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Literature DB >> 31895532

Electrode Degradation in Lithium-Ion Batteries.

Joshua P Pender, Gaurav Jha¹, Duck Hyun Youn², Joshua M Ziegler¹, Ilektra Andoni¹, Eric J Choi¹, Adam Heller, Bruce S Dunn, Paul S Weiss, Reginald M Penner¹, C Buddie Mullins.

Abstract

Although Li-ion batteries have emerged as the battery of choice for electric vehicles and large-scale smart grids, significant research efforts are devoted to identifying materials that offer higher energy density, longer cycle life, lower cost, and/or improved safety compared to those of conventional Li-ion batteries based on intercalation electrodes. By moving beyond intercalation chemistry, gravimetric capacities that are 2-5 times higher than that of conventional intercalation materials (e.g., LiCoO2 and graphite) can be achieved. The transition to higher-capacity electrode materials in commercial applications is complicated by several factors. This Review highlights the developments of electrode materials and characterization tools for rechargeable lithium-ion batteries, with a focus on the structural and electrochemical degradation mechanisms that plague these systems.

Entities: Chemical

Keywords: alloy electrode; conversion electrode; electrode degradation; electrodes; energy storage; intercalation electrode; lithium-ion battery; nanostructure; solid electrolyte interphase

Year: 2020 PMID： 31895532 DOI： 10.1021/acsnano.9b04365

Source DB: PubMed Journal: ACS Nano ISSN： 1936-0851 Impact factor: 15.881

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Cited

18 in total

1. Wrinkled Flower-Like rGO intercalated with Ni(OH)₂ and MnO₂ as High-Performing Supercapacitor Electrode.

Authors: Yeasin Arafat Tarek; Ragib Shakil; Akter Hossain Reaz; Chanchal Kumar Roy; Hasi Rani Barai; Shakhawat H Firoz
Journal: ACS Omega Date: 2022-06-02

2. A multi-technique approach to understanding delithiation damage in LiCoO₂ thin films.

Authors: E Salagre; S Quílez; R de Benito; M Jaafar; H P van der Meulen; E Vasco; R Cid; E J Fuller; A A Talin; P Segovia; E G Michel; C Polop
Journal: Sci Rep Date: 2021-06-08 Impact factor: 4.379

3. Polytriphenylamine composites for energy storage electrodes: effect of pendant vs. backbone polymer architecture of the electroactive group.

Authors: Afshin Dianatdar; Okan Akin; Irene Mongatti; Jamo Momand; Giacomo Ruggeri; Francesco Picchioni; Ranjita K Bose
Journal: RSC Adv Date: 2021-11-01 Impact factor: 4.036

4. Improving Cyclability of All-Solid-State Batteries via Stabilized Electrolyte-Electrode Interface with Additive in Poly(propylene carbonate) Based Solid Electrolyte.

Authors: Pravin N Didwal; Rakesh Verma; An-Giang Nguyen; H V Ramasamy; Gwi-Hak Lee; Chan-Jin Park
Journal: Adv Sci (Weinh) Date: 2022-03-03 Impact factor: 17.521

Review 5. Nano and Battery Anode: A Review.

Authors: Hasan Sh Majdi; Zagir Azgarovich Latipov; Vitaliy Borisov; Nedorezova Olga Yuryevna; Mustafa M Kadhim; Wanich Suksatan; Ibrahim Hammoud Khlewee; Ehsan Kianfar
Journal: Nanoscale Res Lett Date: 2021-12-11 Impact factor: 4.703

6. A study on Ti-doped Fe₃O₄ anode for Li ion battery using machine learning, electrochemical and distribution function of relaxation times (DFRTs) analyses.

Authors: Po-Wei Chi; Tanmoy Paul; Yu-Hsuan Su; Kai-Han Su; Cherng-Yuh Su; Phillip M Wu; Sea-Fue Wang; Maw-Kuen Wu
Journal: Sci Rep Date: 2022-03-22 Impact factor: 4.996

Review 7. Identifying surface degradation, mechanical failure, and thermal instability phenomena of high energy density Ni-rich NCM cathode materials for lithium-ion batteries: a review.

Authors: Fikadu Takele Geldasa; Mesfin Abayneh Kebede; Megersa Wodajo Shura; Fekadu Gashaw Hone
Journal: RSC Adv Date: 2022-02-16 Impact factor: 3.361