Nyobolt
总了
69.15美元投资者数
5交易条款
1融资,估值和收入
4经费
Nyobolt已经筹集了69.15美元在4轮。
Nyobolt的最新一轮融资是一个格兰特对在2023年1月26日。
Nyobolt的估值在2022年7月是354.65美元。
日期 |
轮 |
量 |
投资者 |
估值
提交的估值公司,采自国家申请或者新闻,由VentureSource的提供,或基于比较数据的估值模型。
|
收入 |
来源 |
---|---|---|---|---|---|---|
1/26/2023 |
格兰特 |
|
1 |
|||
7/15/2022 |
B系列 |
354.65美元 |
||||
2/23/2021 |
一个系列 |
|||||
|
剥离/分 |
日期 |
1/26/2023 |
7/15/2022 |
2/23/2021 |
|
---|---|---|---|---|
轮 |
格兰特 |
B系列 |
一个系列 |
剥离/分 |
量 |
|
|||
投资者 |
||||
估值 |
354.65美元 |
|||
收入 |
||||
来源 |
1 |
Nyobolt交易条款
1协议项
Nyobolt的交易结构是可用的1资金轮,包括他们B系列从2022年7月15日。
轮 |
B系列 |
---|---|
资金的日期 |
|
投资前估值 |
|
后的估值 |
|
量提高 |
|
股份授权 |
|
发行价格 |
|
股息率 |
|
清算优先权 |
|
清算价格 |
|
参与 |
|
转换价格 |
|
反稀释 |
|
一般投票 |
|
董事会投票 |
|
票面价值 |
轮 |
资金的日期 |
投资前估值 |
后的估值 |
量提高 |
股份授权 |
发行价格 |
股息率 |
清算优先权 |
清算价格 |
参与 |
转换价格 |
反稀释 |
一般投票 |
董事会投票 |
票面价值 |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
B系列 |
比较Nyobolt竞争对手
Tyfast制造电池和半导体。的发展,公司的重点在于锂电池和石墨阳极电池充电快主要汽车和手表。它成立于2020年,总部设在圣地亚哥,加利福尼亚。
东芝全球商务解决方案提供零售网点解决零售行业包括食品、便利店、百货商店、大规模销售,和好客。公司提供专业服务、部署服务和维修服务。它建立在达勒姆,北卡罗莱纳。
TioTech发展二氧化钛(TiO2)材料用于快速充电和长寿命电池。TitanBTM,其产品是允许电池充电的TiO2-based材料,消除安全隐患,指控在北极条件。公司成立于2005年,位于卑尔根,挪威。
Supercon公司收到了SBIR项目二期格兰特标题为:一种新的生产方法Ta纤维用于电解电容器用改进的性能和包装选择。他们的项目的目的是开发一个新的过程制造(Ta)钽金属纤维用于生产钽电容器、商业化阶段,推进这一过程。这项技术,在第一阶段,可能会导致电容器产品拥有更高的性能和更大的容积效率比目前可用的。纤维代替金属粉末的使用允许的生产薄阳极身体导致改进包装选项和组件的性能。创新的技术包画Ta细丝的铜矩阵。助教组成的一个复合纤维在铜基体是一系列减少步骤,直到细丝直径小于10微米。画线生产带式滚丝1微米或更小的厚度。铜复合矩阵是化学溶解而不攻击Ta生产金属Ta高表面积,ribbon-fibers。纤维形成薄垫,生产烧结多孔金属条的高表面积电容器阳极。这种方法的一个重要方面是,纤维形态可以在多种不同的纤维厚度与粉。 This allows the morphology of the fibers to be optimized for the particular voltage rating and use requirements in order to maximize the performance of the capacitor. Commercially, nearly all medical, automotive, military and many consumer electronic devices utilize Ta electrolytic capacitors due to their outstanding performance, reliability and volumetric efficiency. Solid electrolytic capacitors are currently made from Ta metal powder. Several million pounds per year of Ta powder are consumed in manufacturing Ta capacitors for these applications. The trend in electronics is toward high powder components and increased miniaturization. Combined with the need to lower materials and manufacturing costs, these considerations have created an opportunity for new method of producing solid electrolytic capacitors. Fiber metal technology has the potential to both lower manufacturing costs, improve capacitor performance, and improve packaging options, which could enable the development of new product that are either currently very difficult or very expensive to make using current technology base on metal powder. Supercon is a company that received a SBIR Phase I grant for a project entitled: A New Production Method for Ta Fibers for Use in Electrolytic Capacitors with Improved Performance and Packaging Options. Their project is intended to demonstrate a new process for manufacturing valve metal fibers for use in producing capacitors. The technology is applicable to all valve metals used for making solid electrolytic capacitors. If successful, this technology could lead to capacitor products having higher performance and greater volumetric efficiency than are currently available. The use of fibers in place of the standard powder compacts allows the production of thin anode bodies leading to improved packaging options and component performance. The innovation underlying the technology is bundle drawing of valve metal filaments contained in copper matrix. A composite consisting of valve metal filaments in a copper matrix is drawn in series of reduction steps until the filaments are less than 10 microns. The drawn wire is rolled to produce submicron thick ribbon type filaments. The copper composite matrix is chemically dissolved to produce metallic thin fibers. The fibers are formed into thin mats, which are sintered to produce porous metal strips from which high surface area capacitor anodes can be made. A significant aspect of this approach is that fiber morphology can be varied within a wide range of thickness and widths unlike powders. This allows the morphology of the fibers to be optimized in order to maximize the properties of the capacitor. Commercially, nearly all medical, automotive and consumer electronic devices all utilize solid electrolytic capacitors due to their performance, volumetric efficiency, and high reliability. Several million pounds per year of powder are consumed in the manufacture of capacitors for these applications. The trend towards higher power components, and miniaturization, combined with the need to lower materials and manufacturing costs have created an opportunity for new methods of producing solid electrolytic capacitors. Fiber metal technology has the potential to both lower manufacturing costs, improve capacitor performance, and improve packaging options which could lead to new products that are either very difficult or very expensive to make using current methods.
TechDrive公司是芝加哥,基于公司收到了格兰特(s)从美国能源部SBIR / STTR计划。这些格兰特的文摘(s)奖(s)也提供了,因为他们提供洞察TechDrive, Inc .)业务和领域的专业知识。这个项目的目的是产生新的和改进的具有成本效益的材料用于rechargeble电池电动汽车的发展和消费的产品,如电脑、手机和照相机。
Lawrenceville等离子物理是一个高科技的研究和开发公司专门从事等离子体物理的应用,包括融合力量和强烈的x射线源。公司的主要项目是开发一个ecologicaly安全融合能量发生器使用设备称为稠密等离子体焦点(DPF)和hydrogen-boron叫做“集中融合”的燃料。垂直距离的技术和同行评议的科学指导的设计技术这virutally无限的清洁能源来源,可以大大低于目前使用其他能源。