Critical Challenges in Rechargeable Aprotic Li–O_2 Batteries

Feng Ningning; He Ping; Zhou Haoshen

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Critical Challenges in Rechargeable Aprotic Li–O_2 Batteries

机译：可充电非质子LI-O_2电池中的危急挑战

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Rechargeable aprotic Li-O-2 batteries are one of the most promising next-generation battery technologies that can deliver extremely high energy density. In the past decades, this technology has attracted worldwide attention, and considerable progress has been achieved. However, numerous critical scientific challenges remain to be solved for practical applications. A specific discussion of recent progress from the perspective of the stable aprotic Li-O-2 system with high energy efficiency is presented. The discussion is highlighted on the reaction mechanisms on air cathode, stability of cell components in semi-open surroundings, and improvement of battery performance by catalyst design. Challenges and perspectives are also presented. This study provides an intensive understanding of aprotic Li-O-2 batteries and offers an important guideline for developing reversible and high-efficiency Li-O-2 batteries.

机译：可充电的非质子Li-O-2电池是最有前途的下一代电池技术之一，可以提供极高的能量密度。在过去的几十年中，这项技术引起了全世界的关注，实现了相当大的进展。但是，对于实际应用，仍有许多关键科学挑战仍有待解决。提出了对具有高能量效率的稳定非质子Li-O-2系统的近期进步的具体讨论。探讨在空气阴极上的反应机制，半开放式环境中细胞组分的稳定性以及通过催化剂设计提高电池性能。还提出了挑战和观点。本研究提供了对非智能化电池的密集理解，并提供了一种开发可逆和高效LI-O-2电池的重要指导。

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《Advanced energy materials》 |2016年第9期|1502303.1-1502303.24|共24页
作者
Feng Ningning; He Ping; Zhou Haoshen;
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Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Nanjing 210093 Jiangsu Peoples R China;

Nanjing Univ Coll Engn & Appl Sci Ctr Energy Storage Mat & Technol Natl Lab Solid State Microstruct Nanjing 210093 Jiangsu Peoples R China|Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Nanjing 210093 Jiangsu Peoples R China;

Nanjing Univ Coll Engn & Appl Sci Ctr Energy Storage Mat & Technol Natl Lab Solid State Microstruct Nanjing 210093 Jiangsu Peoples R China|Nanjing Univ Collaborat Innovat Ctr Adv Microstruct Nanjing 210093 Jiangsu Peoples R China|Natl Inst Adv Ind Sci & Technol Energy Technol Res Inst Umezono 1-1-1 Tsukuba Ibaraki 3058568 Japan;

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1. Challenges and opportunities of nanostructured materials for aprotic rechargeable lithium-air batteries [J] . Wang J., Li Y., Sun X. Nano Energy . 2013,第4期

机译：非质子可充电锂空气电池纳米结构材料的挑战与机遇
2. Predicting solvent stability in aprotic electrolyte Li-air batteries: Nucleophilic substitution by the superoxide anion radical (O_2~(?-)) [J] . Bryantsev V.S., Giordani V., Walker W., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2011,第44期

机译：预测非质子电解质锂空气电池的溶剂稳定性：超氧阴离子自由基（O_2〜（？-））的亲核取代
3. In Situ Realization of Water-Mediated Interfacial Processes at Nanoscale in Aprotic Li–O_2 Batteries [J] . Shen Zhen-Zhen, Lang Shuang-Yan, Zhou Chi, Advanced energy materials . 2020,第46期

机译：原位实现纳米型纳米尺度的水介导界面过程
4. Electrochemical and Structural Investigations of xLiLi_(0.33)Mn_(0.66)O_2 (1-x)LiNi_(0.8)Co_(0.15)Zr_(0.05)O_2 (0.3≤ x ≤ 0.7) Composite Layered Oxide Cathode for Rechargeable Lithium Ion Batteries [C] . S. Sivaprakash, R.S. Katiyar, S.B. Majumder Batteries(General) . 2008

机译：xLi Li_（0.33）Mn_（0.66） O_2（1-x）Li Ni_（0.8）Co_（0.15）Zr_（0.05） O_2（0.3≤x≤0.7）复合层状氧化物阴极的电化学和结构研究可充电锂离子电池
5. Rechargeable Battery Circuit Modeling and Analysis of the Battery Characteristic in Charging and Discharging Processes. [D] . Kong, Dexinghui. 2012

机译：充电和放电过程中可充电电池电路建模和电池特性分析。
6. Rechargeable Batteries: Nanoporous UHMWPE Membrane Separators for Safer and High‐Power‐Density Rechargeable Batteries (Global Challenges 4/2017) [O] . Runlai Li, Ping Gao 2017

机译：可充电电池：用于安全和高功率密度可充电电池的纳米多孔UHMWPE膜分离器（全球挑战4/2017）
7. Potential-Dependent Generation of O2 and LiO2 and Their Critical Roles in O2 Reduction to Li2O2 in Aprotic LiO2 Batteries [O] . -1

机译：O2和LiO 2的潜在依赖性产生及其在非质子LiO 2电池中的O2降低至Li2O2中的关键作用

Critical Challenges in Rechargeable Aprotic Li–O_2 Batteries

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