Patents by Inventor Mercedes Crego Calama
Mercedes Crego Calama 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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Publication number: 20210190308Abstract: The invention provides a system (1) comprising a fan assembly (100) with a plurality of nozzle openings (115a, 115b, . . . ) for creating air flows (111a, 111b, . . . ), the fan assembly (100) configured to provide said air flows (111a, 111b, . . . ) in at least two non-parallel directions (112a, 112b, . . . ), wherein the at least two non-parallel directions (112a, 112b, . . . ) are configured within a virtual cone (30) having an apex angle (a) selected from the range of 10-170° and having a cone axis (31), a control system (200) configured to control said air flows (11a, 111b, . . . ), the system (1) further comprising a light source (10) configured to generate light source light (11).Type: ApplicationFiled: February 15, 2017Publication date: June 24, 2021Inventors: Antonius Adrianus Maria MARINUS, Simon Eme KADIJK, Mercedes CREGO CALAMA, Alexander Henricus Waltherus VAN EEUWIJK
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Patent number: 9213013Abstract: An electrochemical ethylene sensor and method for ethylene sensing are disclosed. In one aspect, an electrochemical ethylene sensor includes a working electrode and a counter electrode on an electrically insulating substrate. An ionic liquid layer covers the working electrode and counter electrode. In one method, a voltage is applied to the working electrode which is equal to or lower than the voltage required for the onset of oxidation of the material of the working electrode, for example, in the range spanning 700 mV before the onset of oxidation of the material of the working electrode.Type: GrantFiled: March 28, 2012Date of Patent: December 15, 2015Assignee: Stichting IMEC NederlandInventors: Marcel Zevenbergen, Sywert Brongersma, Mercedes Crego Calama, Daan Wouters
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Patent number: 9207203Abstract: The disclosed technology generally relates to a sensor and methods for making and using the same, and more particularly relates to a sensor configured to sense the presence of at least one fluidum. In one aspect, a sensor for sensing a fluidum in a space adjoining the sensor comprises a two-dimensional electron gas (2DEG) layer stack. The sensor additionally comprises a gate lying adjacent to at least part of the 2DEG layer stack and configured to electrostatically control the electron density of a two-dimensional electron gas (2DEG) in the 2DEG layer stack. The sensor further comprises a source electrode contacting the 2DEG layer stack for electrically contacting the 2DEG.Type: GrantFiled: December 18, 2013Date of Patent: December 8, 2015Assignee: Stichting IMEC NederlandInventors: Roman Vitushinsky, Peter Offermans, Mercedes Crego Calama, Sywert Brongersma
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Patent number: 9038437Abstract: The application describes methods and apparatus for chemical sensing, e.g. gas sensing, which have high sensitivity but low power operation. A sensor is described having a flexible membrane comprising a III/N heterojunction structure configured so as to form a two dimensional electron gas within said structure. A sensing material is disposed on at least part of the flexible membrane, the sensing material being sensitive to one or more target chemicals so as to undergo a change in physical properties in the presence of said one or more target chemicals. The sensing material is coupled to said heterojunction structure such that said change in physical properties of the sensing material imparts a change in stress within the heterojunction structure which modulates the resistivity of the two dimensional electron gas.Type: GrantFiled: November 1, 2012Date of Patent: May 26, 2015Assignee: Stichting IMEC NederlandInventors: Peter Offermans, Roman Vitushinsky, Mercedes Crego Calama, Sywert Brongersma
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Patent number: 9035362Abstract: A Sensor for sensing the presence of at least one fluidum in a space adjoining the sensor is disclosed. In one aspect, the sensor has a two-dimensional electron gas (2DEG) layer stack, a gate electrode overlaying at least part of the 2DEG layer stack for electrostatically controlling electron density of a 2DEG in the 2DEG layer stack and a source and a drain electrode contacting the 2DEG layer stack for electrically contacting the 2DEG, wherein a detection opening is provided in between the gate electrode and the 2DEG layer stack and wherein the detection opening communicates with the space through a detection opening inlet such that molecules of the fluidum can move from the adjoining space through the detection opening inlet into the detection opening where they can measurably alter a electric characteristic of the 2DEG.Type: GrantFiled: June 4, 2013Date of Patent: May 19, 2015Assignee: Stichting IMEC NederlandInventors: Peter Offermans, Roman Vitushinsky, Mercedes Crego Calama, Sywert Brongersma
