Yonghe Xiao scite author profile

Yonghe Xiao

5Publications

24Citation Statements Received

69Citation Statements Given

How they've been cited

How they cite others

118

Affiliations

Donghua University, Nanchang Institute of Technology, Jiangxi Normal University

Publications

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Complete System to Generate Clean Water from a Contaminated Water Body by a Handmade Flower-like Light Absorber

et al. 2021

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The utilization of solar energy to make human lives better has been one of the primary and green approaches adopted by ordinary people and researchers for decades. This approach has recently gained a lot of attention as a way to tackle clean water scarcity in remote areas. Costly components, complex manufacturing procedures with rarely available equipment, and a surface to condense water vapors are challenges in the way of its application in the required areas. Here, we propose a complete system to solve this problem with a handmade light absorber and a superhydrophilic surface (antifogging) to get vapors back to collect clean water. Our handmade flower-like light absorber stitched by crochet work, the single stitch method, was able to get a decent evaporation rate of 1.75 kg/m 2 ·h in pure water and slightly lower rates of 1.62 and 1.65 kg/m 2 ·h with brine and pond water, respectively. Still, our proposed superhydrophilic coated surface can collect ∼37% more water than the pristine surface. This system has a huge potential for use in rural areas because of multiple key advantages, such as simple technology, readily available low-cost raw materials, and easy fabrication.

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Thermally regulated cotton fabric coated with expanded graphite stabilized paraffin mixture as composite phase change material

Zhang

Xing

Shang

et al. 2021

PRT

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Purpose This study aims to manufacture cotton fabric with thermal regulation performance by using the composite phase change material (CPCM) prepared by coating paraffin doped with expanded graphite (EG), and the thermal effect of the fabric material was evaluated and characterized. Design/methodology/approach EG/paraffin CPCM with shape stability and enhanced thermal conductivity were prepared by the impregnation method and then finished on the surface of cotton fabric with coating technology. The microstructure, crystal structure, chemical composition, latent heat property and thermal conductivity were analyzed by scanning electron microscope, x-ray diffraction, Fourier transform infrared spectroscopy, differential scanning calorimeter and thermal constant analyzer. The photo-thermal effect of the coated fabric was studied by a thermal infrared imager. Findings CPCM prepared with a mass ratio of EG to paraffin of 1:8 showed excellent shape stability and low paraffin leakage rate. The latent heat of the CPCM was 51.6201 J/g and the thermal conductivity coefficient was increased by 11.4 times compared with the mixed paraffin. After the CPCM was coated on the surface of the cotton fabric, the light-to-heat conversion rate of the C-EG/PA3 sample was improved by 86.32% compared with the original fabric. In addition, the coated fabric showed excellent thermal stability and heat storage performance in the thermal cycling test. Research limitations/implications EG can improve the shape stability and thermal conductivity of paraffin but will reduce the latent heat energy. Practical implications The method developed provided a simple and practical solution to improving the thermal regulation performance of fabrics. Originality/value Combining paraffin wax with fabrics in a composite way is innovative and has certain applicability in improving the thermal properties of fabrics.

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Skin inspired thermoresponsive polymer for constructing self-cooling system

Sun

Javed

et al. 2022

Energy Conversion and Management

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Disseminating Sustainable Development Education in English language through individuals learning capabilities and institutional infrastructural initiatives

Xiao

Pan

2022

Economic Research-Ekonomska Istraživanja

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Retraction Note: A conversational analysis of aging in China from a cross-section of the labour market: a corpus-based study

Xiao

2023

Humanit Soc Sci Commun

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Yonghe Xiao

Complete System to Generate Clean Water from a Contaminated Water Body by a Handmade Flower-like Light Absorber

Thermally regulated cotton fabric coated with expanded graphite stabilized paraffin mixture as composite phase change material

Skin inspired thermoresponsive polymer for constructing self-cooling system

Disseminating Sustainable Development Education in English language through individuals learning capabilities and institutional infrastructural initiatives

Retraction Note: A conversational analysis of aging in China from a cross-section of the labour market: a corpus-based study

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