Search results for: GRAPHITE ANODE

• A facile strategy for reclaiming discarded graphite and harnessing the rate capabilities of graphite anodes

  Publication

  • H. Tian
  • M. Graczyk-Zajac
  • D. M. De Carolis
  • C. Tian
  • E. I. Ricohermoso
  • Z. Yang
  • W. Li
  • M. Wilamowska-Zawłocka
  • J. P. Hofmann
  • A. Weidenkaff
  • R. Riedel

  - JOURNAL OF HAZARDOUS MATERIALS - Year 2023

  Graphite negative electrodes are unbeaten hitherto in lithium-ion batteries (LiBs) due to their unique chemical and physical properties. Thus, the increasing scarcity of graphite resources makes smart recycling or repurposing of discarded graphite particularly imperative. However, the current recycling techniques still need to be improved upon with urgency. Herein a facile and efficient hydrometallurgical process is reported to...

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• Mechanism of Li nucleation at graphite anodes and mitigation strategies

  Publication

  • C. Peng
  • A. Bhandari
  • J. Dziedzic
  • J. R. Owen
  • C. Skylaris
  • D. Kramer

  - Journal of Materials Chemistry A - Year 2021

  Lithium metal plating is a critical safety issue in Li-ion cells with graphite anodes, and contributes significantly to ageing, drastically limiting the lifetime and inducing capacity loss. Nonetheless, the nucleation mechanism of metallic Li on graphite anodes is still poorly understood. But in-depth understanding is needed to rationally design mitigation measures. In this work, we conducted FirstPrinciples studies to elucidate...

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• Li nucleation on the graphite anode under potential control in Li-ion batteries

  Publication

  • A. Bhandari
  • C. Peng
  • J. Dziedzic
  • J. R. Owen
  • D. Kramer
  • C. Skylaris

  - Journal of Materials Chemistry A - Year 2022

  Application of Li-ion batteries in electric vehicles requires improved safety, increased lifetime and high charging rates. One of the most commonly used intercalation anode material for Li-ion batteries, graphite, is vulnerable to Li nucleation, a side reaction which competes with the intercalation process and leads to loss of reversible capacity of the battery, ageing and short-circuits. In this study, we deploy a combined grand...

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• Mechanisms of Li deposition on graphite anodes: surface coverage and cluster growth

  Publication

  • A. Bhandari
  • J. Dziedzic
  • J. R. Owen
  • D. Kramer
  • C. Skylaris

  - Journal of Materials Chemistry A - Year 2024

  Li plating on the anode is a side reaction in Li-ion batteries which competes with Li intercalation and leads to loss of capacity. Growth of Li clusters into dendrites is a potential safety hazard for batteries which can lead to internal short-circuit and fires. We consider two possibilities of Li deposition on the surface of graphite anode: deposition of Li+ ions uniformly on the surface and deposition of clusters of metallic...

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• Fabrication of 3D graphene/MoS2 spherical heterostructure as anode material in Li-ion battery

  Publication

  • K. Wenelska
  • V. Adam
  • E. Thauer
  • L. Singer
  • R. Klingeler
  • X. Chen
  • E. Mijowska
  • E. Mijowska

  - Frontiers in Energy Research - Year 2022

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• Controlled oxidation of graphite to graphene oxide with novel oxidants in a bulk scale

  Publication

  • M. Wojtoniszak
  • E. Mijowska

  - JOURNAL OF NANOPARTICLE RESEARCH - Year 2012

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• Graphitic carbon nitride/graphene oxide/reduced graphene oxide nanocomposites for photoluminescence and photocatalysis

  Publication

  • M. Aleksandrzak
  • W. Kukulka
  • E. Mijowska
  • W. Kukułka

  - Applied Surface Science - Year 2017

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• Ultrafast self-expanded reduced graphene oxide and 2D MoS2 based films as anode in Li-ion battery

  Publication

  • T. Kędzierski
  • K. Wenelska
  • D. Bęben
  • B. Zielińska
  • E. Mijowska

  - Electrochimica Acta - Year 2022

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• Nano Tin/Tin Oxide Attached onto Graphene Oxide Skeleton as a Fluorine Free Anode Material for Lithium-Ion Batteries

  Publication

  • A. Nowak
  • K. Trzciński
  • M. Szkoda
  • G. Trykowski
  • M. Gazda
  • J. Karczewski
  • M. S. Łapiński
  • D. Maskowicz
  • M. Sawczak
  • A. Lisowska-Oleksiak

  - INORGANIC CHEMISTRY - Year 2020

  Herein, we show a composite formation method of tin/tin oxide nanoparticles with graphene oxide and CMC based on laser ablation technique as an electrode material for energy storage devices. The material exhibited a three-dimensional conducting graphene oxide network decorated with tin or tin oxide nanoparticles. The structure, homogeneous distribution of nanoparticles, and direct contact between inorganic and organic parts were...

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• Anode Materials for Sodium-Ion Battery

  Publication

  • M. Graczyk-Zajac
  • A. Kempf
  • M. Wilamowska-Zawłocka

  - Year 2024

  There is an urgent need to develop a highly efficient, low-cost alternative to the now-ubiquitous lithium-ion batteries (LIBs). A cheaper and less resource-critical sodium-ion battery (NIB) technology has recently gained much attention. Thus, there is also continuous research ongoing on stable, high-capacity anode materials for NIBs. Dependent on the mechanism of the electrochemical reaction, the negative electrode materials can...

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