这就促成了第一个固态电池的产生。
一家新兴公司用印刷方法生产固态电池。
A startup company has a printing method for solid-state batteries.
真空沉积限制了固态电池的厚度,从而限制了它的储能能力。
The vacuum deposition limits the thickness of solid-state batteries, which, in turn, limits their energy storage capacity.
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;
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.
包括医疗植入物,珠宝,为个人设计的合脚的足球鞋,灯罩,赛车部件,固态电池,定制的手机。
These include medical implants, jewellery, football boots designed for individual feet, lampshades, racing-car parts, solid-state batteries and customised mobile phones.
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。
Planar Energy expects to reduce capital costs by half compared with solid-state battery manufacturing using high-vacuum machinery.
要用于消费电子产品,特别是电动汽车这样的产品,全固态电池必须容量更大,能够批量生产才行。
To be any use in consumer electronics, and especially electric cars, solid-state batteries would need to be bigger and capable of being cranked out in greater numbers.
法里斯说公司计划明年建一条试验性生产线,将开始生产可移动电子设备用电池,以证明印刷固态电池的实用性。
Faris says the company plans to build its pilot line next year, and will start by making batteries for portable electronics to prove the viability of the printed solid-state batteries.
(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。
Solid power: Planar Energy CEO Scott Faris holds a solid-state battery cathode printed using new manufacturing techniques.
高分子固体电解质(SPE)是一类新兴的电解质薄膜材料,在固态电池和其它领域都有着极大的应用潜力。
Solid polymer electrolytes have emerged as an exciting class of novel electrolyte membrane materials with potential applications in solid-state batteries and other devices.
投资者开始瞄准突破性技术:固态电池和氨燃料电池。利用这些技术,能源就能变得像砂砾一样,不仅廉价,而且易于储存。
Investors are prowling for a breakthrough technology-solid state batteries, ammonia fuel cells-that will make energy as cheap and easy to store as gravel.
固态电解质还能与众多的电池用化学成分相兼容,有可能会提供更高的电能或存储密度。
Solid electrolytes are also compatible with a wider range of battery chemistries that could potentially offer higher power or storage density.
平面能源公司研发出可制造较大的固态锂离子电池的“卷到卷”工序。
Planar Energy has developed a roll-to-roll process for making larger solid lithium-ion batteries.
该公司名为“平面能源”,是国家可再生能源实验室(NREL)的新创公司。该公司正致力于改进固态锂离子电池。
Planar Energy, a spin-off of the National Renewable Energy Laboratories (NREL), is working on scaling up solid-state lithium-ion batteries.
在曼彻斯特,Mike Mason倡导过一种使用固态氧化物技术的燃料电池。
In Manchester, Mike Masonadvocated fuel cells that use solid-oxide technology.
成果:用两种聚合物的固态混合物,取代传统锂电池(上)中的液态电解质,Seeo公司的这种电池(下)可存储更多的能量。
Solid success: With a solid mixture of two polymers replacing the liquid electrolyte used in traditional lithium-ion cells (top), Seeo's batteries (right) can store more energy.
用固态电解质来生产这样的电池是可能的,但目前锂离子电池还是通过真空镀膜的方式来生产。
It is possible to make such a battery with a solid electrolyte, but until now that has been done by a process called vacuum deposition.
其中一个计划是用锡的副产品氧化锆来生产固态氧燃料电池。
One project is trying to use zirconia, a tin byproduct, to create solid oxide fuel cells.
这个研究小组研究了一种典型的材料,钆掺杂氧化铈(GDC),它用于运输氧离子,并且最近被用作一种固态氧化物燃料电池电解质。
The team studied a well-known material, gadolinium doped ceria (GDC), which transports oxygen ions and is currently in use as a solid oxide fuel cell electrolyte.
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。
A fully automatic solid state controlled dual-rate battery charger with a dry type full wave rectifier shall be provided.
胶体电池的电解质呈固态,密封结构,凝胶电解液,永不漏液,使电池内每一部位的比重保持一致。
Gel battery electrolyte and solid, sealing structure, gel electrolyte, never leakage, to keep the proportion of each part.
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。
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.
将该陶瓷用于固态质子传导电池中,在常压下以氮气和氢气为原料合成了氨气。
Ammonia was synthesized from nitrogen and hydrogen at atmospheric pressure in the solid state proton conducting cell reactor.
将多层膜材料用于固态质子传导电池中,在常压下以氮气和氢气为原料合成了氨气。
Ammonia was synthesized from nitrogen and hydrogen at atmospheric pressure in the solid state proton conducting cell reactor using multilayer membrane system.
第39届国际物理奥林匹克竞赛实验试题是:利用差示温度计法来测定固态晶体物质的凝固点和测定太阳能电池的效率。
This paper introduces the 39th IPhO experiment test, which using the differential thermometer to measure the solidifying point of a crystalline solid substance and an efficiency of the solar cell.
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。
Recently, some important results were obtained in preparing all-solid-state thin film lithium battery by PLD.
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。
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.
具体公开了一种用于固态聚合物燃料电池的催化剂层,其包括:通过还原铂氧化物获得的催化剂;疏水剂;和质子传导电解质。
Specifically disclosed is a catalyst layer for solid polymer fuel cells which is composed of a catalyst obtained by reducing a platinum oxide, a hydrophobic agent and a proton conducting electrolyte.
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。
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。
They are: sodium-sulfur battery, solid state lithium battery, high temperature fuel cell and sodium heat engine.
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