Patents Assigned to Cambridge University Technical Services Limited
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Patent number: 7571529Abstract: A method for forming an organic or partly organic switching device, comprising: depositing layers of conducting, semiconducting and/or insulating layers by solution processing and direct printing; defining microgrooves in the multilayer structure by solid state embossing; and forming a switching device inside the microgroove.Type: GrantFiled: October 4, 2001Date of Patent: August 11, 2009Assignees: Cambridge University Technical Services Limited, Eidgenossische Technische Hochschule ZurichInventors: Henning Sirringhaus, Richard Henry Friend, Natalie Stutzmann, Paul Smith
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Publication number: 20090181863Abstract: This invention relates to methods of testing, diagnosing, monitoring, prognostically stratifying and classifying disease, disorders and other medical conditions and physiological states through the detection and analysis of soluble CD antigens in a body fluid sample.Type: ApplicationFiled: September 25, 2008Publication date: July 16, 2009Applicants: Cambridge University Technical Services Limited (CUTS), Medical Research Council, Addenbrookes NHS TrustInventors: Cesar Milstein, Celia Prilleltensky-Milstein, Charles Nicholas Hales, Margaret Hales, Adrian Woolfson
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Patent number: 7560133Abstract: A patterning method comprises selectively depositing droplets of a first material solvent solution onto a layer of a second material. The solvent is chosen to dissolve both materials, which are selected so as to exhibit phase separation upon the removal of the solution to provide domains of the first material embedded in and extending through the second material. By selection of appropriate materials the patterning method may be used, for example, to fabricate light emitting devices, optical color filters, or vertical interconnects in electronic devices.Type: GrantFiled: March 28, 2002Date of Patent: July 14, 2009Assignees: Seiko Epson Corporation, Cambridge University Technical Services LimitedInventor: Takeo Kawase
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Publication number: 20090127133Abstract: The present invention concerns a probe for measuring hydrogen concentration in molten metals comprising a probe body and a hydrogen sensor. The sensor structure is based on a sensor body having a wall within which a sealed cavity is defined. The cavity contains a solid reference material for generating a reference partial pressure of hydrogen within the cavity. At least a portion of the wall of the cavity is formed from a solid electrolyte material carrying a measurement electrode on a surface of the solid electrolyte outside the cavity and a reference electrode on a surface of the solid electrolyte within the cavity, exposed to the reference partial pressure of hydrogen. An electrical conductor extends from the reference electrode through the wall of the cavity to an external surface of the sensor body. The probe body comprises a chamber for receiving the sensor and a reference-signal connection for connecting to the electrical conductor when the sensor is received in the chamber.Type: ApplicationFiled: October 3, 2005Publication date: May 21, 2009Applicants: ENVIRONMENTAL MONITORING AND CONTROL LIMITED, CAMBRIDGE UNIVERSITY TECHNICAL SERVICES LIMITEDInventors: Matthew Paul Hills, Mark Anthony Steele Henson
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Publication number: 20090097721Abstract: A method of identifying features within a dataset such as an image comprises applying a multiscale transform such as a dual tree Complex Wavelet Transform to generate a plurality of scale-related transform levels each having a plurality of transform coefficients defining magnitude and phase; determining the phase difference between a first coefficient on one level, and a second coefficient on the same or a different level; and identifying the feature in dependence on the phase difference. Each quadrant of the phase difference, when plotted as an angle, is indicative of a different type of feature. The invention is equally applicable to the identification of two-dimensional features such as images, as well as to the identification of features within one-dimensional data streams such as audio.Type: ApplicationFiled: December 15, 2005Publication date: April 16, 2009Applicant: Cambridge University Technical Services LimitedInventors: Nicholas Geoffrey Kingsbury, Ryan Alexander Anderson
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Patent number: 7498593Abstract: The invention relates to improved terahertz radiation sources and associated methods. A terahertz radiation source is described, comprising: an emitter (202) comprising a semiconductor material (12); a pair of electrodes (204a,b) adjacent a face of said semiconductor, said pair of electrodes defining a gap between said electrodes; a pulsed light source input for illuminating said semiconductor to excite photo-carriers in said semiconductor to generate terahertz radiation; and a radiation collector (212) to collect said terahertz radiation; and wherein said radiation collector is disposed on the same side of said semiconductor as said electrodes. A related method of providing terahertz radiation is also described.Type: GrantFiled: March 24, 2004Date of Patent: March 3, 2009Assignee: Cambridge University Technical Services LimitedInventors: Yao-chun Shen, Edmund H. Linfield, Alexander G. Davies
