肯定了插层催化剂是一种从物理角度提高质子交换膜燃料电池催化剂PEMFC利用率、防止抗中毒能力的有效手段。
The analytic result affirms that Pt-intercalated in graphite catalysts is an effective physical approach to improve catalysts resistance to carbon monoxide in PEMFCs.
这将使催化剂的成本降低100至1000倍的成本,研究者称,从而极大程度上地减少了燃料电池成本。
That could make the catalysts “two to three orders of magnitude cheaper, ” the lab says, thereby significantly reducing the cost of fuel cells.
大多数用于便携设备的燃料电池都是基于直接甲醇技术(译注1),需要昂贵的铂催化剂。
Most fuel cells being developed for portable use are based on direct-methanol technology, which requires an expensive platinum catalyst.
该手机利用燃料电池原理,以酶作为催化剂将碳水化合物转为电力。
The battery ACTS as a fuel cell using enzymes as the catalyst to generate electricity from carbohydrates.
催化剂和碳纳米管是燃料电池最关键的材料之一。
Catalyst and carbon nanotubes as one of the key materials for fuel cells.
目前,纳米材料和纳米技术在太阳能电池、燃料电池、热电、催化剂、制氢储氢等能源领域已取得突出进展。
At present, nano-materials and nano-technology in solar batteries, fuel cells, thermoelectric, catalysts, hydrogen energy, such as hydrogen storage areas have made outstanding progress.
由于受工作环境的限制,低温燃料电池对催化剂的要求比较高。
Due to their special working conditions, low-temperature fuel cell has high expectations for the catalysts.
综述了近年来直接甲醇燃料电池(DMFC)中阴极催化剂研究进展。
The recent development in research on cathodic catalysts for direct methanol fuel cells (DMFC) is (reviewed).
担载催化剂,其制备方法,及利用它的燃料电池。
Supported catalyst, method of preparing the same, and fuel cell using the same.
报道了一种新的碱性燃料电池氧电极的非贵金属催化剂。
A new kind of non noble metal catalyst for the oxygen electrode of alkaline fuel cells was investigated.
碱性燃料电池(afc)具有启动温度低、性能可靠、可用非贵金属作催化剂等优点。
Alkaline fuel cell (AFC) had the advantages of low start-up temperature, good reliability and the possibility of using non-precious metal as catalyst.
氧还原反应阴极催化剂对燃料电池的性能起着非常关键的作用。
The cathode catalyst for oxygen reduction reaction is one of the most important factors that can affect the performance of fuel cell.
其用途是作为燃料电池阴极催化剂。
The polymer is used as a catalyst for the cathode of a fuel cell.
即便如此,来自波鸿和米尔海姆的团队仍致力于寻找新策略——调节敏感催化剂使之适应标准燃料电池的工作条件。
The team in Bochum and Mülheim focusednevertheless on a new strategy to accommodate sensitive catalyst to the workingconditions of standard fuel cells.
多孔陶瓷可用作高温过滤材料、催化剂载体、燃料电池的多孔电极、生物陶瓷等。
Porous ceramics may be used as high-temperature filter, catalytic carrier, porous electrode for fuel cell, and bioceramics, etc.
单室固体氧化物(SCSOFC)燃料电池因其结构紧凑、制造简单、催化剂不易中毒等优点,日渐成为研究的热点之一。
Single Chamber Solid Oxide Fuel Cells (SCSOFC) has become one of the most attractive thesises for its unique properties of compact structure, simple fabrication and non-catalyst poison.
这很可能是炭气凝胶在燃料电池阴极催化剂载体方面取得优良性能的原因之一。
This was probably the reason for its good performance in the application of cathode catalyst support in fuel cells.
从非晶态合金的结构特点出发,分析了其能够作为潜在的高效、长寿命催化剂应用在低温燃料电池中的原因。
The reasons why the amorphous alloys could be used as potential high-efficient and long-life catalysts in fuel cells were analyzed in this article for their unique structure features.
本发明公开了一种聚合物电解质膜燃料电池无担载催化剂电极的制作方法。
This invention discloses a method for making the electrode of the catalyst having no loading of the polymer electrolyte membrane fuel battery.
从铂系和非铂系两个方面综述了近年来直接甲醇燃料电池电催化剂的研究及进展。
This paper reviews the progress in research on electrocatalysts for direct methanol fuel cells from two aspects: Pt and its alloys, and non-Pt systems.
介绍了组合式再生燃料电池基本特点,简要回顾了组合式再生燃料电池中双效氧电极催化剂研究现状。
The characteristic of the unitized regenerative fuel cell and the research actuality of the catalysts used for bifunctional oxygen electrode were reviewed briefly.
本发明涉及一种以导电陶瓷载金属为电催化剂的燃料电池膜电极及其制备方法。
The invention relates to a fuel cell membrane electrode which takes conductive ceramic-carried metal as an electro-catalyst and a preparation method thereof.
以质子交换膜燃料电池为例,必须通过减少用量或发现新材料而取代目前使用的催化剂、离子交换膜和双极板,才能大幅度降低电池的价格。
The price of proton exchange membrane fuel cell, for example, could be lowing down by developing new catalyst, solid polymer electrolyte and bipolar plate.
氢燃料电池在催化剂作用下,氢分子解离为氢质子并释放出电子,电子在外电路形成直流电输出电能。
The hydrogen molecule is decomposed into hydrogen proton and set free electron under acting on catalyst. And free electron is formed DC in external circuit to output electric energy.
燃料电池中的氢和氧在催化剂作用下产生的电,能驱动汽车发动机等,排放的只有水蒸气。
In the fuel-cell, hydrogen and oxygen mix in the presence of catalyst to create electricity that drives engine of car and so on, and the water vapor is the only emission.
概述了直接甲醇燃料电池甲醇电氧化催化剂最近的一些研究情况。
Some recent development on methanol electro-oxidation in direct methanol fuel cell are reviewed.
综述了包括催化剂、电极、质子交换膜、电解质、双极板和碳纳米管在内的质子交换膜燃料电池的研究进展。
Research progress in PEMFC including catalyze, electrode, proton exchange membrane, electrolyte, bipolar board and carbon nano-tube were described.
按采用催化剂的不同,可分为微生物燃料电池和酶生物燃料电池。
It can be classified into microbial fuel cell and enzymatic biofuel cell.
按采用催化剂的不同,可分为微生物燃料电池和酶生物燃料电池。
It can be classified into microbial fuel cell and enzymatic biofuel cell.
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