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Patent number: 8795511Abstract: A configuration is disclosed. In one aspect, the configuration includes a substantially planar electrode layer, in a first plane. The configuration further includes a substantially planar two-dimensional electron gas (2DEG) layer electrically connected in series with the electrode layer. The 2DEG layer is provided in a second plane substantially parallel with the first plane and located at a predetermined distance, in a direction orthogonal to the first plane, from the first plane. The 2DEG layer and the electrode layer are patterned such that the electrode layer overlays a part of the 2DEG layer, wherein the predetermined distance between the first plane and the second plane is selected to be sufficiently small for allowing electrostatic interaction between the electrode layer and the 2DEG layer.Type: GrantFiled: January 19, 2012Date of Patent: August 5, 2014Assignee: Stichting IMEC NederlandInventors: Roman Vitushinsky, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20140175516Abstract: The disclosed technology generally relates to a sensor and methods for making and using the same, and more particularly relates to a sensor configured to sense the presence of at least one fluidum. In one aspect, a sensor for sensing a fluidum in a space adjoining the sensor comprises a two-dimensional electron gas (2DEG) layer stack. The sensor additionally comprises a gate lying adjacent to at least part of the 2DEG layer stack and configured to electrostatically control the electron density of a two-dimensional electron gas (2DEG) in the 2DEG layer stack. The sensor further comprises a source electrode contacting the 2DEG layer stack for electrically contacting the 2DEG.Type: ApplicationFiled: December 18, 2013Publication date: June 26, 2014Applicant: Stichting IMEC NederlandInventors: Roman Vitushinsky, Peter Offermans, Mercedes Crego Calama, Sywert Brongersma
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Patent number: 8711356Abstract: The present disclosure relates to a gas sensor including a first layer and a second layer superimposed on each other along an interface between the two layers. The first layer includes an array of nanoparticles along the interface, the nanoparticles provided so as to allow, upon illumination with electromagnetic radiation, long range diffractive coupling of surface plasmon resonances resulting in a surface lattice resonance condition. The second layer includes a material that, when exposed to at least one predetermined gas, detectably affects the surface lattice resonance condition. The material of the second layer preferably has a porosity of at least 10%.Type: GrantFiled: February 23, 2011Date of Patent: April 29, 2014Assignee: Stichting IMEC NederlandInventors: Peter Offermans, Sywert H. Brongersma, Mercedes Crego Calama, Gabriele Vecchi, Jaime Gomez Rivas
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Patent number: 8634078Abstract: Methods and sensors for detecting the presence and/or concentration of an analyte are disclosed. In one aspect, a sensing element for use in a sensor is disclosed. The sensing element comprises a resonant cavity device configured to emit optical radiation at an initial power level, a sensing layer exhibiting an initial refractive index, and a detector. The sensing layer is configured to absorb or adsorb an analyte and, in response to absorbing or adsorbing the analyte, exhibit a modified refractive index that differs from the initial refractive index. The resonant cavity device is further configured to, in response to the sensing layer absorbing or adsorbing the analyte, emit optical radiation at a modified power level based on the modified refractive index. The detector is configured to detect the modified power level.Type: GrantFiled: September 21, 2011Date of Patent: January 21, 2014Assignee: Stichting IMEC NederlandInventors: Ling Sieben-Xu, Peter Offermans, Devrez Mehmet Karabacak, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20140012114Abstract: This application describes methods and apparatus for monitoring of fluid content that are suitable for in-situ, real time and/or continuous monitoring, especially of bodily fluids and in particular the content of sweat. The application also describes fabrication of such an apparatus. The apparatus comprises a multilayer structure comprising at least two electrode layers for detection of fluid content separated by at least one insulating layer. The multilayer structure defines at least one flow channel which provides a flow path for continuous flow of fluid in use, and the electrode layers form part of the sidewall of the flow channel(s). The flow channel(s) may run in a direction substantially perpendicular to the layers. The electrode layers may employ electrochemical detection and may comprise a reference electrode and an ion-sensitive electrode. The apparatus may be fabricated using various printing or deposition techniques.Type: ApplicationFiled: July 5, 2013Publication date: January 9, 2014Inventors: Marcel Zevenbergen, Lindsay Brown, Maria Peter, Mercedes Crego Calama
