Patent application number | Description | Published |
20120103379 | THERMOELECTRIC GENERATOR INCLUDING A THERMOELECTRIC MODULE HAVING A MEANDERING P-N SYSTEM - A thermoelectric module having a plurality of p-n-couples, every two adjacent p-n-legs forming one p-n-couple. The p-n-legs are each manufactured from conductive materials. The p-n-legs of the plurality of p-n-couples are separated in an alternating sequence by an electrically insulating gap which creates a meandering current flow. | 05-03-2012 |
20130058772 | LAVAL NOZZLE - In a Laval nozzle ( | 03-07-2013 |
20130152989 | THERMOELECTRIC GENERATOR HAVING AN INTEGRATED PRETENSIONED MOUNTING - A thermoelectric generator and a method for manufacturing a thermoelectric generator are described. The thermoelectric generator, having a housing in which at least one heat source tube, at least one heat sink tube, and at least one generator element are between the heat source tube and the heat sink tube. A pretension mounting device is in the housing and provides an elastic force via which the tubes are pretensioned relative to one another and which compresses the tubes and the generator element in-between. An inner side of the housing of the pretension mounting device forms a support for the pretension mounting device, which is acted upon by a counterforce to the elastic force of the pretension mounting device. | 06-20-2013 |
20130205783 | STEAM TURBINE - The invention relates to a steam turbine (10), in particular for using the waste heat of an internal combustion engine (2), comprising at least one rotor (26) and at least one stator (20), said stator (20) comprising at least two nozzles (22) which are arranged in parallel in relation to each other. The nozzles (22) are designed for different load points of the rotor (26) and can be switched on and off independently from each other. | 08-15-2013 |
Patent application number | Description | Published |
20110280911 | CANCER VACCINE COMPOSITIONS AND METHODS OF USING THE SAME - The present invention provides methods and compositions for the stimulation of immune responses. In particular, the present invention provides nanoemulsion compositions and methods of using the same for the induction of immune responses (e.g., innate and adaptive immune responses (e.g., for generation of host immunity against an environmental pathogen)). Compositions and methods of the present invention find use in, among other things, clinical (e.g. therapeutic and preventative medicine (e.g., vaccination)) and research applications. | 11-17-2011 |
20150212088 | COMPOSITIONS AND METHODS FOR DETECTING AND TREATING COLORECTAL CANCER - The present invention relates to compositions and methods for the detecting, treating, and empirically investigating the interaction between a subject's immune system and cancer stem cells. In particular, the present invention provides compositions and methods for using IL-22 cytokine signaling and/or downstream targets of IL-22 cytokine signaling (e.g., STAT3, DOT1L, SUZ12, EED) in the diagnosis, treatment, and empirical investigation of cancers characterized with cancer stem cells activated through IL-22 cytokine signaling. | 07-30-2015 |
Patent application number | Description | Published |
20140004892 | SHORT MESSAGE SERVICE SPAM DATA ANALYSIS AND DETECTION | 01-02-2014 |
20140006374 | METHOD AND APPARATUS FOR DERIVING AND USING TRUSTFUL APPLICATION METADATA | 01-02-2014 |
20140006375 | METHOD AND APPARATUS FOR ROBUST MOBILE APPLICATION FINGERPRINTING | 01-02-2014 |
20140006418 | METHOD AND APPARATUS FOR RANKING APPS IN THE WIDE-OPEN INTERNET | 01-02-2014 |
20140006440 | METHOD AND APPARATUS FOR SEARCHING FOR SOFTWARE APPLICATIONS | 01-02-2014 |
20150128265 | Malware And Anomaly Detection Via Activity Recognition Based On Sensor Data - A system for malware and anomaly detection via activity recognition based on sensor is disclosed. The system may analyze sensor data collected during a selected time period from one or more sensors that are associated with a device. Once the sensor data is analyzed, the system may determine a context of the device when the device is in a connected state. The system may determine the context of the device based on the sensor data collected during the selected time period. The system may also determine if traffic received or transmitted by the device during the connected state is in a white list. Furthermore, the system may transmit an alert if the traffic is determined to not be in the white list or if the context determined for the device indicates that the context does not correlate with the traffic. | 05-07-2015 |
