Various embodiments disclosed relate to unsaturated polymers that exhibit electrocaloric properties. The polymers can be useful as heat transfer materials in heating and cooling applications.

A process for manufacturing a detection device having at least one thermal detector covered by a mineral sacrificial layer, at least one getter portion covered by a carbon-based sacrificial layer, and a thin encapsulation layer surrounding the thermal detector and the getter portion includes a making a through-opening extending through the mineral sacrificial layer and opening on the substrate. The carbon-based sacrificial layer is deposited so as to cover the getter portion located in the through-opening and to entirely fill the through-opening.

An antibacterial electric charge generation yarn meets requirements (a) to (e) mentioned below simultaneously and suppresses proliferation of bacteria by electric charge generated upon deformation of the yarn: (a) a main component of the yarn is polylactic acid; (b) the yarn is twisted; (c) the yarn has a double torque of 50 T/50 cm or less; (d) the yarn has a single fiber fineness of 0.05 to 5 dtex; and (e) the number of filaments in the yarn is 10 to 400.

A process for producing a microbolometer including a vanadium-oxide-based sensitive material containing an additional chemical element chosen from arsenic, germanium, silicon and phosphorus, the process including: determining an effective amount of the additional chemical element from which the modified compound, having undergone a step of exposure to a temperature T.sub.r for a time Δt.sub.r, exhibits an electrical resistivity ρ.sub.a|r at room temperature that is higher than 10% of its native value; producing the sensitive material in a thin layer, this material being formed from the modified compound having an amount of the additional chemical element that is greater than or equal to the effective amount; and exposing the sensitive material to the temperature T.sub.r for the time Δt.sub.r.

Connection with a wiring structure can be reliably achieved, whereby a semiconductor sensor device and a semiconductor sensor device manufacturing method with increased reliability are provided. A semiconductor sensor device in which a multiple of signal lines and a sensor detection portion are disposed includes a conductive film, disposed on a substrate, that configures the signal lines and whose upper face is exposed by an aperture portion of a width smaller than a width of the signal lines, a conductive member formed on the conductive film and electrically connected to the conductive film via the aperture portion, and a wiring structure, formed on an upper face of the conductive member, of an air bridge structure that connects the signal lines or the signal lines and the sensor detection portion, wherein an upper surface of the conductive member is in contact with the wiring structure, and a side face is exposed.

A method and device which can receive and identify electromagnetic radiation in the terahertz (THz) frequency range. The device has a combination of material and geometric parameters that are unique and tunable, enabling resonating frequencies for spectral selectivity in the THz range (0.1-15) with ultra-narrow channel widths (0.01-0.10 THz) full width at half maximum (FWHM). Dependent upon configuration, the device may be employed as a large area resonator to collect weak or diffuse signals or as a constituent of an array able to take pictures within the spectrum for which they are sensitive.

A terahertz detector and a method of manufacturing a terahertz detector, wherein the terahertz detector including a substrate (2) and at least one detection unit. Each detection unit includes: a channel material (1) arranged on the substrate, two electrodes (3, 4) respectively in ohmic contact with both ends of the channel material (1) in a longitudinal direction, and a three-dimensional grapheme (5) in direct or indirect thermal contact with the channel material (1).

An electrocaloric element for a heat transfer system includes an electrocaloric material of a copolymer of (i) vinylidene fluoride, (ii) an addition polymerization monomer selected from tetrafluoroethylene, trifluoroethylene, vinyl fluoride, or combinations thereof, and (iii) a halogenated addition polymerization monomer larger than vinylidene fluoride. It is also provided that: (a) the monomer (ii) includes an addition polymerization monomer smaller than trifluoroethylene, (b) at least one of the addition polymerization monomers (ii) or (iii) is a chiral monomer, and the copolymer includes syndiotactic ordered segments of chiral monomer units, and/or (c) at least one of the addition polymerization monomers (ii) or (iii) comprises chlorine, and the copolymer includes an ordered distribution of monomer units comprising chlorine along the copolymer polymer backbone.

Thermal pattern sensor comprising several pixels located on a substrate, each pixel comprising a pyroelectric capacitance, the pyroelectric capacitance comprising, a layer of porous pyroelectric material located between a first electrically conducting electrode and a second electrically conducting electrode, particles made of a first material at least partially filling the pores of the layer of porous pyroelectric material, the first material being electrically insulating and having pyroelectric properties and a layer made of a second material being placed between the layer made of a pyroelectric material and the second electrode, the second material being electrically insulating and having pyroelectric properties.

A method and device which can receive and identify electromagnetic radiation in the terahertz (THz) frequency range. The device has a combination of material and geometric parameters that are unique and tunable, enabling resonating frequencies for spectral selectivity in the THz range (0.1-15) with ultra-narrow channel widths (0.01-0.10 THz) full width at half maximum (FWHM). Dependent upon configuration, the device may be employed as a large area resonator to collect weak or diffuse signals or as a constituent of an array able to take pictures within the spectrum for which they are sensitive.