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Publication number: 20130334061Abstract: A Sensor for sensing the presence of at least one fluidum in a space adjoining the sensor is disclosed. In one aspect, the sensor has a two-dimensional electron gas (2DEG) layer stack, a gate electrode overlaying at least part of the 2DEG layer stack for electrostatically controlling electron density of a 2DEG in the 2DEG layer stack and a source and a drain electrode contacting the 2DEG layer stack for electrically contacting the 2DEG, wherein a detection opening is provided in between the gate electrode and the 2DEG layer stack and wherein the detection opening communicates with the space through a detection opening inlet such that molecules of the fluidum can move from the adjoining space through the detection opening inlet into the detection opening where they can measurably alter a electric characteristic of the 2DEG.Type: ApplicationFiled: June 4, 2013Publication date: December 19, 2013Inventors: Peter Offermans, Roman Vitushinsky, Mercedes Crego Calama, Sywert Brongersma
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Patent number: 8535499Abstract: Micromachined reference electrodes for use in miniaturized electrochemical sensors, and methods for fabricating such reference electrodes and electrochemical sensors, for example, as a part of a microfluidic system, are disclosed. Electrochemical measurements allow for inexpensive detection of a wide variety of (bio-)chemical compounds in solution. The reference electrode is one of the main parts of an electrochemical cell. The reference electrode, from which no current is drawn, has a stable, constant potential.Type: GrantFiled: February 9, 2011Date of Patent: September 17, 2013Assignee: Stichting IMEC NederlandInventors: Michiel Blauw, Javier Gonzalo Ruiz, Mercedes Crego Calama, Sywert H. Brongersma
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Patent number: 8525129Abstract: The present invention relates to a gas sensing device comprising a nanoparticle layer (1) and a quantum dot layer (3) separated from each other by a gas absorption layer (2) which has a thickness which changes upon absorption of a gas. The nanoparticle layer (1) is provided for generating a surface plasmon resonance within a plasmon resonance frequency range upon illumination with light within a light frequency range; the quantum dot layer (3) has an absorption spectrum overlapping with said plasmon resonance frequency range of said nanoparticle layer (1) and shows photoluminescence in a photoluminescence emission frequency range upon absorption of energy within its absorption spectrum. The present invention further relates to a method for fabricating such a gas sensing device and to a method of using such a gas sensing device.Type: GrantFiled: December 17, 2008Date of Patent: September 3, 2013Assignee: Stichting IMEC NederlandInventors: Peter Offermans, Mercedes Crego Calama
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Patent number: 8353682Abstract: A microfluidic device is described. The microfluidic device comprises at least one transport channel and at least one working chamber, wherein the at least one transport channel and the at least one working chamber are separated from each other by a common deformable wall. The at least one transport channel is for containing a transport fluid and the at least one working chamber is for containing a working fluid. The microfluidic device comprises at least one pair of electrodes for changing the pressure on the working fluid such that when the pressure on the working fluid is changed, the deformable wall deforms, resulting in a change of the cross-section of the at least one transport channel. The working chamber comprises a flexible wall different from the common deformable wall and at least one electrode of the at least one pair of electrodes is provided on the flexible wall.Type: GrantFiled: November 19, 2008Date of Patent: January 15, 2013Assignee: Stichting IMEC NederlandInventors: Mihai Patrascu, Mercedes Crego Calama, Martijn Goedbloed, Koray Karakaya
