Patents by Inventor Daniel Christopher SPENCER
Daniel Christopher SPENCER has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10359351Abstract: A method of electrically measuring the electrical properties of individual particles flowing in a liquid, which method comprises: (i) providing apparatus (3) which is for electrically measuring the individual particles and which has: (a) a fluidic channel (5) for receiving a liquid (6) having the individual particles (4) in suspension in the liquid (6); (b) a first electrode arrangement (8) having at least one measurement electrode (16) and at least one signal electrode (11); and (c) at least one other electrode arrangement (9) having at least one measurement electrode (18) and at least one signal electrode (13); (ii) providing a flow of the liquid (6) through the fluidic channel (5); (iii) applying a first electrical signal through the liquid (6) and along a first conduction path between the measurement electrode (16) and the signal electrode (11) of the first electrode arrangement (8); (iv) applying an electrical signal through the liquid (6) and along at least one other conduction path; (v) comparing the eType: GrantFiled: April 15, 2014Date of Patent: July 23, 2019Assignee: University of SouthamptonInventors: Daniel Christopher Spencer, Hywel Morgan
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Patent number: 10267720Abstract: Apparatus (3) for electrically measuring individual particles (4) flowing in a liquid (6), which apparatus (3) comprises: (i) a fluidic channel (5) for receiving a liquid (6) having the individual particles (4) in suspension in the liquid (6); (ii) a first electrode arrangement (8) having at least one measurement electrode (16) and at least one signal electrode (11); (iii) at least one other electrode arrangement (9) having at least one measurement electrode and at least one signal electrode (13); (iv) at least one signal conditioning electrode (10, 12, 14, 15, 17, 19) positioned adjacent to at least one of the measurement electrodes (16, 18) or at least one of the signal electrode (9); and (v) measuring means (20, 21) for measuring electrical signal changes; and the apparatus (3) being such that: (vi) the first and the other electrode arrangements (8, 9) are connected to the measuring means (20, 21) whereby individual particles passing between the first and other electrode arrangements (8, 9) cause a changeType: GrantFiled: April 15, 2014Date of Patent: April 23, 2019Assignee: University of SouthamptonInventors: Daniel Christopher Spencer, Hywel Morgan
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Patent number: 9808802Abstract: An integrated microfluidic device for carrying out a series of fluidic operations includes a housing including a plurality of n microfluidic conduits, wherein n is at least three, and a rotating valve having an internal channel with an entrance port and an exit port that are angularly separated. The rotating valve is positionable in a first position to connect two of the n fluidic conduits via the internal channel, and upon rotating the valve to a second position, two other of the n fluidic conduits are connected by the internal channel. The device further may include one or more fluidic chambers in fluid communication with respective fluidic conduits. Fluid contained in one fluidic chamber is transferrable by application of positive or negative gas pressure through associated fluidic conduits into another fluidic chamber via the internal channel. The device may be utilized to perform a variety of fluidic operations.Type: GrantFiled: August 12, 2016Date of Patent: November 7, 2017Assignee: SHARP LIFE SCIENCE (EU) LIMITEDInventors: Pamela Ann Dothie, Daniel Christopher Spencer
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Publication number: 20160346782Abstract: An integrated microfluidic device for carrying out a series of fluidic operations includes a housing including a plurality of n microfluidic conduits, wherein n is at least three, and a rotating valve having an internal channel with an entrance port and an exit port that are angularly separated. The rotating valve is positionable in a first position to connect two of the n fluidic conduits via the internal channel, and upon rotating the valve to a second position, two other of the n fluidic conduits are connected by the internal channel. The device further may include one or more fluidic chambers in fluid communication with respective fluidic conduits. Fluid contained in one fluidic chamber is transferrable by application of positive or negative gas pressure through associated fluidic conduits into another fluidic chamber via the internal channel. The device may be utilized to perform a variety of fluidic operations.Type: ApplicationFiled: August 12, 2016Publication date: December 1, 2016Inventors: Pamela Ann DOTHIE, Daniel Christopher SPENCER
