摘要:
Embodiments of the invention contemplate the formation of a high efficiency solar cell using novel methods to form the active doped region(s) and the metal contact structure of the solar cell device. In one embodiment, the methods include the steps of depositing a dielectric material that is used to define the boundaries of the active regions and/or contact structure of a solar cell device. Various techniques may be used to form the active regions of the solar cell and the metal contact structure.
摘要:
Embodiments of the invention contemplate the formation of a high efficiency solar cell using a novel processing sequence to form a solar cell device. In one embodiment, the methods include forming a doping layer on a back surface of a substrate, heating the doping layer and substrate to cause the doping layer diffuse into the back surface of the substrate, texturing a front surface of the substrate after heating the doping layer and the substrate, forming a dielectric layer on the back surface of the substrate, removing portions of the dielectric layer from the back surface to from a plurality of exposed regions of the substrate, and depositing a metal layer over the back surface of the substrate, wherein the metal layer is in electrical communication with at least one of the plurality of exposed regions on the substrate, and at least one of the exposed regions has dopant atoms provided from the doping layer.
摘要:
A semiconductor metallization process for providing complete via fill on a substrate, free of voids, and a planar metal surface, free of grooves. In one aspect, a refractory layer is deposited onto a substrate having high aspect ratio contacts or vias formed thereon. A conformal PVD metal layer, such as Al or Cu, is then deposited onto the refractory layer at a pressure below about 1 milliTorr. The vias and/or contacts are then filled with metal, such as by reflowing additional metal deposited by physical vapor deposition on the conformal PVD metal layer. The process is preferably performed in an integrated processing system that includes a long throw PVD chamber, wherein a target and a substrate are separated by at least 100 mm, and a hot metal PVD chamber, also serving as a reflow chamber.
摘要:
Embodiments of the invention contemplate the formation of a high efficiency solar cell using novel methods to form the active doped region(s) and the metal contact structure of the solar cell device. In one embodiment, the methods include the steps of depositing a dielectric material that is used to define the boundaries of the active regions and/or contact structure of a solar cell device. Various techniques may be used to form the active regions of the solar cell and the metal contact structure.
摘要:
Embodiments of the invention contemplate the formation of a high efficiency solar cell using a novel processing sequence to form a solar cell device. In one embodiment, the methods include forming a doping layer on a back surface of a substrate, heating the doping layer and substrate to cause the doping layer diffuse into the back surface of the substrate, texturing a front surface of the substrate after heating the doping layer and the substrate, forming a dielectric layer on the back surface of the substrate, removing portions of the dielectric layer from the back surface to from a plurality of exposed regions of the substrate, and depositing a metal layer over the back surface of the substrate, wherein the metal layer is in electrical communication with at least one of the plurality of exposed regions on the substrate, and at least one of the exposed regions has dopant atoms provided from the doping layer.
摘要:
Embodiments as described herein provide a method for depositing barrier layers and tungsten materials on substrates. In one embodiment, a method for depositing materials is provided which includes forming a barrier layer on a substrate, wherein the barrier layer contains a cobalt silicide layer and a metallic cobalt layer, exposing the barrier layer to a soak gas containing a reducing gas during a soak process, and forming a tungsten material over the barrier layer. In one example, the barrier layer may be formed by depositing a cobalt-containing material on a dielectric surface of the substrate and annealing the substrate to form the cobalt silicide layer from a lower portion of the cobalt-containing material and the metallic cobalt layer from an upper portion of the cobalt-containing material.
摘要:
Embodiments are provided for a method to deposit barrier and tungsten materials on a substrate. In one embodiment, a method provides forming a barrier layer on a substrate and exposing the substrate to a silane gas to form a thin silicon-containing layer on the barrier layer during a soak process. The method further provides depositing a tungsten nucleation layer over the barrier layer and the thin silicon-containing layer during an atomic layer deposition process and depositing a tungsten bulk layer on the tungsten nucleation layer during a chemical vapor deposition process. In some examples, the barrier layer contains metallic cobalt and cobalt silicide, or metallic nickel and nickel silicide. In other examples, the barrier layer contains metallic titanium and titanium nitride, or metallic tantalum and tantalum nitride.
摘要:
Methods and apparatus are provided for forming a metal or metal silicide barrier layer. In one aspect, a method is provided for processing a substrate including positioning a substrate having a silicon material disposed thereon in a substrate processing system, depositing a first metal layer on the substrate surface in a first processing chamber, forming a metal silicide layer by reacting the silicon material and the first metal layer, and depositing a second metal layer in situ on the substrate in a second processing chamber. In another aspect, the method is performed in an apparatus including a load lock chamber, the intermediate substrate transfer region including a first substrate transfer chamber and a second substrate transfer chamber, a physical vapor deposition processing chamber coupled to the first substrate transfer chamber, and a chemical vapor deposition chamber coupled to the second substrate transfer chamber.
摘要:
Embodiments of the invention generally provide a high efficiency solar cell using a novel processing sequence to form a solar cell device. In one embodiment, the methods include forming one or more layers on a backside of a solar cell substrate prior to the texturing process to prevent attack of the backside surface of the substrate. In one embodiment, the one or more layers are a metalized backside contact structure that is formed on the backside of the solar cell substrate. In another embodiment, the one or more layers are a chemical resistant dielectric layer that is formed over the backside of the solar cell substrate.
摘要:
Embodiments of the invention contemplate the formation of a high efficiency solar cell using novel methods to form the active doped region(s) and the metal contact structure of the solar cell device. In one embodiment, the methods include the steps of depositing a dielectric material that is used to define the boundaries of the active regions and/or contact structure of a solar cell device. Various techniques may be used to form the active regions of the solar cell and the metal contact structure.