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Publication number: 20120272721Abstract: A device including a gas sensor sensitive to the presence of a specific gas is disclosed. In one aspect, the gas sensor includes a first segment made of a dielectric material and a second segment made of a semiconducting material. The first segment has a first surface exposed to an environment of the gas sensor and is located between the environment and the second segment. The first segment has a first thickness and the second segment has a second thickness. The first thickness is selected such that upon diffusion of a gas molecule of the specific gas into the first segment, a dipole of the molecule of the specific gas detectably influences a bending of an energy-band structure of the semiconducting material of the second segment. The second thickness is in the order of, or smaller than, the Debye length of the semiconducting material.Type: ApplicationFiled: April 27, 2012Publication date: November 1, 2012Applicant: Stichting IMEC NederlandInventors: Jinesh Kochupurackal, Peter Offermans, Michiel Blauw, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20120247978Abstract: An electrochemical ethylene sensor and method for ethylene sensing are disclosed. In one aspect, an electrochemical ethylene sensor includes a working electrode and a counter electrode on an electrically insulating substrate. An ionic liquid layer covers the working electrode and counter electrode. In one method, a voltage is applied to the working electrode which is equal to or lower than the voltage required for the onset of oxidation of the material of the working electrode, for example, in the range spanning 700 mV before the onset of oxidation of the material of the working electrode.Type: ApplicationFiled: March 28, 2012Publication date: October 4, 2012Applicant: Stichting IMEC NederlandInventors: Marcel Zevenbergen, Sywert Brongersma, Mercedes Crego Calama, Daan Wouters
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Publication number: 20120181185Abstract: A configuration is disclosed. In one aspect, the configuration includes a substantially planar electrode layer, in a first plane. The configuration further includes a substantially planar two-dimensional electron gas (2DEG) layer electrically connected in series with the electrode layer. The 2DEG layer is provided in a second plane substantially parallel with the first plane and located at a predetermined distance, in a direction orthogonal to the first plane, from the first plane. The 2DEG layer and the electrode layer are patterned such that the electrode layer overlays a part of the 2DEG layer, wherein the predetermined distance between the first plane and the second plane is selected to be sufficiently small for allowing electrostatic interaction between the electrode layer and the 2DEG layer.Type: ApplicationFiled: January 19, 2012Publication date: July 19, 2012Applicant: Stichting IMEC NederlandInventors: Roman Vitushinsky, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20120151997Abstract: A method of making an electrically conductive structure in a surface portion of a dielectric material is disclosed. In one aspect, the method includes creating vacancies at at least part of an exposed surface of the dielectric material by removing atoms from a plurality of molecules of the dielectric material.Type: ApplicationFiled: December 16, 2011Publication date: June 21, 2012Applicant: Stichting IMEC NederlandInventors: Jinesh Kochupurackal, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20120077019Abstract: A humidity barrier comprises a mixed matrix membrane, wherein the mixed matrix membrane comprises a polymer matrix with at least a hydrophobic surface, in which polymer matrix porous hydrophilic filler particles are dispersed. The hydrophobic surface may be formed either by hydrophobic polymer material itself or a hydrophobic coating may be provided on top of non-hydrophobic polymer material.Type: ApplicationFiled: September 26, 2011Publication date: March 29, 2012Applicant: STICHTING IMEC NEDERLANDInventors: Wout Knoben, Mercedes Crego Calama, Sywert Brongersma
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Publication number: 20120075634Abstract: Methods and sensors for detecting the presence and/or concentration of an analyte are disclosed. In one aspect, a sensing element for use in a sensor is disclosed. The sensing element comprises a resonant cavity device configured to emit optical radiation at an initial power level, a sensing layer exhibiting an initial refractive index, and a detector. The sensing layer is configured to absorb or adsorb an analyte and, in response to absorbing or adsorbing the analyte, exhibit a modified refractive index that differs from the initial refractive index. The resonant cavity device is further configured to, in response to the sensing layer absorbing or adsorbing the analyte, emit optical radiation at a modified power level based on the modified refractive index. The detector is configured to detect the modified power level.Type: ApplicationFiled: September 21, 2011Publication date: March 29, 2012Applicant: STICHTING IMEC NEDERLANDInventors: Ling Sieben-Xu, Peter Offermans, Devrez Mehmet Karabacak, Mercedes Crego Calama, Sywert Brongersma