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Patent number: 7476750Abstract: To provide a catalyst for synthesis reaction which can achieve good yield in the Sonogashira reaction and also can be recovered after the reaction, and a method for synthesizing a compound in which the catalyst for synthesis reaction is used, a perovskite-type composite oxide containing palladium is used as the catalyst for synthesis reaction in the Sonogashira reaction represented by the following reaction scheme (1): R1—X+HC?CR2?R1C?CR2??(1)Type: GrantFiled: April 25, 2006Date of Patent: January 13, 2009Assignees: Cambridge University Technical Services Limited, Daihatsu Motor Co., Ltd., Hokko Chemical Idustry Co., Ltd.Inventors: Steven V. Ley, Martin D. Smith, Sophie Lohmann, Steven P. Andrews, J. Paul Attfield, Hirohisa Tanaka, Kimiyoshi Kaneko
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Publication number: 20090012713Abstract: This invention relates to methods and means for assessing cognitive dysfunction, in particular impulsivity associated cognitive dysfunction, which may for example include Attention Deficit Hyperactivity Disorder (ADHD), substance abuse, and non-toxic addictive/compulsive behaviour. A method may comprise displaying a population of elements to the individual and allowing the sequential selection of elements within the population by the individual. The selection of an element reveals to the individual a characteristic of the selected element which is one of a number of possible characteristics of elements in said population. The sequential selection ends when the individual chooses which of the possible characteristics is possessed by the most elements in the population. The number of elements selected by the individual in making this choice is then correlated to the likelihood that the individual has impulsivity associated cognitive dysfunction.Type: ApplicationFiled: July 19, 2004Publication date: January 8, 2009Applicant: Cambridge University Technical Services LimitedInventors: Luke Clark, Trevor W. Robbins
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Publication number: 20090011182Abstract: The invention provides apparatus for producing an extrudate product including a plurality of capillary channel. The apparatus comprises an extruder having an inlet, a die including an orifice having a predetermined outer shape and a plurality of needles each having a body including an internal conduit for fluid flow. Each needle further comprises an outlet from the internal conduit at an outlet end. The outlet end of each needle is arranged in a predetermined pattern substantially within the orifice of the die and the conduit of each needle is fluidly connected to a fluid source. In use extrudable material is fed into the extruder through the inlet. The extruder forces the extrudable material around the bodies of the needles towards the die and through the orifice in the die to produce an extrudate having substantially the predetermined outer shape.Type: ApplicationFiled: December 10, 2004Publication date: January 8, 2009Applicant: Cambridge University Technical Services LimitedInventors: Malcolm R. Mackley, Bart Hallmark
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Publication number: 20080227724Abstract: The invention relates to the use of 3-aminocaprolactam derivatives for preparing a medicament intended to prevent or treat inflammatory disorders, and uses compounds of general formula (I) or a pharmaceutically acceptable salts thereof; wherein X is —CO—R1 or —SO2—R2, and R1 and R2 are carbonaceous substituents.Type: ApplicationFiled: November 30, 2004Publication date: September 18, 2008Applicant: CAMBRIDGE UNIVERSITY TECHNICAL SERVICES LIMITEDInventors: David John Grainger, David John Fox
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Publication number: 20080191170Abstract: This invention relates to the use of ionic liquids. Generally, the ionic liquids are modified during their use so as to change their properties in a manner relevant for that use.Type: ApplicationFiled: October 6, 2005Publication date: August 14, 2008Applicant: CAMBRIDGE UNIVERSITY TECHNICAL SERVICES LIMITEDInventors: Adam John Walker, Erik Richard Gimpel, Susan Jane Rosser
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Patent number: 7407849Abstract: A method for forming an organic or partly organic switching device. The method comprises depositing layers of conducing, semiconducting and/or insulating layers by solution processing and direct printing. Then, high-resolution patterns of electroactive polymers are formed by self-aligned formation of a surface energy barrier around a first pattern that repels the solution of a second material.Type: GrantFiled: December 20, 2002Date of Patent: August 5, 2008Assignees: Plastic Logic Limited, Cambridge University Technical Services LimitedInventors: Henning Sirringhaus, Michael J. Banach, Nicholas Jim Stone, David William Joseph Wilson, John Devin Mackenzie, Wilhelmus Theodorus Stefanus Huck, Christoph Wilhelm Sele
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Publication number: 20080099325Abstract: A continuous method is provided for recycling a metal/organic laminate comprising metal, such as aluminium, laminated with an organic material, the method comprising: providing a reactor (1) comprising a first chamber (2) having a first rotary stirrer (4) and a second chamber (3) having a second rotary stirrer (5), each chamber (2, 3) containing a bed of particulate microwave absorbing material; introducing laminate and additional particulate microwave absorbing material into the first chamber (2) via an inlet (6); under a reducing or inert atmosphere stirring the mixture of particulate microwave absorbing material and laminate in the first chamber (2) using the first rotary stirrer (3) and applying microwave energy in the first chamber (2) to heat the particulate microwave absorbing material to a temperature sufficient to pyrolyse organic material in the laminate; transferring a portion of the mixture in the first chamber (2) to the second chamber (3); stirring the mixture in the second chamber (3) using theType: ApplicationFiled: December 22, 2004Publication date: May 1, 2008Applicant: Cambridge University Technical Services LimitedInventors: Carlos Ludlow-Palafox, Howard A. Chase
