Abstract: Processing equipment for the metallization of a plurality of workpieces are provided. The equipment comprising a controlled atmospheric region isolated from external oxidizing ambient with at least one deposition zone for the application of a metal layer on a workpiece. A transport system moves the workpiece positioned in a batch carrier plate through the controlled atmospheric region.
Abstract: Various laser processing schemes are disclosed for producing various types of hetero-junction and homo-junction solar cells. The methods include base and emitter contact opening, selective doping, metal ablation, annealing to improve passivation, and selective emitter doping via laser heating of aluminum. Also, laser processing schemes are disclosed that are suitable for selective amorphous silicon ablation and selective doping for hetero-junction solar cells. Laser ablation techniques are disclosed that leave the underlying silicon substantially undamaged. These laser processing techniques may be applied to semiconductor substrates, including crystalline silicon substrates, and further including crystalline silicon substrates which are manufactured either through wire saw wafering methods or via epitaxial deposition processes, or other cleavage techniques such as ion implantation and heating, that are either planar or textured/three-dimensional.
Type:
Grant
Filed:
December 30, 2011
Date of Patent:
January 28, 2014
Assignee:
Solexel, Inc.
Inventors:
Mehrdad M. Moslehi, Virendra V. Rana, Pranav Anbalagan, Vivek Saraswat
Abstract: Methods for improving the light trapping characteristics of crystalline silicon solar cells are provided. In one embodiment, the backside surface of a crystalline silicon solar cell substrate is textured with a pulsed laser beam. The textured backside surface of the crystalline silicon solar cell substrate is then annealed to remove damage from the laser texturization process.
Abstract: A front contact thin-film solar cell is formed on a thin-film silicon solar cell. Emitter regions, selective emitter regions, and a back surface field are formed through ion implantation processes. In one embodiment, front contact thin-film solar cell is formed on a thin-film silicon solar cell. Emitter regions, selective emitter regions, base regions, and a back surface field are formed through ion implantation processes.
Type:
Application
Filed:
November 28, 2012
Publication date:
December 12, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Virendra V. Rana, Pawan Kapur, Mehrdad M. Moslehi
Abstract: A three-dimensional thin-film semiconductor substrate with selective through-holes is provided. The substrate having an inverted pyramidal structure comprising selectively formed through-holes positioned between the front and back lateral surface planes of the semiconductor substrate to form a partially transparent three-dimensional thin-film semiconductor substrate.
Abstract: A method is presented for fabrication of a three-dimensional thin-film solar cell semiconductor substrate from a template. A semiconductor template having three-dimensional surface features comprising a top surfaces substantially aligned along a (100) crystallographic plane of semiconductor template and a plurality of inverted pyramidal cavities defined by sidewalls substantially aligned along a (111) crystallographic plane is formed according to an anisotropic etching process. A dose of relatively of high energy light-mass species is implanted in the template at a uniform depth and parallel to the top surfaces and said sidewalls defining the inverted pyramidal cavities of the template. The semiconductor template is annealed to convert the dose of relatively of high energy light-mass species to a mechanically-weak-thin layer. The semiconductor template is cleaved along the mechanically-weak-thin layer to release a three-dimensional thin-film semiconductor substrate from the semiconductor template.
Abstract: Methods and structures for fabricating photovoltaic back contact solar cells having multi-level metallization using laser via drilling end point detection are provided.
Abstract: A three-dimensional solar cell comprising a semiconductor substrate with an inverted pyramidal cavity, emitter metallization regions on ridges on the surface of the semiconductor substrate which define an opening of the inverted pyramidal cavity, and base metallization regions on a region which form the apex of the inverted pyramidal cavity. A method for fabricating a three-dimensional thin-film solar cell from an inverted pyramidal three-dimensional thin-film silicon substrate by doping ridges on the surface of the semiconductor substrate which define an opening of an inverted pyramidal cavity on the substrate to form an emitter region, and doping a region which forms the apex of the inverted pyramidal cavity to form a base region. Adding a surface passivation layer to the surface of the substrate. Selectively etching the passivation layer from the emitter region and base region. Then concurrently metallizing the emitter region and base region.
Abstract: The present disclosure relates to methods for selectively etching a porous semiconductor layer to separate a thin-film semiconductor substrate (TFSS) having planar or three-dimensional features from a corresponding semiconductor template. The method involves forming a conformal sacrificial porous semiconductor layer on a template. Next, a conformal thin film silicon substrate is formed on top of the porous silicon layer. The middle porous silicon layer is then selectively etched to separate the TFSS and semiconductor template. The disclosed advanced etching chemistries and etching methods achieve selective etching with minimal damage to the TFSS and template.
Type:
Application
Filed:
October 22, 2012
Publication date:
October 24, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Rafael Ricolcol, Joe Kramer, David Xuan-Qi Wang, Mehrdad M. Moslehi
Abstract: A method for the fabrication of a three-dimensional thin-film semiconductor substrate with selective through-holes is provided. A porous semiconductor layer is conformally formed on a semiconductor template comprising a plurality of three-dimensional inverted pyramidal surface features defined by top surface areas aligned along a (100) crystallographic orientation plane of the semiconductor template and a plurality of inverted pyramidal cavities defined by sidewalls aligned along the (111) crystallographic orientation plane of the semiconductor template. An epitaxial semiconductor layer is conformally formed on the porous semiconductor layer. The epitaxial semiconductor layer is released from the semiconductor template. Through-holes are selectively formed in the epitaxial semiconductor layer with openings between the front and back lateral surface planes of the epitaxial semiconductor layer to form a partially transparent three-dimensional thin-film semiconductor substrate.
