Significant Radiation Tolerance and Moderate Reduction in Thermal Transport of a Tungsten Nanofilm by Inserting Monolayer Graphene

Si, Shuyao; Li, Wenqing; Zhao, Xiaolong; Han, Meng; Yue, Yanan; Wu, W.; Guo, Shishang; Zhang, Xingang; Dai, Zhigao; Wang, Xinwei; Xiao, Xin; Jiang, Changzhong

doi:10.1002/adma.201604623

Cited by 53 publications

(28 citation statements)

References 50 publications

(82 reference statements)

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“…Comparing with inner grains, GBs are favored nucleation sites for He bubbles. Such irradiation induced bubbles prefer alignment and distribution along the GBs . As the local concentration of He increases, the He bubble formation mechanism appears to have three distinct stages, including (a) He bubble formation along GB, (b) He bubble chain formation inside grain and (c) ribbon‐like He bubble formation inside grain.…”

Section: Resultsmentioning

confidence: 99%

“…For instance, enhanced radiation resistance to amorphization was observed for nanostructured MgGa 2 O 4 , yttria stabilized zirconia (YSZ), and Gd 2 (Ti 0.65 Zr 0.35 ) 2 O 7 powder . Additionally, improved radiation tolerance to swelling and hardening caused by He bubble was also observed for nanostructured steel, tungsten film, and Fe–Cr–Ni alloy . Nevertheless, thus far, the exact role of GB and/or grain size in (a) structural orderness or amorphization, (b) cell volume expansion, and (c) bubble formation induced by He irradiation for the A 2 B 2 O 7 ceramic, remains unclear.…”

Section: Introductionmentioning

confidence: 99%

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Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

Huang

et al. 2019

J Am Ceram Soc

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Here, we report a study on the radiation resistance enhancement of Gd 2 Zr 2 O 7 nanograin ceramics, in which amorphization, cell volume expansion, and multi-stage helium (He) bubble formation are investigated and discussed. Gd 2 Zr 2 O 7 ceramics with a series of grain sizes (55-221 nm) were synthesized and irradiated by 190 keV He ion beam up to a fluence of 5 × 10 17 ions/cm 2 . Both the degree of post irradiation cell volume expansion and the amorphization fraction appear to be size-dependent.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

Huang

et al. 2019

J Am Ceram Soc

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“…Very recently, studies have shown that interfaces play a positive role in helium accumulation inhibition. 21,22 For example, interfaces can reduce the He bubble density during irradiation of solid-state materials. 21,22 Grain boundaries are found to play a similar role as that of interfaces.…”

Section: Introductionmentioning

confidence: 99%

He irradiation‐induced lattice distortion and surface blistering of Gd₂Zr₂O₇ defect‐fluorite ceramics

et al. 2020

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Gd2Zr2O7 ceramics with different grain sizes ranging from nanoscale to submicron scale (91, 204, and 634 nm) were irradiated at room temperature using 190 keV He ions with doses ranging from 5 × 1016 to 5 × 1017 ions/cm2. We fully characterized the pre‐ and post‐irradiation samples using grazing‐incidence X‐ray diffraction (GIXRD), scanning electron microscope (SEM), and atomic force microscope (AFM) as the grain size and degree of irradiation vary. The results suggested that all three Gd2Zr2O7 samples demonstrate outstanding radiation tolerance to displacement damage by retaining their crystallinity after irradiation at 5 × 1017 ions/cm2. which is equal to 16 displacement per atom (dpa) at peak positions. Although lattice expansion was observed at a He irradiation at 5 × 1016 ions/cm2 and beyond, the lattice remained stable for the nanograin ceramic, while the degree of distortion for the sample with the largest grain size (634 nm) continuously increased. Moreover, a delayed He bubble evolution process was seen for the nanograin ceramic, which did not appear for the submicron‐grained sample. Interestingly, the grain size‐dependent surface blistering was also found to be a function of ion fluence. After He irradiation at 5 × 1017 ions/cm2 the AFM root‐mean‐square(RMS) roughness variation for Gd2Zr2O7 ceramics of 91, 204, and 634 nm were 4.8, 7.0, and 11.1 nm, respectively.

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“…This was because the graphene interface absorbed radiation defects spontaneously caused by cascade collisions before achieving self-repair. A He ion implantation experiment in graphene/W multi-layer materials revealed that the insertion of graphene both reduced radiation damage and made He bubbles less likely to form [25].…”

Section: Introductionmentioning

confidence: 99%

Carbon Nanotubes Enhance the Radiation Resistance of bcc Iron Revealed by Atomistic Study

et al. 2019

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With extra space, a carbon nanotube (CNT) could serve as an absorber of point defects, including helium interstitials, and outgas the accumulate helium via “nano-chimneys”. The radiation resistance of CNT/Fe has still not been fully understood. Herein, we investigated the influence of CNTs on low-energy helium irradiation resistance in CNT/Fe composites by molecular dynamic simulations. CNTs reduced the small and medium He clusters in the Fe matrix. When the incident energy of the He atoms was 300 eV, the He atoms aggregated at the outer surface of CNTs. CNTs postponed the formation of He bubbles. When the irradiation energy was higher than 600 eV, He atoms could penetrate the walls of CNTs and form clusters inside the single-walled CNTs or the space in double-walled CNTs—the latter presented better performance. The reduction of Frenkel pair point defects suggested the enhancement of radiation resistance by the presentation of CNTs. Our results might be useful for the material design of advanced steels for radiation resistance.

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Significant Radiation Tolerance and Moderate Reduction in Thermal Transport of a Tungsten Nanofilm by Inserting Monolayer Graphene

Cited by 53 publications

References 50 publications

Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

He irradiation‐induced lattice distortion and surface blistering of Gd₂Zr₂O₇ defect‐fluorite ceramics

Carbon Nanotubes Enhance the Radiation Resistance of bcc Iron Revealed by Atomistic Study

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Significant Radiation Tolerance and Moderate Reduction in Thermal Transport of a Tungsten Nanofilm by Inserting Monolayer Graphene

Cited by 53 publications

References 50 publications

Defect‐fluorite Gd2Zr2O7 ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

Defect‐fluorite Gd2Zr2O7 ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

He irradiation‐induced lattice distortion and surface blistering of Gd2Zr2O7 defect‐fluorite ceramics

Carbon Nanotubes Enhance the Radiation Resistance of bcc Iron Revealed by Atomistic Study

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Product

Resources

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Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

Defect‐fluorite Gd₂Zr₂O₇ ceramics under helium irradiation: Amorphization, cell volume expansion, and multi‐stage bubble formation

He irradiation‐induced lattice distortion and surface blistering of Gd₂Zr₂O₇ defect‐fluorite ceramics