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Publication number: 20080087542Abstract: A capacitance sensor comprises an asynchronous ring first in first out (FIFO) oscillator circuit having an electrode for receiving a sample for analysis. A sample placed into contact with the electrode causes a change in capacitance at the electrode which gives rise to a change in the oscillation frequency of the ring. This change in oscillation frequency can be used to identify the sample.Type: ApplicationFiled: October 10, 2007Publication date: April 17, 2008Applicants: SEIKO EPSON CORPORATION, CAMBRIDGE UNIVERSITY TECHNICAL SERVICES LIMITEDInventors: Simon Moore, Mujahid Islam
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Patent number: 7323343Abstract: An analytical system is provided for determining nitrogen monoxide, nitrogen dioxide and ozone concentrations in air samples. An ultraviolet light source 4 is used to alter the equilibrium between nitrogen dioxide and oxygen on the one hand and nitrogen monoxide and ozone on the other. Dynamic measurement of ozone concentration with time while ultraviolet irradiation is pulsed enables each gas concentration to be calculated without requiring input gases to be scrubbed. An aApparatus 101 is further provided to provide a controlled flow of gas to a sensor 103 attached to a high altitude balloon while sheltering it from the elements and allowing for affects of temperature, said apparatus comprising a shield 104 and a gas conducting means which uses the venturi effect to control air flow or has a hole to allow water to drain without affecting air flow past the sensor.Type: GrantFiled: July 13, 2004Date of Patent: January 29, 2008Assignee: Cambridge University Technical Services LimitedInventors: Richard Anthony Cox, Roderic Lewis Jones
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Patent number: 7323157Abstract: A process for production of an agglomerate comprises the steps of: passing a flow of one or more gaseous reactants into a reactor; reacting the one or more gaseous reactants within a reaction zone of the reactor to form product particles; agglomerating the product particles into an agglomerate; and applying a force to the agglomerate to displace it continuously away from the reaction zone.Type: GrantFiled: March 8, 2004Date of Patent: January 29, 2008Assignee: Cambridge University Technical Services LimitedInventors: Ian Anthony Kinloch, Yali Li, Alan H. Windle, Stephen Lee Cash
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Publication number: 20080004509Abstract: This invention relates to methods of neurocognitive assessment and, in particular, to methods for assessing the ability of individuals, in particular, memory-impaired individuals, to perform daily activities (i.e. functional status).Type: ApplicationFiled: June 11, 2007Publication date: January 3, 2008Applicant: Cambridge University Technical Services LimitedInventors: Barbara Sahakian, Andrew Blackwell
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Publication number: 20070253714Abstract: A method of transmission of radio signals over all types of graded-index multimode fibre is provided. The method comprises launching optical radiation into the core of the multimode fibre away from the centre of the core so as to strongly excite a subset of the available modes of the multimode fibre. The subset of modes excited are within a small number of mode groups and thus have similar propagation constants leading to a reduction in modal dispersion and modal interference and smoothing of the frequency response passband region beyond the fibres specified 3 dB base band bandwidth assisting RF transmission and recovery from this region.Type: ApplicationFiled: December 12, 2003Publication date: November 1, 2007Applicants: University College London, Cambridge University Technical Services LimitedInventors: Alwyn Seeds, David Wake, Richard Penty, Matthew Webster, Peter Hartmann, Ian White
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Publication number: 20070233391Abstract: The present invention relates to the use of cluster of differentiation (CD) molecules in detecting the presence and progression of one or more disease states in an individual. In particular it relates to the use of profiles of shed CD (sCD) molecules in detecting and assessing the progression of one or more disease states in an individual. Further uses of sCD profiles according to the present invention are also described.Type: ApplicationFiled: March 7, 2003Publication date: October 4, 2007Applicants: Cambridge University Technical Service Limited (CUTS), Medical Research Council, Addenbrookes NHS TrustInventors: Cesar Milstein, Celia Milstein, Adrian Woolfson, Charles Hales, Margaret Hales
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Publication number: 20070202304Abstract: A method for producing a colloid of metallic nanoparticles including the steps of: providing metal ions in solution; providing a stabilizing agent; and reducing said metal ions in the presence of said stabilizing agent, so that metallic nanoparticles are formed with a surrounding layer of said stabilizing agent, wherein the reduction step is carried out at a temperature of not less than 20° C. and not more than 150° C. The metallic nanoparticles are formed of a mixture of transition metal and noble metal, such as Ni—Pd. The resultant nanoparticles have a high stability in terms of size and chemical degradation and so can be stored for long periods. They are therefore particularly suited for forming patterned nanoparticle arrays on a substrate by nanocontact printing for the subsequent formation of a corresponding array of carbon nanotubes or nanofibers via plasma enhanced CVD.Type: ApplicationFiled: February 27, 2006Publication date: August 30, 2007Applicant: Cambridge University Technical Services Limited,Inventors: Vladimir Golovko, Brian Johnson, John Robertson, Mirco Cantoro, Angel Berenguer, Wilhelm Huck, Hongwei Li, Zongqiang Yang