Monolithic tandem chalcopyrite-perovskite photovoltaic devices and techniques for formation thereof are provided. In one aspect, a tandem photovoltaic device is provided. The tandem photovoltaic device includes a substrate; a bottom solar cell on the substrate, the bottom solar cell having a first absorber layer that includes a chalcopyrite material; and a top solar cell monolithically integrated with the bottom solar cell, the top solar cell having a second absorber layer that includes a perovskite material. A monolithic tandem photovoltaic device and method of formation thereof are also provided.

Disclosed herein are a solar cell and a method of manufacturing the same. The solar cell module includes a semiconductor substrate, a first passivation film located on a front surface of the semiconductor substrate, a second passivation film located on a rear surface of the semiconductor substrate, a front electric field region located on the first passivation film on the front surface of the semiconductor substrate and being of a same conductivity-type as that of the semiconductor substrate, an emitter region located on the second passivation film on the rear surface of the semiconductor substrate and being of a conductivity-type opposite that of the semiconductor substrate, first electrodes conductively connected to the front electric field region, and second electrode conductively connected to the emitter region.

A method of manufacturing a photoelectric conversion element including a semiconductor layer includes: forming an electrode; forming an insulating layer covering the electrode; forming an opening in a region of the insulating layer overlapping the electrode in a plan view; forming a covering layer of a semiconductor material on a surface of the insulating layer; and forming the semiconductor layer by patterning the covering layer. In the forming of the semiconductor layer, the semiconductor layer is formed such that an outer circumferential edge of the semiconductor layer is located on the outside of an inner circumferential edge of the opening in the plan view.

Image sensors include a color photo-sensing photoelectric conversion device, a first color filter and a second color filter disposed under the color photo-sensing photoelectric conversion device, a first photodiode and a second photodiode disposed under the first color filter and the second color filter, respectively, a first light guide member disposed between the first color filter and the first photodiode, and a second light guide member disposed between the second color filter and the second photodiode.

A solar cell structure for wireless charging includes a substrate and at least one thin film solar cell disposed on a surface of the substrate, wherein the thin film solar cell has a winding coil structure. Accordingly, in the thin film solar cell, the electrode which is the winding coil structure may be used as electromagnetic induction coil or millimeter-wave radio wave receiving radiator.

An embodiment includes an apparatus comprising: a first photovoltaic cell; a first through silicon via (TSV) included in the first photovoltaic cell and passing through at least a portion of a doped silicon substrate, the first TSV comprising (a)(i) a first sidewall, which is doped oppositely to the doped silicon substrate, and (a)(ii) a first contact substantially filling the first TSV; and a second TSV included in the first photovoltaic cell and passing through at least another portion of the doped silicon substrate, the second TSV comprising (b)(i) a second sidewall, which comprises the doped silicon substrate, and (b)(ii) a second contact substantially filling the second TSV; wherein the first and second contacts each include a conductive material that is substantially transparent. Other embodiments are described herein.

A conducting film or device multilayer electrode includes a substrate and two transparent or semitransparent conductive layers separated by a transparent or semitransparent intervening layer. The intervening layer includes electrically conductive pathways between the first and second conductive layers to help reduce interfacial reflections occurring between particular layers in devices incorporating the conducting film or electrode.

Photodetectors, methods of fabricating the same, and methods using the same to detect radiation are described. A photodetector can include a first electrode, a light sensitizing layer, an electron blocking/tunnelling layer, and a second electrode. Infrared-to-visible upconversion devices, methods of fabricating the same, and methods using the same to detect radiation are also described. An Infrared-to-visible upconversion device can include a photodetector and an OLDE coupled to the photodetector.

Monolithic tandem chalcopyrite-perovskite photovoltaic devices and techniques for formation thereof are provided. In one aspect, a tandem photovoltaic device is provided. The tandem photovoltaic device includes a substrate; a bottom solar cell on the substrate, the bottom solar cell having a first absorber layer that includes a chalcopyrite material; and a top solar cell monolithically integrated with the bottom solar cell, the top solar cell having a second absorber layer that includes a perovskite material. A monolithic tandem photovoltaic device and method of formation thereof are also provided.

Some embodiments include a semiconductor device. The semiconductor device includes a transistor having a gate metal layer, a transistor composite active layer, and one or more contact elements over the transistor composite active layer. The transistor composite active layer includes a first active layer and a second active layer, the first active layer is over the gate metal layer, and the second active layer is over the first active layer. Meanwhile, the semiconductor device also includes one or more semiconductor elements forming a diode over the transistor. The semiconductor element(s) have an N-type layer over the transistor, an I layer over the N-type layer, and a P-type layer over the I layer. Other embodiments of related systems and methods are also disclosed.