About Energy Recommerce
Energy Recommerce Inc. aims to provide web-enabled monitoring and management solutions for commercial solar energy investors concerned about their PV system's performance and return on investment. Unlike existing monitoring systems, Energy Recommerce aims to provide detailed data of a PV system's performance so that also small problems can be detected early, and downtime minimized, which maximizes the profit for the PV system owner.
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Expert Collections containing Energy Recommerce
Expert Collections are analyst-curated lists that highlight the companies you need to know in the most important technology spaces.
Energy Recommerce is included in 1 Expert Collection, including Renewable Energy.
This collection contains upstream and downstream solar companies, as well as those who manufacture and sell products that are powered by solar technology.
Energy Recommerce Frequently Asked Questions (FAQ)
Where is Energy Recommerce's headquarters?
Energy Recommerce's headquarters is located at 1875 Lombard Street, San Francisco.
What is Energy Recommerce's latest funding round?
Energy Recommerce's latest funding round is Series A.
Who are the investors of Energy Recommerce?
Investors of Energy Recommerce include Dry Creek Ventures.
Who are Energy Recommerce's competitors?
Competitors of Energy Recommerce include Trina Solar, SolarBridge Technologies, Draker Labs, Fat Spaniel Technologies, eIQ Energy and 12 more.
Compare Energy Recommerce to Competitors
SunLink is advancing universal renewable energy adoption by continuing to innovate highly engineered PV balance of system products that make solar easier, safer, more reliable and less expensive to install. The company's photovoltaic roof mount, fixed-tilt ground mount and tracker racking systems, HomeRun combiner boxes, and wire management tools have been proven on commercial and utility-scale solar projects across North America.
microJoining Solutions (mJS) is an internationally provider of the field of packaging and assembling miniature and micro-miniature electro-mechanical components and assemblies using the latest feedback controlled resistance welding, pulsed YAG laser welding, and ultrasonic metal welding equipment. nnThe company's focus is on saving users money by improving yields in their present welding processes and preventing welding failures in their product design phase. nnmJS has developed a special expertise in welding automotive components and sensors, medical devices, and solar cell assemblies. mJS is very familiar with both automotive and FDA process documentation and validation.
Citizenre is developing renewable energy infrastructure. Through project development and strategic alliances, Citizenre is aiming to be a photovoltaic manufacturer, a photovoltaic system installer, and an owner/operator of PV generating assets.
Octillion Corp., together with its wholly owned subsidiaries, is a technology incubator focused on the identification, acquisition, development, and commercialization of alternative and renewable energy technologies. Through established relationships with universities, research institutions, government agencies and start-up companies, the company strive to identify technologies and business opportunities on an edge of innovation that have the potential of serving and unmet market needs. nOnce a technology has been identified, the company fund the research and development activities relating to the technology with the intention of ultimately, if warranted, licensing, commercializing and marketing the subject technology, either through internal resources, collaborative agreements or otherwise. Unique to the company's business model is the use of established research infrastructure owned by the various organizations the company deal with, saving us capital which would otherwise be required for such things as land and building acquisition, equipment and furniture purchases, and other incidental start up costs. As a result, the company are able to conduct research in development. nnAmong the company's current research and development activities is the development of a patent-pending technology that could adapt existing home and office glass windows into ones capable of generating electricity from solar energy without losing transparency or requiring major changes in manufacturing infrastructure. The company are also developing a system to harness the kinetic energy of vehicles in motion as part of a broader effort to enhance the sustainability and energy efficiency of transportation infrastructures and systems.
Gratings Incorporated is a company that received a STTR Phase I grant for a project entitled: High Efficiency Thin-film Photovoltaics on Low-cost Substrates by Layer Transfer. Their their award is funded under the American Recovery and Reinvestment Act of 2009 and their project will apply high aspect ratio, nm-scale, columnar, and crystalline Si structures as templates for high-quality growth of thin-film GaAs solar cells on low-cost flexible substrates. Sub-10-nm Si seed layers are expected to facilitate growth of low-defect density GaAs films. The aspect ratio of nm-scale structures also serve as sacrificial layers for removal of completed GaAs solar cell. Epitaxial growth and characterization of GaAs films on nm-scale Si structures will be carried out at the Center for High Technology at the University of New Mexico. Successful phase I STTR research will lead to commercialization of high (~ 20 %) efficient, flexible solar cells for applications in a wide range of terrestrial and space environments. Multiple substrate re-use and inherent large area processing capability of Si will result in significant cost reductions. High quality heteroepitaxial GaAs growth on Si has been a subject of intense research. Due to its direct bandgap, GaAs is attractive for a number of optoelectronics applications and its integration with Si-based microelectronics has been a cherished goal. The lattice and thermal expansion mismatches with Si make it difficult to grow good device quality layers. We have recently demonstrated as the Si seed dimension is reduced below 100 nm dimensions, the quality of heteroepitaxial growth increases rapidly. The nm-scale Si structures are formed using low-cost, large area methods based on conventional integrated circuit processing methods. Successful research effort will lead to reduction in PV generation costs, and enhanced applicability of thin-film PV in terrestrial and space environments because in contrast with competing thin-film solar cells, GaAs thin-film solar cells will not suffer from light-induced performance degradation.
Primestar Solar is a company that received a SBIR Phase I grant for a project entitled: High Quality, Low Cost, Polycrystalline CdS/CdTe Photovoltaic Cells. Their will develop new processes for producing lower cost and higher quality thin films from the compound semiconductors CdS and CdTe. These will be used to more inexpensively produce high performance photovoltaic modules that generate electricity from sunlight. Thin film CdTe-based photovoltaics currently require a post-deposition CdCl2 treatment and anneal to achieve reasonable performance. This anneal is known to increase the grain size in some films and increase the minority carrier lifetime in all CdTe films. The minority carrier lifetime is generally correlated with device efficiency in photovoltaic cells. However, the CdCl2 anneal cannot be optimized to maximize the minority carrier lifetime because attempts to do so have caused film delamination. Film delamination occurs due to strain induced during the anneal at the interface between the film and the glass substrate. This proposal seeks to develop a film deposition process that simultaneously avoids this problem and makes better quality films. This process will foster large grain growth, defect passivation, and grain boundary passivation while eliminating the need for a post-deposition CdCl2 treatment and anneal. This will result in higher efficiency solar cells and a streamlined production process. Commercially, solar photovoltaic modules are a silent, pollution free means to generate electricity from sunlight. Once the capital investment is made to install a photovoltaic electricity system, its operating cost is essentially zero because its "fuel", sunlight, is free. Photovoltaic electricity provides a means for homes to generate as much energy as they use over the course of a year. The production of photovoltaic modules has been increasing 20-30% annually for the past decade due to increases in efficiency and reductions in cost. However, for photovoltaics to achieve significant market penetration into mainstream electricity generation, this growth rate must be continued. This requires further increases in module efficiency and reductions in module cost. This research proposal addresses both of these issues. Successful development of this technology will ensure the marketplace success of CdTe photovoltaic modules, and pave the way for widespread stable-priced, sustainable, pollution-free electricity generation.
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