WO/2015/040738 DYE-SENSITIZED SOLAR CELL POROUS FILM AND DYE-SENSITIZED SOLAR CELL||WO||26.03.2015|
||PCT/JP2013/075476||SEKISUI CHEMICAL CO., LTD.||KUNUGI Shunsuke|
A dye-sensitized solar cell
porous film is characterized by being a porous film made of titanium oxide formed on a film substrate and having a critical load of 8 mN or more or a pencil hardness of H or more, said pencil hardness conforming to Japan Industrial Standard (JIS) K5600-5-4 "Testing methods for paints-Part 5: Mechanical property of film-Section 4: Scratch hardness (Pencil method)".
WO/2015/040780 SOLAR CELL AND SOLAR CELL MODULE||WO||26.03.2015|
||PCT/JP2014/003952||PANASONIC INTELLECTUAL PROPERTY MANAGEMENT CO., LTD.||HAYASHI, Naofumi|
A solar cell
(70) is provided with: a base substrate (10) having a main surface; a first conductivity layer (12n) provided in a first region (W1) on the main surface; a second conductivity layer (13p) provided in a second region (W2) on the main surface, said second region differing from said first region (W1); n-side electrodes (14) provided on the first conductivity layer (12n); p-side electrodes (15) provided on the second conductivity layer (13p); and channels (31, 32) for separating the n-side electrodes (14) from the p-side electrodes (15). The main surface has an outer region (C1) provided along an outer edge of the main surface and an inner region (C2) provided to the interior of the outer region (C1), and the channels (31, 32) are provided so as to have a greater width (W51, W52) in the outer region (C1) than in the inner region (C2), the width being measured in the direction in which the n-side electrodes (14) and p-side electrodes (15) separate.
WO/2015/041444 SOLAR CELL||WO||26.03.2015|
||PCT/KR2014/008616||LG INNOTEK CO., LTD.||CHO, Ho Gun|
A solar cell
according to one embodiment comprises: a support substrate; a rear electrode layer disposed on the support substrate; a light absorption layer disposed on the rear electrode layer; a buffer layer disposed on the light absorption layer; and a front electrode layer disposed on the buffer layer, wherein the rear electrode layer has a first through hole passing therethrough, and the first through hole has an area of approximately 50% or less of the total area of the rear electrode layer.
WO/2015/041466 SOLAR BATTERY MODULE||WO||26.03.2015|
||PCT/KR2014/008661||LG INNOTEK CO., LTD.||KANG, Kyung Ho|
A solar battery
module according to one embodiment comprises: a support substrate having a through-hole formed therein; a plurality of solar battery
cells arranged on the support substrate; a busbar which is electrically connected to the solar battery
cells; a first connection member which is inserted in the through-hole; and a second connection member which is connected to the first connection member, wherein the second connection member comprises a contact member that contacts the busbar through the through-hole.
WO/2015/041470 SOLAR CELL||WO||26.03.2015|
||PCT/KR2014/008665||LG INNOTEK CO., LTD.||JANG, Jung In|
A solar cell
, according to an embodiment, comprises: a support substrate; a rear electrode layer formed on the support substrate; a light-absorbing layer formed on the rear electrode layer; a first buffer layer formed on the light-absorbing layer; a second buffer layer formed on the first buffer layer; and a front electrode layer formed on the second buffer layer, wherein at least one of a second buffer layer or the front electrode layer includes elements of group 13.
WO/2015/039185 MODULAR UNIT FOR ATTACHMENT TO SOLAR PANEL||WO||26.03.2015|
||PCT/AU2014/050233||WEBB, Roger||WEBB, Roger|
A modular unit attached to a solar panel
. The modular unit comprises a heat exchanger having an inlet manifold and an outlet manifold and a plurality of spaced apart galleries extending there between, a plurality of thermoelectric modules disposed between the galleries and a plurality of heat sink tiles, the thermoelectric modules bonded to the heat sink tiles and clamped into abutment with the galleries. In use the modular unit is attached to the solar panel
by bonding said heat sink tiles to said solar panel
WO/2015/039184 SYSTEM AND APPARATUS FOR GENERATING ELECTRICITY||WO||26.03.2015|
||PCT/AU2014/050232||WEBB, Roger||WEBB, Roger|
An apparatus for generating electricity comprises at least one solar panel
, a plurality of thermoelectric modules, and a first heat exchanger. The thermoelectric modules are disposed between the rear of the solar panel
and the first heat exchanger, and the first heat exchanger is connected to a circulation system which allows coolant to flow through the first heat exchanger. Each of the thermoelectric modules having a first side in direct contact with the rear of the solar panel
and an opposite second side in contact with the first heat exchanger.
WO/2015/042524 THIN-FILM PHOTOVOLTAIC DEVICES WITH DISCONTINUOUS PASSIVATION LAYERS||WO||26.03.2015|
||PCT/US2014/056771||SIVA POWER, INC.||BECK, Markus, E.|
In various embodiments, photovoltaic
devices incorporate discontinuous passivation layers (i) disposed between a thin-film absorber layer and a partner layer, (ii) disposed between the partner layer and a front contact layer, and/or (iii) disposed between a back contact layer and the thin-film absorber layer.
WO/2015/041437 SOLAR BATTERY MODULE||WO||26.03.2015|
||PCT/KR2014/008599||LG INNOTEK CO., LTD.||KANG, Kyung Ho|
A solar battery
according to one embodiment comprises: a support substrate; a plurality of solar battery
cells formed on the upper surface of the support substrate; a busbar which is electrically connected to the solar battery
cells; and a cover member which covers the busbar, wherein the busbar extends along the edge of the upper surface of the support substrate to the edge of the lower surface of the support substrate.
WO/2015/042400 NANO-STRUCTURED MULTI-JUNCTION PHOTOVOLTAIC DEVICES||WO||26.03.2015|
||PCT/US2014/056558||ZENA TECHNOLOGIES, INC.||YU, Young-June|
A device operable to convert light to electricity, comprising: a substrate comprising a semiconductor material, one or more structures essentially perpendicular to the substrate, one or more layers conformally disposed on the one or more structures wherein the one or more structures and the one or more layers form one or more junctions, and an electrically conductive material disposed on the substrate in the area between the one or more structures.