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Reports from the Frontier 来自边境的报道
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.006223if
Scott Cushing
ECS Interface is proud to introduce a new feature page that focuses on the award-winning research of ECS graduate students.
ECS Interface很荣幸推出一个新的功能页面,专注于ECS研究生的获奖研究。
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引用次数: 0
Batteries in Service of Human Health 电池为人类健康服务
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f08223if
E. Takeuchi, David Brock, Lisa M. Housel, A. Marschilok, K. Takeuchi
Advances in treatment and diagnosis of human health demand advances in energy storage providing small, adaptable, predictable, and reliable systems. This article summarizes key milestones in the adoption of batteries used for implantable medical applications, provides details about several of the dominant battery chemistries currently powering medical devices, and provides comment on the future impact of advances in the battery field on medical devices.
人类健康治疗和诊断的进步需要能量存储的进步,提供小型、适应性强、可预测和可靠的系统。本文总结了采用植入式医疗应用电池的关键里程碑,提供了目前为医疗设备供电的几种主要电池化学物质的详细信息,并对电池领域的进步对医疗设备的未来影响发表了评论。
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引用次数: 0
Electrochemistry in Action 电化学的作用
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.005223if
Christopher L. Alexander
The goal of this column is to acknowledge novel contributions that advance particular fields while engaging a new audience through detailed and easy to understand descriptions of advances in electrochemistry. Each installment will include a topic area such as electrochemistry in archaeology, steel manufacturing, water treatment, etc. and will describe a novel or unconventional application of electrochemistry. We believe that, in doing so, not only will “Electrochemistry in Action” inform readers but perhaps it will even inspire creativity and broaden interest in the field.
本专栏的目标是通过对电化学进展的详细和易于理解的描述来吸引新读者,同时承认在特定领域取得进步的新颖贡献。每期将包括一个主题领域,如电化学在考古,钢铁制造,水处理等,并将描述一个新的或非传统的应用电化学。我们相信,这样做,不仅将“电化学在行动”告知读者,但也许它甚至会激发创造力和扩大对该领域的兴趣。
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引用次数: 0
From the Editor: What? You’re a human, too?! 编辑:什么?你也是人类?!
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.001223if
Robert N. Kelly
As you read this latest rant, I am preparing my talk for the Gordon Research Conference (GRC) on Aqueous Corrosion, chaired this year by the illustrious Jamie Noël of Western University (see more about him in People News).
当你读到这篇最新的咆哮时,我正在为戈登研究会议(GRC)的含水腐蚀做准备,今年由西方大学著名的杰米Noël主持(详见《人物新闻》)。
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引用次数: 0
Highlights of the 241st Meeting 第241次会议要点
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f01223if
Highlights of the 241st ECS Meeting in Vancouver
在温哥华举行的第241届ECS会议的亮点
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引用次数: 0
Electric Vehicle Batteries: Past, Present, and Future 电动汽车电池:过去、现在和未来
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f09223if
D. Corrigan
Electric vehicles (EVs) were first commercialized over 100 years ago, using lead-acid batteries. Due to low battery energy density limiting the vehicle range, EVs were surpassed by gasoline powered cars that have dominated the auto industry until now. It took electrochemists 100 years to achieve the order of magnitude increase in specific energy needed for electric vehicles to become competitive. The Nobel prize technology of the lithium-ion battery has provided the necessary high energy density together with other excellent performance attributes including high power and long life in an affordable package for the modern EV. This breakthrough has enabled a return to commercialization of electric vehicles this time with excellent performance. Millions of electric vehicles are now being produced and sold globally with huge investments being made in EVs and Li-Ion batteries by the automotive and battery industries.
