Patent:
56907630, Nov 25, 1997
Filed:
Jun 6, 1995
Appl. No.:
8/469274
Inventors:
James William Ashmead - Middletown DE
Charles Thomas Blaisdell - Middletown DE
Melvin Harry Johnson - Chadds Ford PA
Jack Kent Nyquist - Chadds Ford PA
Joseph Anthony Perrotto - Landenberg PA
James Francis Ryley - Drexel Hill PA
Charles Thomas Blaisdell - Middletown DE
Melvin Harry Johnson - Chadds Ford PA
Jack Kent Nyquist - Chadds Ford PA
Joseph Anthony Perrotto - Landenberg PA
James Francis Ryley - Drexel Hill PA
Assignee:
E. I. Du Pont de Nemours and Company - Wilmington DE
International Classification:
B31B 160
US Classification:
156 60
Abstract:
An integral structure is provided for chemical processing and manufacture, in which a plurality of laminae are joined together and having inlet and outlet ports connected by a three dimensionally tortuous channel. Chemicals are introduced through the inlet ports and processed along the channel, with desirable product withdrawn through the outlet ports. The laminae are of materials selected to be compatible with the chemical process, from the group consisting of elements of groups III, IV or V of the Periodic Table, ceramics, glasses, polymers, composites and metals. Processes of manufacture of the apparatus and processes utilizing the apparatus are also disclosed herein.