Zhemian Ying scite author profile

Zhemian Ying

2Publications

4Citation Statements Received

0Citation Statements Given

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126

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University of Chinese Academy of Sciences, Shanghai Institute of Applied Physics, Chinese Academy of Sciences

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High-Efficiency Ion Enrichment inside Ultra-Short Carbon Nanotubes

Wang

Ying

et al. 2022

Nanomaterials

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The ion-enrichment inside carbon nanotubes (CNTs) offers the possibility of applications in water purification, ion batteries, memory devices, supercapacitors, field emission and functional hybrid nanostructures. However, the low filling capacity of CNTs in salt solutions due to end caps and blockages remains a barrier to the practical use of such applications. In this study, we fabricated ultra-short CNTs that were free from end caps and blockages using ball milling and acid pickling. We then compared their ion-enrichment capacity with that of long CNTs. The results showed that the ion-enrichment capacity of ultra-short CNTs was much higher than that of long CNTs. Furthermore, a broad range of ions could be enriched in the ultra-short CNTs including alkali-metal ions (e.g., K+), alkaline-earth-metal ions (e.g., Ca2+) and heavy-metal ions (e.g., Pb2+). The ultra-short CNTs were much more unobstructed than the raw long CNTs, which was due to the increased orifice number per unit mass of CNTs and the decreased difficulty in removing the blockages in the middle section inside the CNTs. Under the hydrated-cation–π interactions, the ultra-short CNTs with few end caps and blockages could highly efficiently enrich ions.

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Unexpected hygroscopic behaviors of individual sub-50 nm NaNO3 nanoparticles observed by in situ atomic force microscopy

Ying

Zhang

Zhou

et al. 2022

Science of The Total Environment

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Zhemian Ying

High-Efficiency Ion Enrichment inside Ultra-Short Carbon Nanotubes

Unexpected hygroscopic behaviors of individual sub-50 nm NaNO3 nanoparticles observed by in situ atomic force microscopy

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