The present disclosure provides a passivation contact structure for a solar cell and a manufacturing method therefor and a solar cell using the passivation contact structure. The passivation contact structure comprises a tunnel layer; a transparent conductive film, located on the tunnel layer and in contact with the tunnel layer; a cover layer, located on the transparent conductive film; and a metal electrode, passing through the cover layer to be in contact with the transparent conductive film, the end surface of metal electrode being located in the transparent conductive film. According to the passivation contact structure for the solar cell, the manufacturing method therefor, and the solar cell using the passivation structure of the present disclosure, both electricity conducting and passivation effects can be achieved, and the effect of reducing the loss of light absorption can also be achieved.

A method for concentrated photovoltaic-thermal power generation includes converting a first portion of concentrated sunlight into electrical power when the first portion of concentrated sunlight illuminates an array of photovoltaic cells; and thermally coupling heat generated by the photovoltaic cells into a heat transfer plate. The method also includes cooling the heat transfer plate by flowing heat transfer fluid through an internal path of a cooling block in direct thermal contact with the heat transfer plate; and flowing the heat transfer fluid through a helical tube to absorb thermal energy from a second portion of concentrated sunlight illuminating the helical tube.

A display substrate, a display device and a remote control system are provided in order to solve a problem that the existing touch technology is not capable of touching and controlling accurately any region in the display device distant from a user. The display substrate comprises a base substrate, color filters located on the base substrate and at least one optical recognition structure which is located at least partially in non-display regions of the display substrate and is configured to sense an irradiation of a predefined light beam to generate a voltage signal and transmit the voltage signal to an external circuit through a signal line connected to the optical recognition structure.

A display substrate, a display device and a remote control system are provided in order to solve a problem that the existing touch technology is not capable of touching and controlling accurately any region in the display device distant from a user. The display substrate comprises a base substrate, color filters located on the base substrate and at least one optical recognition structure which is located at least partially in non-display regions of the display substrate and is configured to sense an irradiation of a predefined light beam to generate a voltage signal and transmit the voltage signal to an external circuit through a signal line connected to the optical recognition structure.

The present invention provides a method for enhancing the efficiency of a photovoltaic module by subjecting it to extremely-low-frequency (ELF) electromagnetic radiation (EMR). The ELF EMR can be provided by a plurality of identical Jacob's ladders and the traveling arcs generated thereby. Alternatively, the ELF EMR can be provided by passing the photovoltaic module over an array of quartz discharge tubes in which arcs are generated between pairs of tungsten electrodes. The photovoltaic module is subjected to multiple passes in order to provide an optimum level of enhancement to the module.

The present invention provides a method for enhancing the efficiency of a photovoltaic module by subjecting it to extremely-low-frequency (ELF) electromagnetic radiation (EMR). The ELF EMR can be provided by a plurality of identical Jacob's ladders and the traveling arcs generated thereby. Alternatively, the ELF EMR can be provided by passing the photovoltaic module over an array of quartz discharge tubes in which arcs are generated between pairs of tungsten electrodes. The photovoltaic module is subjected to multiple passes in order to provide an optimum level of enhancement to the module.

A multijunction solar cell includes an InGaAs buffer layer and an InGaAlAs grading interlayer disposed below, and adjacent to, the InGaAs buffer layer. The grading interlayer achieves a transition in lattice constant from one solar subcell to another solar subcell.

A multijunction solar cell includes an InGaAs buffer layer and an InGaAlAs grading interlayer disposed below, and adjacent to, the InGaAs buffer layer. The grading interlayer achieves a transition in lattice constant from one solar subcell to another solar subcell.

An emission enhancement structure having at least one energy augmentation structure; and an energy converter capable of receiving energy from an energy source, converting the energy and emitting therefrom a light of a different energy than the received energy. The energy converter is disposed in a vicinity of the at least one energy augmentation structure such that the emitted light is emitted with an intensity larger than if the converter were remote from the at least one energy augmentation structure. Also described are various uses for the energy emitters, energy augmentation structures and energy collectors in a wide array of fields, particularly medical uses for treatment of cell proliferation disorders.

An emission enhancement structure having at least one energy augmentation structure; and an energy converter capable of receiving energy from an energy source, converting the energy and emitting therefrom a light of a different energy than the received energy. The energy converter is disposed in a vicinity of the at least one energy augmentation structure such that the emitted light is emitted with an intensity larger than if the converter were remote from the at least one energy augmentation structure. Also described are various uses for the energy emitters, energy augmentation structures and energy collectors in a wide array of fields, particularly medical uses for treatment of cell proliferation disorders.