摘要:
A method for manufacturing a see-through solar battery module includes disposing a first mask above a transparent substrate, forming a plurality of metal electrode layers alternately arranged on the transparent substrate, disposing a second mask above the transparent substrate, forming a photoelectric transducing layer on each metal electrode layer by the second mask, removing a part of each photoelectric transducing layer along a first direction to expose a part of each metal electrode layer, forming a transparent electrode layer on each photoelectric transducing layer and each metal electrode layer, and removing a part of each transparent electrode layer and a part of each photoelectric transducing layer to expose a part of each metal electrode layer so as to make the plurality of metal electrode layers and the transparent electrode layer in series connection along a second direction respectively.
摘要:
A method for manufacturing a see-through solar battery module includes disposing a first mask above a transparent substrate, forming a plurality of metal electrode layers alternately arranged on the transparent substrate, disposing a second mask above the transparent substrate, forming a photoelectric transducing layer on each metal electrode layer by the second mask, removing a part of each photoelectric transducing layer along a first direction to expose a part of each metal electrode layer, forming a transparent electrode layer on each photoelectric transducing layer and each metal electrode layer, and removing a part of each transparent electrode layer and a part of each photoelectric transducing layer to expose a part of each metal electrode layer so as to make the plurality of metal electrode layers and the transparent electrode layer in series connection along a second direction respectively.
摘要:
A substrate carrier is used for carrying a plurality of back electrode substrates into a furnace. Each back electrode substrate has a precursor layer formed thereon. The furnace is used for providing a process gas to react with the precursor layer, so as to form a photoelectric transducing layer on each back electrode substrate. The substrate carrier includes a heat-resistant metal frame and a first protective layer. The heat-resistant metal frame has a plurality of slots for supporting the plurality of back electrode substrates. The first protective layer is formed on the heat-resistant metal frame for preventing a chemical reaction of the heat-resistant metal frame with the process gas.
摘要:
A see-through solar battery module includes a transparent substrate, and a plurality of block metal electrodes formed on the transparent substrate as an array. Each block metal electrode does not contact the adjacent block metal electrode along a first direction. The see-through solar battery module further includes a plurality of block photoelectric transducing layers. Each block photoelectric transducing layer is formed on the block metal electrode and the transparent substrate along the first direction and formed on the block metal electrode and the transparent substrate along a second direction as an array, and each block photoelectric transducing layer does not contact the adjacent block photoelectric transducing layer along the first direction. The see-through solar battery module further includes a plurality of striped transparent electrodes. Each striped transparent electrode is formed on the block photoelectric transducing layer, the transparent substrate, and the block metal electrode along the second direction.
摘要:
A see-through solar battery module includes a transparent substrate, and a plurality of first block electrodes, and each first block electrode does not contact the adjacent first block electrode along a first direction. The see-through solar battery module further includes a plurality of block photoelectric transducing layers, each block photoelectric transducing layer is formed on the corresponding first block electrode along the first direction and formed on the corresponding first block electrode and the transparent substrate along a second direction as an array, and each block photoelectric transducing layer does not contact the adjacent block photoelectric transducing layer along the first direction. The see-through solar battery module further includes a plurality of second block electrodes. Each second block electrode is formed on the block photoelectric transducing layer along the first direction and formed on the block photoelectric transducing layer and the first block electrode along the second direction.
摘要:
A see-through solar battery module includes a transparent substrate, a plurality of striped metal electrodes formed on the transparent substrate along a first direction, and a plurality of striped photoelectric transducing layers respectively formed on the corresponding striped metal electrode and the transparent substrate along the first direction. Two lateral sides of each striped photoelectric transducing layer do not contact the transparent substrate. The see-through solar battery module further includes a plurality of striped transparent electrodes respectively formed on the transparent substrate, the corresponding striped metal electrode, and the corresponding striped photoelectric transducing layer along the first direction, so that the plurality of striped metal electrodes and the plurality of striped transparent electrodes are in series connection along a second direction.
摘要:
A see-through solar battery module includes a transparent substrate, a plurality of striped metal electrodes formed on the transparent substrate along a first direction, and a plurality of striped photoelectric transducing layers respectively formed on the corresponding striped metal electrodes and the transparent substrate along the first direction. A side of each striped photoelectric transducing layer is formed on the transparent substrate and not contacting the adjacent striped metal electrode. The see-through solar battery module further includes a plurality of striped transparent electrodes respectively formed on the transparent substrate, the corresponding striped metal electrodes, and the corresponding striped photoelectric transducing layers along the first direction, so that the plurality of striped metal electrodes and the plurality of striped transparent electrodes are in series connection along a second direction different from the first direction.
摘要:
A solar tile structure includes a base, a first hook structure disposed on a first side of the base, a second hook structure dispose on a second side of the base opposite to the first side for engaging with a hook structure of an adjacent solar tile structure so as to constrain the relative movement of the base and the adjacent solar tile structure, a first slot structure disposed on a third side of the base different from the first side for draining water from the base, and a second slot structure disposed on a fourth side of the base opposite to the third side for engaging with a slot structure of other adjacent solar tile structure so as to constrain the relative movement of the base and the other adjacent solar tile structure. A combination of solar tile structures is also provided.
摘要:
A chemical bath deposition system is used for forming a buffer layer and a ZnO window layer on a back electrode substrate having a photoelectric transducing layer. The chemical bath deposition system includes a first bath tank and a second bath tank. The first bath tank is used for storing a buffer-layer solution. The buffer-layer solution forms the buffer layer on the photoelectric transducing layer when the back electrode substrate is immersed in the buffer-layer solution. The second bath tank is for storing a window-layer solution. The window-layer solution forms the ZnO window layer on the buffer layer when the back electrode substrate is immersed in the window-layer solution. The first bath tank and the second bath tank are in an in-line arrangement.