20160028749 | CLOUD-BASED COMMUNICATION ACCOUNT SECURITY - A request is received over a network to resolve a problem relating to a networked user device. The request is accepted in order to provide user service. Based on the request, one of multiple available diagnostic algorithms is selected to analyze user data related to a user's account to identify symptoms of the problem and diagnose a cause of the symptoms identified. | 01-28-2016 |
20160050574 | DETECTION AND MITIGATION OF DENIAL-OF-SERVICE ATTACKS IN WIRELESS COMMUNICATION NETWORKS - A method that incorporates teachings of the subject disclosure may include, for example, obtaining data relating to a set of collision events on a shared channel on a wireless network according to a contention-based access protocol in which a plurality of terminals attempt to access the channel contemporaneously. A probability of collision in the channel is estimated and a probability distribution of time intervals between access attempts is generated based on the estimated probability of collision. Empirical and theoretical cumulative distribution functions for the time intervals are calculated, and compared to identify a malfunctioning terminal not operating in accordance with the protocol. Other embodiments are disclosed. | 02-18-2016 |
Patent application number | Description | Published |
20080280058 | Method of Preparing Zinc Oxide Nanorods on a Substrate By Chemical Spray Pyrolysis - A method of preparing nanostructured zinc oxide layers on a substrate by chemical spray pyrolysis at moderate deposition temperatures from 350° C. to 600° C. is disclosed. An aqueous or aqueous alcoholic solution comprising zinc chloride or zinc acetate as precursors is prepared and sprayed onto the preheated substrate so that the precursor reacts to form zinc oxide layer on the substrate. Thiourea or urea may be also added to the solution. Glass, silicon, or metal oxide covered glass can be used as the substrate. | 11-13-2008 |
20100186805 | PHOTOVOLTAIC CELL BASED ON ZINC OXIDE NANORODS AND METHOD FOR MAKING THE SAME - A new photovoltaic (PV) cell structure, prepared on transparent substrate with transparent conductive oxide (TCO) layer and having nanorod zinc oxide layer. The cell has a thin conductive layer of doped zinc oxide deposited on the nanorod zinc oxide layer, an extremely thin blocking layer of titanium oxide or indium sulfide on the thin conductive layer, a buffer layer of indium sulfide on the extremely thin blocking layer, an absorber layer, comprising copper indium disulfide on said buffer layer and one electrode attached to the transparent conductive oxide layer and a second electrode attached to the absorber layer. Also, a method of preparing a zinc oxide nanorod PV cell entirely by chemical spray pyrolysis is disclosed. Efficiency up to 3.9% is achieved by simple continuous non-vacuum process. | 07-29-2010 |
20130236646 | METHOD OF PREPARING ZINC OXIDE NANORODS ON A SUBSTRATE BY CHEMICAL SPRAY PYROLYSIS - A method of preparing nanostructured zinc oxide layers on a substrate by chemical spray pyrolysis at moderate deposition temperatures from 350.degree. C. to 600.degree. C. is disclosed. An aqueous or aqueous alcoholic solution comprising zinc chloride or zinc acetate as precursors is prepared and sprayed onto the preheated substrate so that the precursor reacts to form zinc oxide layer on the substrate. Thiourea or urea may be also added to the solution. Glass, silicon, or metal oxide covered glass can be used as the substrate. | 09-12-2013 |
Patent application number | Description | Published |
20120007931 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 01-12-2012 |
20120092429 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 04-19-2012 |
20120105560 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 05-03-2012 |
20120118479 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 05-17-2012 |
20120120132 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 05-17-2012 |
20120120170 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 05-17-2012 |
20120236099 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 09-20-2012 |
20130287973 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 10-31-2013 |
20140044895 | INK-JET TRANSFER SYSTEMS FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 02-13-2014 |
20140240420 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 08-28-2014 |
20140240421 | INK-JET TRANSFER SYSTEM FOR DARK TEXTILE SUBSTRATES - An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, colour-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink. | 08-28-2014 |