电动汽车(EV)在100多年前首次商业化,使用铅酸电池。由于电池能量密度低限制了汽车的续航里程,电动汽车被汽油动力汽车所超越,而汽油动力汽车一直主导着汽车行业。电化学学家花了100年的时间才实现电动汽车所需比能量的数量级增长,从而具有竞争力。锂离子电池的诺贝尔奖技术为现代电动汽车提供了必要的高能量密度以及其他优异的性能属性,包括高功率和长寿命。这一突破使电动汽车以优异的性能重返商业化。随着汽车和电池行业对电动汽车和锂离子电池的巨额投资,数百万辆电动汽车正在全球生产和销售。
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引用次数: 1
E-Chem Education 电子化学教育
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f05223if
C. Arges
The case for making Electrochemical Science and Engineering part of the core chemical engineering curriculum
将电化学科学与工程纳入化学工程核心课程的案例
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引用次数: 0
Pennington Corner: “Well, You Certainly Don’t Get That on Zoom!” Pennington Corner:“好吧,你肯定不会在Zoom上看到这个!”
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.002223if
Christopher J. Jannuzzi
After two years and seven months, the Society has returned to hosting in-person technical conferences. The 241st ECS Meeting took place from May 29 to June 2 in beautiful Vancouver, British Columbia, Canada. How exciting it was to be back together again after such a very long time apart!
两年零七个月后,学会重新开始亲自举办技术会议。第241届ECS会议于5月29日至6月2日在加拿大不列颠哥伦比亚省美丽的温哥华举行。在分开这么长时间后再次回到一起是多么令人兴奋啊!
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引用次数: 0
Free Radicals Random Connections: Spices and Interfaces 自由基随机连接:香料和接口
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f03223if
K. Rajeshwar
Have you ever wondered why food tastes good or bad? In other words, what makes a given dish delectable to the palate? In my own forays into the kitchen, some culinary creations have turned out exceptionally well while others were less successful. Yet, the raw materials that went into these dishes were not drastically different, except perhaps for the relative proportions and the spices. I posit that the key lies in the complex interfaces between the dish constituents; these interact in a manner that we don’t yet fully understand.
你有没有想过为什么食物的味道是好是坏?换言之,是什么让一道菜变得美味可口?在我自己进军厨房的过程中,一些烹饪创意表现得异常出色,而另一些则不太成功。然而,除了相对比例和香料之外,这些菜肴的原料并没有太大的不同。我认为关键在于菜肴成分之间的复杂界面;它们以一种我们还不完全理解的方式相互作用。
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引用次数: 0
Next-Generation Aviation Li-Ion Battery Technologies—Enabling Electrified Aircraft 下一代航空锂离子电池技术——实现电气化飞机
IF 1.8 Q4 ELECTROCHEMISTRY Pub Date : 2022-09-01 DOI: 10.1149/2.f10223if
T. Barrera, James R. Bond, M. Bradley, R. Gitzendanner, E. Darcy, M. Armstrong, Chaoyang Wang
Recent advances in electrode materials, manufacturing processes, and safety features are enabling Li-ion battery (LIB) designs to better support energy storage needs for the emerging all-electric aviation market. Increases in cell specific energy, improved fast charge and discharge rate capability, and extended cycle-life are required for the next-generation aviation platforms that consist of more-electric, hybrid, and all-electric aircraft designed to reduce generated flight noise and carbon emissions. The success of these emerging Advanced Air Mobility (AAM) markets is highly dependent upon implementing a safe and reliable energy storage system compliant with aircraft system requirements. This work discusses state-of-the-art (SOA) and emerging LIB technology readiness to meet the derived marketplace performance and imposed regulatory requirements for all-electric aircraft. A special focus on advanced LIB safety design guidelines intended to meet the intent of the FAA DO-311A minimum operational performance standard for rechargeable lithium batteries and battery systems installed on aircraft is emphasized.
电极材料、制造工艺和安全特性方面的最新进展使锂离子电池(LIB)设计能够更好地支持新兴全电动航空市场的储能需求。下一代航空平台需要提高电池比能量,提高快速充放电能力,延长循环寿命,这些平台包括更多的电动、混合动力和全电动飞机,旨在减少产生的飞行噪音和碳排放。这些新兴的先进空中机动(AAM)市场的成功高度依赖于实施符合飞机系统要求的安全可靠的储能系统。这项工作讨论了最先进的(SOA)和新兴的LIB技术准备,以满足衍生的市场性能和对全电动飞机的强制监管要求。特别强调了先进LIB安全设计指南,旨在满足FAA DO-311A可充电锂电池和飞机上安装的电池系统的最低操作性能标准。
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引用次数: 1
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Electrochemical Society Interface
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