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Patent number: 9440233Abstract: An integrated microfluidic device for carrying out a series of fluidic operations includes a housing including a plurality of n microfluidic conduits, wherein n is at least three, and a rotating valve having an internal channel with an entrance port and an exit port that are angularly separated. The rotating valve is positionable in a first position to connect two of the n fluidic conduits via the internal channel, and upon rotating the valve to a second position, two other of the n fluidic conduits are connected by the internal channel. The device further may include one or more fluidic chambers in fluid communication with respective fluidic conduits. Fluid contained in one fluidic chamber is transferrable by application of positive or negative gas pressure through associated fluidic conduits into another fluidic chamber via the internal channel. The device may be utilized to perform a variety of fluidic operations.Type: GrantFiled: August 9, 2013Date of Patent: September 13, 2016Assignee: Shark Kabushiki KaishaInventors: Pamela Ann Dothie, Daniel Christopher Spencer
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Publication number: 20160041080Abstract: A method of electrically measuring the electrical properties of individual particles flowing in a liquid, which method comprises: (i) providing apparatus (3) which is for electrically measuring the individual particles and which has: (a) a fluidic channel (5) for receiving a liquid (6) having the individual particles (4) in suspension in the liquid (6); (b) a first electrode arrangement (8) having at least one measurement electrode (16) and at least one signal electrode (11); and (c) at least one other electrode arrangement (9) having at least one measurement electrode (18) and at least one signal electrode (13); (ii) providing a flow of the liquid (6) through the fluidic channel (5); (iii) applying a first electrical signal through the liquid (6) and along a first conduction path between the measurement electrode (16) and the signal electrode (11) of the first electrode arrangement (8); (iv) applying an electrical signal through the liquid (6) and along at least one other conduction path; (v) comparing the eType: ApplicationFiled: April 15, 2014Publication date: February 11, 2016Inventors: Daniel Christopher Spencer, Hywel Morgan
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Publication number: 20160041081Abstract: Apparatus (3) for electrically measuring individual particles (4) flowing in a liquid (6), which apparatus (3) comprises: (i) a fluidic channel (5) for receiving a liquid (6) having the individual particles (4) in suspension in the liquid (6); (ii) a first electrode arrangement (8) having at least one measurement electrode (16) and at least one signal electrode (11); (iii) at least one other electrode arrangement (9) having at least one measurement electrode and at least one signal electrode (13); (iv) at least one signal conditioning electrode (10, 12, 14, 15, 17, 19) positioned adjacent to at least one of the measurement electrodes (16, 18) or at least one of the signal electrode (9); and (v) measuring means (20, 21) for measuring electrical signal changes; and the apparatus (3) being such that: (vi) the first and the other electrode arrangements (8, 9) are connected to the measuring means (20, 21) whereby individual particles passing between the first and other electrode arrangements (8, 9) cause a changeType: ApplicationFiled: April 15, 2014Publication date: February 11, 2016Inventors: Daniel Christopher Spencer, Hywel Morgan
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Publication number: 20150044696Abstract: An integrated microfluidic device for carrying out a series of fluidic operations includes a housing including a plurality of n microfluidic conduits, wherein n is at least three, and a rotating valve having an internal channel with an entrance port and an exit port that are angularly separated. The rotating valve is positionable in a first position to connect two of the n fluidic conduits via the internal channel, and upon rotating the valve to a second position, two other of the n fluidic conduits are connected by the internal channel. The device further may include one or more fluidic chambers in fluid communication with respective fluidic conduits. Fluid contained in one fluidic chamber is transferrable by application of positive or negative gas pressure through associated fluidic conduits into another fluidic chamber via the internal channel. The device may be utilized to perform a variety of fluidic operations.Type: ApplicationFiled: August 9, 2013Publication date: February 12, 2015Applicant: SHARP KABUSHIKI KAISHAInventors: Pamela Ann DOTHIE, Daniel Christopher SPENCER