Abstract: A pH sensor comprises: a chamber for receiving an electrolyte solution; a first and a second ion-sensitive field effect transistor (ISFETs), each of the first and second ISFETs having a source terminal, a drain terminal and a transistor channel extending between the source terminal and the drain terminal, a dielectric layer with a sensing surface arranged in the chamber so as to be contactable by the electrolyte solution, the dielectric layer separating the sensing surface from the transistor channel; a first measurement circuit configured to measure a first source-drain resistance across the transistor channel of the first ISFET; and a second measurement circuit configured to measure a second source-drain resistance across the transistor channel of the second ISFET. The first and second measurement circuits include a common reference electrode, the reference electrode arranged contactable by the electrolyte solution in the chamber.

Abstract: A lightning strike protection material is proposed that includes a substrate, the substrate carrying a metal layer, and, on the metal layer, a copper-nanocarbon composite layer, the copper-nanocarbon composite layer having a nanocarbon tangle formed of carbon nanotubes and/or graphene sheets, the nanocarbon tangle embedded within a copper phase and distributed throughout the copper-nanocarbon composite layer.

Abstract: According to a first aspect of the invention, a method for producing a metal-CNT composite material is proposed. The method includes providing a layer of CNT by depositing CNT coated with a polyphenol or poly(catecholamine) coating and filling the interstices of the carbon nanotubes layer with a metal so as to form a metal matrix, in which CNT are embedded. The filling is effected by electrode position or by electroless deposition. The polyphenol or poly(catecholamine) coating is crosslinked by metal ions, the metal ions promoting, as metal seeds, adhesion and/or growth of the metal matrix during the filling step. A further aspect of the invention relates to the metal-CNT composite obtainable by the method.

Abstract: A pH sensor comprises: a chamber for receiving an electrolyte solution; a first and a second ion-sensitive field effect transistor (ISFETs), each of the first and second ISFETs having a source terminal, a drain terminal and a transistor channel extending between the source terminal and the drain terminal, a dielectric layer with a sensing surface arranged in the chamber so as to be contactable by the electrolyte solution, the dielectric layer separating the sensing surface from the transistor channel; a first measurement circuit configured to measure a first source-drain resistance across the transistor channel of the first ISFET; and a second measurement circuit configured to measure a second source-drain resistance across the transistor channel of the second ISFET. The first and second measurement circuits include a common reference electrode, the reference electrode arranged contactable by the electrolyte solution in the chamber.

Abstract: A method for atomic layer deposition for the deposition of silicon oxide on a substrate, performed at room temperature, involving at least three precursors, being silicon tetrachloride, water and one Lewis base agent, being in various instances ammonia. The process comprises the steps of exposing on the substrate during an exposure time (a) the one Lewis base agent, (b) the silicon tetrachloride, and (c) the water. The process is remarkable in that at least one step of purge with nitrogen gas is performed after each of the steps (a), (b) and (c) during a purge time. Additionally, a film of silicon oxide which is remarkable in that it comprises a low level of chlorine contaminant and a significant degree of porosity with pores, the pores being in various instances micropores, mesopores or nanopores.

Abstract: A contact charging member for a triboelectric generator, comprising a contact layer with a contact side and a back side, made of a dielectric material that has a triboelectric series rating indicating a propensity to exchange electrons due to a contacting event; and an electrode layer disposed along the back side of the contact layer, wherein the contact side of the contact layer is patterned so as to show a series of circular or hexagonal cavities with a flat bottom. The invention is also directed to triboelectric generator comprising the contact charging member and a process for manufacturing the member.

Abstract: According to a first aspect of the invention, a method for producing a metal-CNT composite material is proposed. The method includes providing a layer of CNT by depositing CNT coated with a polyphenol or poly(catecholamine) coating and filling the interstices of the carbon nanotubes layer with a metal so as to form a metal matrix, in which CNT are embedded. The filling is effected by electrode position or by electroless deposition. The polyphenol or poly(catecholamine) coating is crosslinked by metal ions, the metal ions promoting, as metal seeds, adhesion and/or growth of the metal matrix during the filling step. A further aspect of the invention relates to the metal-CNT composite obtainable by the method.

Abstract: The first object of the invention is directed to field-effect gate transistor comprising (a) a substrate, (b) a source terminal, (c) a drain terminal, and (d) a channel between the source terminal and the drain terminal, the channel being a layer of CuxCryO2 in which the y/x ratio is superior to 1. The field-effect gate transistor is remarkable in that the channel of CuxCryO2 presents a gradient of holes concentration. The second object of the invention is directed to a method for laser annealing a field-effect gate transistor in accordance with the first object of the invention.

Abstract: A method for manufacturing a negatively charged supported lipid bilayer. The method comprises the steps of preparing a formulation comprising at least three lipids (1,2-dioleoyl-sn-glycero-3-phospho-L-serine (DOPS), cholesterol and at least one lipid different from DOPS and cholesterol) dissolved in a first solvent, of evaporating the first solvent, of adding an aqueous formulation of mesoporous silica nanoparticles, of performing an ultra-sonication and of performing a centrifugation. The method is remarkable in that the number of equivalents of cholesterol relative to one equivalent of DOPS is comprised between 2.30 and 2.70. Additionally, negatively charged supported lipid bilayer on a mesoporous silica nanoparticle comprising cholesterol, 1,2-dioleoyl-sn-glycero-3-phospho-L-serine (DOPS) and at least one lipid different from DOPS and cholesterol.

