Solid power: Planar Energy CEO Scott Faris holds a solid-state battery cathode printed using new manufacturing techniques.
(图)固态能源:平面能源首席执行官斯科特·法里斯拿着一个固态电池阴极,该阴极是使用新的生产技术印刷出来的。
Planar Energy expects to reduce capital costs by half compared with solid-state battery manufacturing using high-vacuum machinery.
相对于使用高真空度机器进行固态电池的生产,平面能源公司的新工艺有望将主要生产成本减半。
This mainly led to solid state devices, while we did not refrain from fully battery driven tube equipment, although those may by too big in size, in weight and in budget for many.
这导致主要产品是晶体管类扩音机,当然我们不排斥完全电池供电的胆机设备,虽然胆机电池供电重量和体积太大,对大多数人也不划算。
A fully automatic solid state controlled dual-rate battery charger with a dry type full wave rectifier shall be provided.
应提供完全自动固态控制带全波整流器双重速率切换电池充电器。
However, radical changes in battery chemistry-solid-state batteries, and liquid batteries you can recharge in minutes by pumping in new electrode materials-also made encouraging progress this year.
然而,通过在电池化学成份上注入新的电极材料使得固态或液态电池充电分分钟搞定,这一巨大改进也取得可喜进展。
They are: sodium-sulfur battery, solid state lithium battery, high temperature fuel cell and sodium heat engine.
介绍了钠硫电池、全固态锂电池,高温燃料电池、钠热机等方面的研究现状和发展趋势。
The research progress in key materials of thin-film lithium battery in recent years was summarized in three aspects: cathode film, solid-state electrolyte film and anode film.
从阴极膜、固体电解质膜、阳极膜三个方面概述了近年来薄膜锂电池关键材料的研究进展。
Recently, some important results were obtained in preparing all-solid-state thin film lithium battery by PLD.
近年来,利用PLD技术在全固态薄膜锂电池的研究中取得许多有意义的结果。
Among these, all-solid-state lithium micro-battery may be one of the promising power sources because lithium is the lightest metal and has a low potential to provide high energy density.
其中微型全固态锂电池被认为是最合适的电源之一,因为锂是最轻的金属元素,同时电负性最大,能够提供高比能量。
Meanwhile PEO and PMSMA electrolyte were investigated, then studied whether this two kinds of materials could be used in printing solid state lithium ion battery.
同时研究了PEO及梳状聚氧硅烷聚合物电解质用于打印全固态电池中的可行性;
The lithium ion battery is a new type of battery with superior performance. Studying of the solid-state electrolyte is the most advanced contents in the lithium ion secondary battery.
锂离子二次电池是性能最优越的电池之一,研究全固态电解质是锂离子二次电池研究中最前沿的课题。
It was useful for battery chargers and similar applications from the 1920s until low-cost solid-state rectifiers supplanted it.
这是用于电池充电器和类似的应用程式,从20 年代,直到低成本固态整流器最初的金属整流器取代它。
It was useful for battery chargers and similar applications from the 1920s until low-cost solid-state rectifiers supplanted it.
这是用于电池充电器和类似的应用程式,从20 年代,直到低成本固态整流器最初的金属整流器取代它。
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