Patent application number | Description | Published |
20100267245 | HIGH EFFICIENCY EPITAXIAL CHEMICAL VAPOR DEPOSITION (CVD) REACTOR - The present disclosure presents a chemical vapor deposition reactor having improved chemical utilization and cost efficiency. The wafer susceptors of the present disclosure may be used in a stackable configuration for processing many wafers simultaneously. The reactors of the present disclosure may be reverse-flow depletion mode reactors, which tends to provide uniform film thickness and a high degree of chemical utilization. | 10-21-2010 |
20110030610 | HIGH-PRODUCTIVITY POROUS SEMICONDUCTOR MANUFACTURING EQUIPMENT - This disclosure enables high-productivity fabrication of semiconductor-based separation layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers), optical reflectors (made of multi-layer/multi-porosity porous semiconductors such as porous silicon), formation of porous semiconductor (such as porous silicon) for anti-reflection coatings, passivation layers, and multi-junction, multi-band-gap solar cells (for instance, by forming a variable band gap porous silicon emitter on a crystalline silicon thin film or wafer-based solar cell). Other applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further the disclosure is applicable to the general fields of Photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics. | 02-10-2011 |
20110120882 | POROUS SILICON ELECTRO-ETCHING SYSTEM AND METHOD - It is an object of this disclosure to provide high productivity, low cost-of-ownership manufacturing equipment for the high volume production of photovoltaic (PV) solar cell device architecture. It is a further object of this disclosure to reduce material processing steps and material cost compared to existing technologies by using gas-phase source silicon. The present disclosure teaches the fabrication of a sacrificial substrate base layer that is compatible with a gas-phase substrate growth process. Porous silicon is used as the sacrificial layer in the present disclosure. Further, the present disclosure provides equipment to produce a sacrificial porous silicon PV cell-substrate base layer. | 05-26-2011 |
20110256654 | DOUBLE-SIDED REUSABLE TEMPLATE FOR FABRICATION OF SEMICONDUCTOR SUBSTRATES FOR PHOTOVOLTAIC CELL AND MICROELECTRONICS DEVICE MANUFACTURING - 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. | 10-20-2011 |
20120085278 | HIGH PRODUCTIVITY THIN FILM DEPOSITION METHOD AND SYSTEM - High productivity thin film deposition methods and tools are provided wherein a thin film semiconductor material layer with a thickness in the range of less than 1 micron to 100 microns is deposited on a plurality of wafers in a reactor. The wafers are loaded on a batch susceptor and the batch susceptor is positioned in the reactor such that a tapered gas flow space is created between the susceptor and an interior wall of the reactor. Reactant gas is then directed into the tapered gas space and over each wafer thereby improving deposition uniformity across each wafer and from wafer to wafer. | 04-12-2012 |
20120145553 | APPARATUS AND METHODS FOR UNIFORMLY FORMING POROUS SEMICONDUCTOR ON A SUBSTRATE - This disclosure enables high-productivity controlled fabrication of uniform porous semiconductor layers (made of single layer or multi-layer porous semiconductors such as porous silicon, comprising single porosity or multi-porosity layers). Some applications include fabrication of MEMS separation and sacrificial layers for die detachment and MEMS device fabrication, membrane formation and shallow trench isolation (STI) porous silicon (using porous silicon formation with an optimal porosity and its subsequent oxidation). Further, this disclosure is applicable to the general fields of photovoltaics, MEMS, including sensors and actuators, stand-alone, or integrated with integrated semiconductor microelectronics, semiconductor microelectronics chips and optoelectronics. | 06-14-2012 |
20120192789 | DEPOSITION SYSTEMS AND PROCESSES - This disclosure enables gas recovery and utilization for use in deposition systems and processes. The system includes a thin-film semiconductor layer deposition system comprising a deposition reactor, precursor gas feeds, and a gas recovery system. | 08-02-2012 |
20130160946 | PURGING OF POROGEN FROM UV CURE CHAMBER - An apparatus for purging a space in a processing chamber comprises a source of a purge gas; an inlet portion of a purge ring; an inlet baffle located in the inlet portion and fluidically connected to the source of purge gas; and an exhaust portion of the purge ring. The inlet portion and the exhaust portion define a ring hole space having a 360° periphery. The inlet baffle preferably surrounds not less than 180° of said periphery. The inlet baffle is operable to convey purge gas into the ring hole space. The exhaust portion is operable to convey purge gas and other matter out of the ring hole space. Cleaning of the purge ring and other structures in a processing chamber is conducted by flowing a cleaning gas through the inlet baffle. Some embodiments include a gas inlet plenum and an exhaust channel but not a purge ring. | 06-27-2013 |
20130171808 | DOUBLE-SIDED REUSABLE TEMPLATE FOR FABRICATION OF SEMICONDUCTOR SUBSTRATES FOR PHOTOVOLTAIC CELL AND MICROELECTRONICS DEVICE MANUFACTURING - 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. | 07-04-2013 |
20130284087 | METHOD AND APPARATUSES FOR REDUCING POROGEN ACCUMULATION FROM A UV-CURE CHAMBER - Porogen accumulation in a UV-cure chamber is reduced by removing outgassed porogen through a heated outlet while purge gas is flowed across a window through which a wafer is exposed to UV light. A purge ring having specific major and minor exhaust to inlet area ratios may be partially made of flame polished quartz to improve flow dynamics. The reduction in porogen accumulation allows more wafers to be processed between chamber cleans, thus improving throughput and cost. | 10-31-2013 |
20130298940 | PURGING OF POROGEN FROM UV CURE CHAMBER - A method for removing species from a substrate includes arranging a purge ring in a chamber proximate to a pedestal. The purge ring includes an inlet portion and an exhaust portion. The inlet portion defines an inlet plenum and an inlet baffle. The inlet baffle includes a continuous slit that is substantially continuous around a peripheral arc not less than about 270°. The exhaust portion includes an exhaust channel that is located substantially opposite the inlet baffle. The method further includes supplying ozone to the inlet plenum; at least partially defining a ring hole space having a periphery using the inlet portion and the exhaust portion; conveying gas from the inlet plenum into the ring hole space using the inlet baffle; conveying gas and other matter out of a purge space using the exhaust portion; and inhibiting deposition of material evolved from the substrate during curing using the purge ring. | 11-14-2013 |
20140230861 | PURGING OF POROGEN FROM UV CURE CHAMBER - A purge ring for providing a gas to a wafer processing chamber includes an inlet ring wall defining a ring hole space. An outer perimeter of the inlet ring wall is elliptical. An outer perimeter of the ring hole space is circular. The inlet ring wall is a continuous structure surrounding the ring hole space. An inlet baffle formed within the inlet ring wall surrounds at least 180 degrees of the outer perimeter of the ring hole space. An inlet plenum arranged in a first end of the inlet ring wall provides the gas to the ring hole space through the inlet baffle. An exhaust channel is formed within the inlet ring wall in a second end of the inlet ring wall. An exhaust outlet hole arranged in the second end of the inlet ring wall exhausts the gas out of the ring hole space via the exhaust channel. | 08-21-2014 |
20150020877 | HIGH-EFFICIENCY SOLAR PHOTOVOLTAIC CELLS AND MODULES USING THIN CRYSTALLINE SEMICONDUCTOR ABSORBERS - Fabrication methods and structures relating to backplanes for back contact solar cells that provide for solar cell substrate reinforcement and electrical interconnects as well as Fabrication methods and structures for forming thin film back contact solar cells are described. | 01-22-2015 |