A piezoelectric microelectromechanical structure is provided with a piezoelectric stack having a main extension in a horizontal plane and a variable section in a plane transverse to the horizontal plane. The stack is formed by a bottom-electrode region, a piezoelectric material region arranged on the bottom-electrode region, and a top-electrode region arranged on the piezoelectric material region. The piezoelectric material region has, as a result of the variable section, a first thickness along a vertical axis transverse to the horizontal plane at a first area, and a second thickness along the same vertical axis at a second area. The second thickness is smaller than the first thickness. The structure at the first and second areas can form piezoelectric detector and a piezoelectric actuator, respectively.

A vibration structure that includes a member having a vibrator that vibrates along a plane direction; a housing that holds the member; and a cushioning material connecting the housing to the member, in which a thickness of the cushioning material in a direction orthogonal to a plane direction of the housing is greater than a length of a gap between the member and the housing.

Ultrasonic sensing approaches are described with integrated MEMS-CMOS implementations. Embodiments include ultrasonic sensor arrays for which PMUT structures of individual detector elements are at least partially integrated into the CMOS ASIC wafer. MEMS heating elements are integrated with the PMUT structures by integrating under the PMUT structures in the CMOS wafer and/or over the PMUT structures (e.g., in the protective layer). For example, embodiments can avoid wafer bonding and can reduce other post processing involved with conventional manufacturing of PMUT ultrasonic sensors, while also improving thermal response.

A touch panel, a driving method thereof, and a display device are disclosed. The touch panel includes a touch detection structure and a fingerprint identification structure; the touch panel includes a first electrode, a circuit structure, and a piezoelectric layer which are stacked. The first electrode includes a plurality of first sub-electrode strips arranged in a first direction and extending in a second direction, and the circuit structure includes a plurality of circuit sub-structures arranged in an array in the first direction and the second direction, each of the circuit sub-structures includes a detection electrode; in the first direction, an orthographic projection of each of the first sub-electrode strips on a main surface of the piezoelectric layer covers orthographic projections of detection electrodes of at least two circuit sub-structures on the main surface of the piezoelectric layer.

An ultrasonic fingerprint recognition assembly is provided. The ultrasonic fingerprint recognition assembly includes a cover plate, a display panel, and an ultrasonic sensor disposed between the cover plate and the display panel. The ultrasonic sensor includes a thin film transistor (TFT) substrate which is close to the display panel, and a piezoelectric layer and a conductive layer which are disposed on the TFT substrate sequentially. The piezoelectric layer is obtained by mixing a piezoelectric material with an organic solvent, coating a mixture of the piezoelectric material and the organic solvent on a substrate, and conducting crystallization and polarization treatment. The organic solvent includes at least one of: butanone, propylene glycol monomethyl ether acetate, and dimethylacetamide.

A piezoelectric polyvinylidene fluoride (PVDF) material, a method for manufacturing the same, and a fingerprint recognition module are provided. The polyvinylidene PVDF material includes PVDF, a first solvent, a second solvent, a fluorosurfactant, and an inducing material. Material of the inducing material is one of carbon nanotubes, carbon black, and gold nanorods. Because of the high anisotropy of the inducing material, molecular orientation of the PVDF material is induced, thereby improving piezoelectric performance of the piezoelectric PVDF material. Problems of conventional piezoelectric PVDF materials, which are used in ultrasonic fingerprint recognition modules, such as poor piezoelectric performance and high-energy loss are improved.

A vibration device includes a first vibration plate having a length direction, the first vibration plate including a first end portion at one end in the length direction and a second end portion at another end in the length direction, a first piezoelectric element provided on the first vibration plate, a first conductive wiring line joined to the first piezoelectric element at a position closer to the first end portion in the length direction than a center of the first vibration plate, a first fixed component connected to the first conductive wiring line, and a case component to which the first fixed component is fixed. The second end portion is a free end, and the first conductive wiring line includes a bent portion.

A vibrating device includes a diaphragm that includes first and second vibrating portions and a fixation portion, first and second piezoelectric vibrators that are provided at the first and second vibrating portions, respectively, and fixation electrodes. The fixation portion includes a first side portion and a second side portion that extend in different directions. The diaphragm and the fixation electrodes are provided integrally as a single monolithic member. The first vibrating portion extends from the first side portion and the fixation electrodes extend from the second side portion.

The present disclosure relates to a vibration generation device, a display apparatus including the vibration generation device, and a vehicle including the vibration generation device. A vibration generation device includes a piezoelectric ceramic part having a certain interval, a piezoelectric material layer between the piezoelectric ceramic parts, and an electrode part configured to provide electric field to one or more of the piezoelectric ceramic part and the piezoelectric material layer.

An interventional device includes an elongate shaft (101) with a longitudinal axis (A-A′), and an ultrasound detector (102). The ultrasound detector (102) comprises a PVDF homopolymer foil strip (103). The foil strip (103) is wrapped around the longitudinal axis (A-A′) of the elongate shaft (101) to provide a band having an axial length (L) along the longitudinal axis (A-A′). The axial length (L) is in the range 80-120 microns.