2020
DOI: 10.1038/s41598-020-58439-z
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Two dimensional (2D) reduced graphene oxide (RGO)/hexagonal boron nitride (h-BN) based nanocomposites as anodes for high temperature rechargeable lithium-ion batteries

Abstract: With lithium-ion (li-ion) batteries as energy storage devices, operational safety from thermal runaway remains a major obstacle especially for applications in harsh environments such as in the oil industry. In this approach, a facile method via microwave irradiation technique (MWI) was followed to prepare co 3 o 4 /reduced graphene oxide (RGO)/hexagonal boron nitride (h-BN) nanocomposites as anodes for high temperature li-ion batteries. Results showed that the addition of h-BN not only enhanced the thermal sta… Show more

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Cited by 58 publications
(33 citation statements)
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“…[248,249,[260][261][262]264,[268][269][270][271][272] A typical fabrication method involves mixing exfoliated flakes of 2D material and rGO, and then preparing a free-standing film using a process such as vacuum filtration. [55,273,274] For example, David et al fabricated a free-standing hybrid electrode using rGO and MoS 2 particles as anodes for SIBs. (Figure 7b) [274] Firstly, few-layer MoS 2 with theoretical capacity of 670 mAh g −1 , prepared through an acid-based exfoliation process, was mixed with GO flakes in water to prepare a homogenous dispersion solution.…”
Section: Other 2d Materialsmentioning
confidence: 99%
See 1 more Smart Citation
“…[248,249,[260][261][262]264,[268][269][270][271][272] A typical fabrication method involves mixing exfoliated flakes of 2D material and rGO, and then preparing a free-standing film using a process such as vacuum filtration. [55,273,274] For example, David et al fabricated a free-standing hybrid electrode using rGO and MoS 2 particles as anodes for SIBs. (Figure 7b) [274] Firstly, few-layer MoS 2 with theoretical capacity of 670 mAh g −1 , prepared through an acid-based exfoliation process, was mixed with GO flakes in water to prepare a homogenous dispersion solution.…”
Section: Other 2d Materialsmentioning
confidence: 99%
“…The graphene prepared by both aforementioned methods has the advantage of retaining the pristine characteristics of graphene while forming various nano/macro structures. [53][54][55][56][57][58][59] Therefore, the electrodes developed from the nano/micro-structured graphene with varying dimensions are ideal for improving the performance of the fabricated batteries. For example, 0D nanoparticles [51,[60][61][62][63] and 1D ribbons/wires [64][65][66] are very effective in improving battery performance because of conductivity and surface area of graphene.…”
Section: Introductionmentioning
confidence: 99%
“…In addition to the improved electron transfer efficiency (e.g., by introducing graphene) as discussed in Section 2.5, the multifunctions are critical in realizing and improving some functional second batteries (e.g., the flexible metal-air and thermoelectric batteries). [237][238][239][240][241][242][243][244][245][246][247][248] The flexibility and the thermal management can be achieved by directly incorporating 2D materials (e.g., graphene and hBN) into the devices, [240,246] so, instead of doing a further discussion on them, we will focus our discussion next on the improved energy storage performance and the newly induced catalysis from the hybrid engineering.…”
Section: Hybrid and Hierarchical Structuresmentioning
confidence: 99%
“…More recently, Mussa et al [490] used a microwave irradiation technique to prepare Co 3 O 4 /rGO/ hexagonal boron nitride (h-BN) nanocomposites as anodes for high-temperature LIBs. The addition of h-BN not only enhances the thermal stability but also increases the specific surface area (191 m 2 g −1 ) of composites.…”
Section: O 5 -Based Compositesmentioning
confidence: 99%