A photodiode includes a semiconductor substrate, a crystalline layer on the semiconductor substrate, an insulating pattern layer on the crystalline layer to define a plurality of holes exposing a top surface of the crystalline layer, a seed layer in the plurality of holes and directly on the crystalline layer, and a light absorption layer on the seed layer and the insulating pattern layer.

The present disclosure provides a photovoltaic module. In an embodiment, the photovoltaic module includes a photovoltaic cell, and a layer composed of a film. The film includes a silane-grafted polyolefin (Si-g-PO) resin composition comprising (i) one or more silane grafted polyolefins and (ii) from greater than 0 wt % to less than 5.0 wt % of a micronized silica gel, based on the total weight of the Si-g-PO resin composition. The film has a glass adhesion greater than or equal to 15 N/mm after aging the film at 40° C. and 0% relative humidity for 60 days as measured in accordance with ASTM F88/88M-09.

An electromagnetic radiation sensing system, comprising sensing elements (604, 605, 606) and a Fresnel lens system for converging electromagnetic radiation; the sensing elements (604, 605, 606) are used to sense the electromagnetic radiation converged by the Fresnel lens system; the Fresnel lens system comprises at least two toothed faces (601, 602, 603) located on the same light path, each of the tooth faces comprising at least one Fresnel unit; at least one of the two toothed faces is a complex Fresnel refraction surface or a filled Fresnel refraction surface, or the two tooth faces are at a same physical interface and an element located thereon has a reflective back surface. The electromagnetic radiation sensing system can adequately utilize the advantage of the thinness of a Fresnel lens, and has better convergence without a significant increase in the thickness of the system, thus facilitating reducing of the size of a device and improving of the system performance.

Embodiments disclosed herein enable assembly of a solar power cable harness to be completed in a more consistent and efficient manner than known methods of assembly.

A system comprising a structure (1) defining a volume for containing or receiving a body of water. The system further comprises a solar energy system for heating a body of water. The system comprises a solar radiation receiving unit (2) configured to receive solar radiation and configured to convert said solar radiation into heat energy. The system also comprises a barrier means (3) of varying solar radiation transmittance arranged over said solar radiation receiving unit (2). The barrier means (3) is configured to varyingly control the solar radiation receivable by said solar radiation receiving unit (2).

Dopant ink compositions and methods of fabricating solar cells there from are described. A dopant ink composition may include a cross-linkable matrix precursor, a bound dopant species, and a solvent. A method of fabricating a solar cell may include delivering a dopant ink composition to a region above a substrate. The dopant ink composition includes a cross-linkable matrix precursor, a bound dopant species, and a solvent. The method also includes baking the dopant ink composition to remove a substantial portion of the solvent of the dopant ink composition, curing the baked dopant ink composition to cross-link a substantial portion of the cross-linkable matrix precursor of the dopant ink composition, and driving dopants from the cured dopant ink composition toward the substrate.

Embodiments relate to an enhanced method for installing solar roofs by primarily reducing the installation time. The design is for a roofing shingle with an embedded solar module that installs intuitively like normal roofing shingles without special tools, fasteners or alignment. The shingle structure is molded out of low thermal expansion plastic composite and is compatible with commercial photovoltaic modules as well as solar infrared radiation absorbing devices.

A light absorption apparatus includes a substrate, a light absorption layer above the substrate on a first selected area, a silicon layer above the light absorption layer, a spacer surrounding at least part of the sidewall of the light absorption layer, an isolation layer surrounding at least part of the spacer, wherein the light absorption apparatus can achieve high bandwidth and low dark current.

An apparatus, system, and method of collecting solar energy having a variable position for optimizing sunlight collection and for use in a heating and/or cooling system. The system includes a solar collector apparatus, a collector support frame assembly, a sun position tracking apparatus, a fluid transfer pump, a fluid storage tank, an insulated pipe for connecting the fluid pump to the storage tank and the solar collector, a differential temperature controller, and a safety override relay controller. The system includes a cross-linked polyethylene (PEX) tubing having an aluminum welded tube as reinforcement and method of making PEX tubing having an inner PEX layer and an outer polyethylene layer with an intermediate aluminum tube enveloped by adhesive layers for joining the inner and outer polyethylene layers with the aluminum tube. Carbon black particles are included in the outer layer of polyethylene material.

An optical sensor module includes: (1) a lid defining a first chamber and a second chamber isolated from the first chamber; (2) a light emitting component disposed within the first chamber; and (3) a light sensing component disposed within the second chamber; wherein the lid includes a capping substrate and a top of the first chamber and a top of the second chamber are demarcated by the capping substrate, wherein the capping substrate defines a first penetrating hole at the top of the first chamber and a first runner connecting a side wall of the first penetrating hole, and wherein a first lens or a first transmissive panel is formed or disposed in the first penetrating hole and has an extension formed or disposed in the first runner connecting the side wall of the first penetrating hole.