Abstract: A method for atomic layer deposition for the deposition of silicon oxide on a substrate, performed at room temperature, involving at least three precursors, being silicon tetrachloride, water and one Lewis base agent, being in various instances ammonia. The process comprises the steps of exposing on the substrate during an exposure time (a) the one Lewis base agent, (b) the silicon tetrachloride, and (c) the water. The process is remarkable in that at least one step of purge with nitrogen gas is performed after each of the steps (a), (b) and (c) during a purge time. Additionally, a film of silicon oxide which is remarkable in that it comprises a low level of chlorine contaminant and a significant degree of porosity with pores, the pores being in various instances micropores, mesopores or nanopores.

Abstract: A fluidized bed reactor designed for in situ gas phase impregnation. The reactor comprises a tube with an upstream zone and a downstream zone, the upstream zone and the downstream zone being separated by a separation filter. A method for a controlled-deposition of a sublimated precursor onto a fluidized solid support. The method is remarkable in that it is carried out in situ within the tube of the fluidized bed reactor in accordance with the fluidized bed reactor.

Abstract: A process of atomic layer deposition for the deposition of silicon oxide on a substrate, performed at room temperature, involving at least three precursors, being silicon tetrachloride, water and one Lewis base agent, being in various instances ammonia. The process comprises the steps of exposing on the substrate during an exposure time (a) the one Lewis base agent, (b) the silicon tetrachloride, and (c) the water. The process is remarkable in that at least one step of purge with nitrogen gas is performed after each of the steps (a), (b) and (c) during a purge time. Additionally, a film of silicon oxide which is remarkable in that it comprises a low level of chlorine contaminant and a significant degree of porosity with pores, the pores being in various instances micropores, mesopores or nanopores.

Abstract: A composite material comprising at least one polymer matrix. The polymer matrix comprises at least one inorganic load composed of a biphasic material that comprises at least one mesoporous substrate at least partially coated with carbon nanotubes. The composite material is remarkable in that the mesoporous substrate is composed of diatoms.

Abstract: A method for producing a gas sensor comprising a step of providing a substrate with two coplanar electrodes and a step of forming a ZnO nanowires network on the two electrode. The step of forming a ZnO nanowires network on the two electrodes is performed as follows: synthesizing ZnO nanowires with a liquid phase sequential growth method; dispersing the synthetized nanowires in a solvent; drop casting the solution containing the solvent and the ZnO nanowires on the electrodes; drying the solution at a temperature inferior to 85° C. Also, a gas sensor working at low temperature such as room temperature.

Abstract: The first object of the invention is directed to a method for modulating the number of charge carriers p in CuxCryO2, the method comprising the steps of (a) depositing a film of CuxCryO2 on a substrate; and (b) annealing at a temperature T the film of deposited CuxCryO2, wherein the subscripts x and y are positive numbers whose the sum is equal or inferior to 2. The method is remarkable in that the log (p)=? T2+? T+?, wherein the temperature T is expressed degree Celsius, wherein ? is a first parameter ranging from ?0.00011 to ?0.009, wherein ? is a second parameter ranging from +0.12 to +0.14, and wherein ? is a third parameter ranging from ?27.40 to ?22.42. The second object of the invention is directed to a semiconductor comprising CuxCryO2 deposited on a substrate and obtainable by the method in accordance with the first object of the invention.

Abstract: The first object of the invention is directed to field-effect gate transistor comprising (a) a substrate, (b) a source terminal, (c) a drain terminal, and (d) a channel between the source terminal and the drain terminal, the channel being a layer of CuxCryO2 in which the y/x ratio is superior to 1. The field-effect gate transistor is remarkable in that the channel of CuxCryO2 presents a gradient of holes concentration. The second object of the invention is directed to a method for laser annealing a field-effect gate transistor in accordance with the first object of the invention.

Abstract: A contact charging member for a triboelectric generator, comprising a contact layer with a contact side and a back side, made of a dielectric material that has a triboelectric series rating indicating a propensity to exchange electrons due to a contacting event; and an electrode layer disposed along the back side of the contact layer, wherein the contact side of the contact layer is patterned so as to show a series of circular or hexagonal cavities with a flat bottom. The invention is also directed to triboelectric generator comprising the contact charging member and a process for manufacturing the member.

Abstract: A process for synthesizing a biphasic material, the biphasic material comprising at least one mesoporous substrate surrounded with carbon nanotubes, the process comprising step (a) of providing a catalyst on the at least one mesoporous substrate, the catalyst being configured to favour the growth of the carbon nanotubes, and the process comprising step (b) of performing the growth of the carbon nanotubes. The synthesis process is remarkable in that the two steps (a) and (b) are performed in a one-pot synthesis.

Abstract: A method for self-assembling a mesoporous silica nanoparticle. The method comprises the step of condensing a silica precursor, a surfactant and a condensation agent in a solvent. Then, the addition of an organotriethoxysilane is performed. Finally, there is the step of removing the surfactant. The method is remarkable in that the portion of the organotriethoxysilane to the silica precursor is comprised between 5% and 15%. Additionally, a self-assembled mesoporous silica nanoparticle comprising at least one silica precursor and an organotriethoxysilane.

Abstract: The invention presents a method for producing micro- or nano-structures of an anodized valve metal on a substrate. The method allows for accurate production of the structures, involves a small number of steps and is highly repeatable.