Thin-film solar cell modules and serial cell-to-cell interconnect structures and methods of fabrication are described. In an embodiment, solar cell module and interconnect includes a conformal transport layer over a subcell layer. The conformal transport layer may also laterally surround an outside perimeter the subcell layer.

A photochemical electrode includes: an electrically conductive layer; and a photoexcitation material layer provided over the electrically conductive layer and including a photoexcitation material, wherein the photoexcitation material layer is one of a first photoexcitation material layer in which a potential of the conduction band minimum decreases from a second surface opposite to a first surface on the side of the electrically conductive layer toward the first surface and a second photoexcitation material layer in which a potential of the valence band maximum decreases from the second surface toward the first surface.

A hybrid fiber for detection of UV light is described. The hybrid fiber includes a conductor, a first layer, a photoactive layer, a second layer, and a transparent electrode. The conductor includes a conductive material. The first layer includes a first material deposited onto the conductor. The first material is configured to transport holes and block electrons. The photoactive layer includes a photoactive material coating the first layer. The photoactive material includes a first submaterial and a second submaterial. The second layer includes a second material deposited onto the photoactive layer. The second material is configured to block holes and transport electrons. The transparent electrode includes a transparent electrode material deposited onto the second layer.

An inspection method for a multilayer semiconductor device is provided. The inspection method can investigate multilayered ensembles of a multilayer semiconductor device and obtain stratigraphic thickness (ST) maps of each layer in the multilayer semiconductor device by utilizing absorption edges of materials of interests and obtaining calibration quality curves.

A photovoltaic device or solar device including at least one luminescent solar concentrator (LSC) having an upper surface, a lower surface and one or more external sides; at least one perovskite-based photovoltaic cell or solar cell positioned on the outside of at least one of the external sides of said luminescent solar concentrator (LSC), the perovskite being selected from organometal trihalides. The photovoltaic device or solar device may be used advantageously in various applications necessitating the production of electrical energy by utilising light energy, in particular solar radiation energy such as, for example: building integrated photovoltaic (BIPV) systems, photovoltaic windows, greenhouses, photobioreactors, noise barriers, lighting equipment, design, advertising, automotive industry. Moreover, the photovoltaic device or solar device can be used both in stand-alone mode and in modular systems.

The present application relates to technical field of organic semiconductors and provides an arylamine compound and use thereof in photoelectric devices. The compound is composed of a N,N-dialkyl-dicarbazole amine functional group modified unit with larger conjugated system. The semiconductor material provided by the present application has high glass transition temperature, high solubility, good film forming property and high thermal stability of film morphology, and can be used as a hole transport material in photoelectric devices to realize excellent thermal stability. The compound has simple preparation process, easily available raw materials and low price, and is suitable for industrial production. High glass transition temperature and good thermal stability are beneficial to prolong the working life of optoelectronic devices. High solubility, can form amorphous film with excellent quality, and is beneficial to application in photoelectric devices; The device has high photoelectric conversion efficiency and is a hole transport material with excellent performance.

A method for manufacturing a perovskite solar cell, includes disposing an electron transport layer on a transparent conductive substrate, disposing an additive-doped perovskite light absorption layer on the electron transport layer, disposing a hole transport layer on the additive-doped perovskite light absorption layer, and disposing an electrode on the hole transport layer. The disposing of the additive-doped perovskite light absorption layer includes adding an additive having hydrophobicity to a perovskite precursor solution, and applying the additive-added perovskite precursor solution onto the electron transport layer to form the additive-doped perovskite light absorption layer.

Compositions of matter and devices using those compositions are provided, which can, e.g., impede or restrict the migration of halides from a halide perovskite active layer. The composite material may include n layers of semiconductors, wherein n ≥ 2. Each layer of semiconductors may contain (i) one or more organic semiconductor layers and one or more inorganic semiconductor layer in contact with the one or more organic semiconductor layers, (ii) one or more composite semiconductor layers, each composite semiconductor layer containing an organic material and inorganic material, or (iii) a combination thereof.

The present disclosure relates to a composition that includes a first layer that includes a perovskite defined by ABX.sub.3 and a second layer that includes a perovskite-like material defined by at least one of A′.sub.2B′X′.sub.4, A′.sub.3B′.sub.2X′.sub.9, A′B′X′.sub.4, A′.sub.2B′X′.sub.6, and/or A′.sub.2AB′.sub.2X′.sub.7, where the first layer is adjacent to the second layer, A is a first cation, B is a second cation, X is a first anion, A′ is a third cation, B′ is a fourth cation, X′ is a second anion, and A′ is different than A.

A multifunctional solid-state photovoltachromic device (1) comprising at least one n-type layer (8) and at least one p-type layer (11) arranged to create a PN or PIN junction, said n-type layer (8) and p-type layer (11) comprising materials arranged to act as mixed conductors, thus allowing both charge transport and ion conduction.