Abstract: A structure and method operable to create a reusable template for detachable thin semiconductor substrates is provided. The template has a shape such that the 3-D shape is substantially retained after each substrate release. Prior art reusable templates may have a tendency to change shape after each subsequent reuse; the present disclosure aims to address this and other deficiencies from the prior art, therefore increasing the reuse life of the template.
Type:
Application
Filed:
May 17, 2013
Publication date:
September 19, 2013
Applicant:
Solexel, Inc.
Inventors:
Suketu Parikh, David Dutton, Pawan Kapur, Somnath Nag, Mehrdad M. Moslehi, Karl-Josef Kramer, Nevran Ozguven, Burcu Ucok
Abstract: A back contact back junction solar cell using semiconductor wafers and methods for manufacturing are provided. The back contact back junction solar cell comprises a semiconductor wafer having a doped base region, a light capturing frontside surface, and a doped backside emitter region. A frontside and backside dielectric layer and passivation layer provide enhance light trapping and internal reflection. Backside base and emitter contacts are connected to metal interconnects forming a metallization pattern of interdigitated fingers and busbars on the backside of the solar cell.
Type:
Application
Filed:
December 9, 2010
Publication date:
September 12, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Mehrdad M Moslehi, Pawan Kapur, Karl-Josef Kramer, David Xuan-Qi Wang, Sean Seutter, Virenda V Rana, Anthony Calcaterra, Emmanuel Van Kerschaver, Duncan Harwood, Majid Mansoori, Michael Wingert
Abstract: Fabrication methods and structures relating to multi-level metallization for solar cells as well as fabrication methods and structures for forming back contact solar cells are provided.
Type:
Application
Filed:
April 24, 2013
Publication date:
September 5, 2013
Applicant:
Solexel, Inc.
Inventors:
Mehrdad M. Moslehi, Pawan Kapur, Karl-Josef Kramer
Abstract: Fabrication methods and structures relating to multi-level metallization for solar cells as well as fabrication methods and structures for forming back contact solar cells are provided.
Abstract: Methods here disclosed provide for selectively coating the top surfaces or ridges of a 3-D substrate while avoiding liquid coating material wicking into micro cavities on 3-D substrates. The substrate includes holes formed in a three-dimensional substrate by forming a sacrificial layer on a template. The template includes a template substrate with posts and trenches between the posts. The steps include subsequently depositing a semiconductor layer and selectively etching the sacrificial layer. Then, the steps include releasing the semiconductor layer from the template and coating the 3-D substrate using a liquid transfer coating step for applying a liquid coating material to a surface of the 3-D substrate. The method may further include coating the 3-D substrate by selectively coating the top ridges or surfaces of the substrate.
Type:
Grant
Filed:
August 18, 2008
Date of Patent:
August 20, 2013
Assignee:
Solexel, Inc.
Inventors:
David Xuan-Qi Wang, Mehrdad M. Moslehi, Somnath Nag
Abstract: A back contact back junction thin-film solar cell is formed on a thin-film semiconductor solar cell. Preferably the thin film semiconductor material comprises crystalline silicon. Emitter regions, selective emitter regions, and a back surface field are formed through ion implantation and annealing processes.
Abstract: This disclosure presents manufacturing methods and apparatus designs for making TFSSs from both sides of a re-usable semiconductor template, thus effectively increasing the substrate manufacturing throughput and reducing the substrate manufacturing cost. This approach also reduces the amortized starting template cost per manufactured substrate (TFSS) by about a factor of 2 for a given number of template reuse cycles.
Type:
Application
Filed:
July 20, 2012
Publication date:
July 4, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Mehrdad M. Moslehi, Karl-Josef Kramer, David Xuan-Qi Wang, Pawan Kapur, Somnath Nag, George D. Kamian, Jay Ashjaee, Takao Yonehara
Abstract: A three-dimensional thin-film solar cell 100, comprising a three-dimensional thin-film solar cell substrate comprising a plurality of single-aperture or dual-aperture unit cells with emitter junction regions 522 and doped base regions 530, emitter metallization regions 525 and base metallization regions 532. Optionally, the three-dimensional thin-film solar cell may be mounted on a rear mirror for improved light trapping and conversion efficiency.
Abstract: Back contact back junction three dimensional solar cell and methods for manufacturing are provided. The back contact back contact back junction three dimensional solar cell comprises a three-dimensional substrate. The substrate comprises a light capturing frontside surface with a passivation layer, a doped base region, and a doped backside emitter region with a polarity opposite the doped base region. A backside passivation layer is positioned on the doped backside emitter region. Backside emitter contacts and backside base contacts connected to metal interconnects and selectively formed on three-dimensional features of the backside of three-dimensional solar cell.
Type:
Application
Filed:
December 9, 2010
Publication date:
July 4, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Mehrdad M. Moslehi, Pawan Kapur, Karl-Josef Kramer, David Xuan-Qi Wang, Sean M. Seutter, Virenda V. Rana
Abstract: Various laser processing schemes are disclosed for producing various types of hetero-junction and homo-junction solar cells. The methods include base and emitter contact opening, selective doping, metal ablation, annealing to improve passivation, and selective emitter doping via laser heating of aluminum. Also, laser processing schemes are disclosed that are suitable for selective amorphous silicon ablation and selective doping for hetero-junction solar cells. Laser ablation techniques are disclosed that leave the underlying silicon substantially undamaged. These laser processing techniques may be applied to semiconductor substrates, including crystalline silicon substrates, and further including crystalline silicon substrates which are manufactured either through wire saw wafering methods or via epitaxial deposition processes, or other cleavage techniques such as ion implantation and heating, that are either planar or textured/three-dimensional.
Type:
Application
Filed:
November 23, 2011
Publication date:
June 27, 2013
Applicant:
SOLEXEL, INC.
Inventors:
Mehrdad M. Moslehi, Virendra V. Rana, Sean M. Seutter, Anand Deshpande