THINKFLEX太阳能结合的最有利的特点这两个目前光伏技术。公司的模块提供硅电池的效率和薄膜系统的灵活性,通过该公司的技术和装配方法。结果高输出功率、长寿命和可靠的模块。以简化安装和运输这些产品可以定制大小和形状。公司的产品重量轻,有利的美学,很容易适应加强创造新的和绿色设计。

SRT集团有限公司(SRT)是一个面向技术的公司专注于开发和许可能源技术。SRT发达和先进专利halogen-based流程:nn‚压力;电能存储,nn‚压力;可再生能源制氢,nn‚压力;废物(碳质废物)治疗,nn‚压力;multi-emission(袜、氮氧化物、Hg,也许不久)控制,神经网络‚压力;太阳能转换为热能和电能,nn‚压力;从氢液体燃料生产,nn‚压力;酸气(H2S)脱硫,andnn‚压力;温室气体减排。 nnThe enforcement of the Clean Air & Water Acts, renewable portfolio standards, growth in peak electric demand, and the rise in oil & natural gas prices create an immediate opportunity for SRT's patented processes. The company's near-term goal is to develop the biowaste to biofuel technology with energy storage, followed by the clean-coal & sour-gas technologies, and eventually SRT's solar processes. The solar technology will integrate all the SRT processes into a benign total energy system suitable for most of the planet.

先锋谷光伏(PV的平方)的设计,安装,和维护太阳能系统的住宅、商业和机构客户。该公司的目标是增加使用清洁,可再生能源在东北。太阳能可以帮助满足公司的能源需求没有不良环境影响。公司的太阳能系统安装精心设计以满足或超过当地和国家建设的需求。PV平方不断寻求方法来确保太阳能发电和热水系统是负担得起的。公司的大多数客户符合价格补贴和税收优惠。客户直接受益于公司的专业知识发现和保护节约成本退税激励和公司的州和联邦税收优惠方面的知识。

NEI公司是萨默塞特,NJ公司收到了格兰特(s)从美国能源部SBIR / STTR计划。抽象(s)为这些格兰特奖(s)也提供了因为他们提供洞察NEI公司的业务和领域的专业知识。该项目将开发一个水银修复解决方案用于污染美国能源部垃圾网站,从而导致节约成本和减少治疗的时间浪费。该项目将开发一个nanoparticle-based技术将使燃煤电厂用水的来源除了传统的河流或湖泊。的nanoparticle-based技术也将是一个具有成本效益的方式减少废水中的有毒金属流。该项目将开发一个纳米涂料工业vapor-to-liquid热交换器通过一个数量级提高性能,提高能源效率相关的工业过程。这个项目将加强弹性印章的属性用于地热能源生产和有可能防止失败的设备,使井下设备运行无人值守长时间,大于5到10年,没有维护。这个项目将开发nanoparticle-enabled流体技术提高热交换器的性能用于全国小炼油业务。提高热交换器的性能将会导致成本和节约能源。这个项目将开发技术,使新一代锂离子电池交付所需的能量储存能力的经济价格,使锂离子电池电动工具和车辆应用程序更便宜。 This project will develop non-chromate corrosion inhibiting coating systems to enable the use of light weight magnesium alloys in automobiles. The result will lead to a reduction in greenhouse gas emissions and fuel costs to consumers. This project will develop a nanotechnology-based, self-healing industrial coating. Self-healing coatings will have significantly enhanced operational lives, thereby reducing installation and repair costs. There is a present need for sorbent technologies to enable coal-fired power plants to reduce mercury emissions. This project will develop a novel environmentally friendly sorbent technology to meet this emerging market need. This project will develop and implement a new class of 5V high voltage Li-ion battery cathode material for next generation plug in hybrid electric vehicles (PHEVs). This project will develop advanced materials for use as the internal wall of a fusion power reactor is expected to enable fusion power to be developed as a sustainable source of energy. This project will develop a new chemistry for Flow Batteries so that it is highly efficient, has long cycle life, and is low cost and non-toxic. The flow batteries can be used by utilities, in conjunction with green power generation, such as solar, wind turbine and fuel cell. The proposed technology will reduce the cost of the mercury removal from coal fired power plants, thereby allowing power plant utility companies to comply with mercury regulation. The proposed novel modified dielectric percolative composites will be reliable and will have high dielectric constant, thereby delivering high energy density to future solid state pulsed power systems.

Solarno公司收到STTR阶段我承认为一个项目标题为:合成多功能nanofibrous聚苯胺/碳复合材料。资助他们的他们的奖是根据2009年美国复苏与再投资法案》,他们的项目将开发新型多功能材料基于聚苯胺(PAni)纳米纤维(PANFs)和纳米碳纤维(cnf)能源存储。虽然已报告PAni复合材料广泛的应用程序,包括传感器、生物传感器、photoelectrochromic细胞等,由于其出色的电气、热力和机械性能,利用增强属性组合的预期PANF CNF。PANFs有更大的电子电导率比聚苯胺团簇和纳米棒,可以合成各种基质。Solarno将使用一个私有过程合成复合材料PANFs cnf。在第一阶段Solarno将使用这些复合材料作为非对称超级电容器的电极材料,一个使能技术,提供了高能源和电力的特定的技术目标:合成和表征PANFs CNF基质,并实现超级电容器性能的15 Wh /公斤,10千瓦/公斤,> 10周期,因此远远超过目前铅酸电池的电力和循环寿命。在第二阶段,我们将提高这些设备的能量密度,使潜在的这种电池更换,并探索其他功能复合材料,如传感器和电化学设备。PANF / CNF复合材料由Solarno将超级电容器市场通过材料销售和合作/许可证协议,后来相关电化学功能/应用程序。Solarno目标要求的混合动力电动汽车(HEV)最初的超级电容器的设计市场,这样,最终客户将主要的汽车制造商。市场要求电容器提供更高的能量密度,减小尺寸、高可靠性和低成本。 Commercially available EDLCs commonly provide energy densities around 4 Wh/kg, and power densities between 15-21 kW/kg. The supercapacitor developed here can excel in this market by providing energy density > 25 Wh/kg and better reliability (>2.0 x 104 cycles); the Phase I work will optimize the properties of our PANF/CNF composite to meet this goal. The supercapacitors will also be well-suited for load-leveling for renewable energy sources; direct societal benefits will come from improving the viability of HEVs and renewable sources, tied to reductions in fossil fuel consumption, providing bridge power for wind and solar power farms, and partially replacing lead acid storage batteries. The results of this work in optimizing PAni composites for supercapacitors will translate well into improved functionality for other applications.

Telio太阳能技术有限公司是一家专注于开发和生产CIGS薄膜太阳能电池。公司的目标是生产成本最有效的香烟制造技术在大规模太阳能模块,实现CIGS电池效率和产量最高的国家之一。公司相信公司可以加速香烟技术的进步及其成功的商业化。香烟是展望了太阳能电池技术和能量转换效率高的优点,生产吞吐量和具有成本效益的生产和Telio太阳能打算充分优化这些优势给市场带来大规模生产。