A semiconducting structure configured to receive electromagnetic radiation, a method for manufacturing such a structure, and a semiconductor component, the semiconductor structure including: a first semiconducting area of a first type of conductivity, a second semiconducting area of a second type of conductivity opposite to the first type of conductivity, the second area being in contact with the first area to form a semiconducting junction. The second area includes a portion for which a concentration of majority carriers is at least ten times less than a concentration of majority carriers of the first area. The second area and its portion are essentially made in a first cavity configured to focus in the first cavity at least one portion of the electromagnetic radiation.

The invention pertains to a process for producing an array (1) of mesa-structured photodiodes (2), including at least the following steps:

a) producing a useful layer (3);

b) producing an etch mask formed of a plurality of etch pads (20);

c) wet-etching part of the useful layer (3) located between the etch pads (20), forming a plurality of mesa-structured photodiodes (2), producing a recess (21);

d) conformally depositing a passivation layer (14);

e) removing the etch pads (20) by chemical dissolution;

f) producing conductive pads (11).

A method for manufacturing a multi-spectral photodiode array in a Cd.sub.xHg.sub.1-xTe semiconductor layer constituted of pixels, the method including a step of producing a PN junction in each pixel and further includes producing a cadmium-rich structure on the semiconductor layer, structured so that all the pixels are not surmounted by a same quantity of cadmium atoms, this quantity being able to be zero; and inter-diffusion annealing, realizing the diffusion of cadmium atoms from the cadmium-rich structure to the semiconductor layer. Pixels that do not all have the same cutoff wavelength are thereby obtained.

In general, this disclosure is directed to a flexible or stretchable sensor and a method of detecting a substance and/or electromagnetic radiation using said sensor. The sensor comprises a flexible or stretchable substrate, a pair of terminal electrodes disposed on the flexible or stretchable substrate in mutually spaced apart and opposing relation, and a sensing element applied to the flexible or stretchable substrate, between and in electrical contact with the pair of terminal electrodes, wherein the sensing element is responsive to a substance and/or electromagnetic radiation impinging thereon, and wherein when a voltage is applied across the sensor, an electrical signal is generated that is proportional to a resistance value corresponding to a sensing of the substance and/or electromagnetic radiation impinging on the sensing element.