Your search keyword '"Ge-Zhang, Shangjie"' showing total 13 results

1. Light and wood: A review of optically transparent wood for architectural applications

Author

Yang, Hong, Wang, Hang, Cai, Taoyang, Ge-Zhang, Shangjie, and Mu, Hongbo

Published

2023

2. Interfacial solar steam generator by MWCNTs/carbon black nanoparticles coated wood

Author

Ge-Zhang, Shangjie, Yang, Hong, and Mu, Hongbo

Published

2023

3. Wood Sponge for Oil–Water Separation.

Author

Zhang, Chang, Cai, Taoyang, Ge-Zhang, Shangjie, Mu, Pingxuan, Liu, Yuwen, and Cui, Jingang

Subjects

FATIGUE limit, WOOD, SEWAGE purification, PETROLEUM, OIL spills

Abstract

In addition to filtering some sediments, hydrophobic wood sponges can also absorb many organic solvents, particularly crude oil. The leakage of crude oil poses a serious threat to the marine ecosystem, and oil mixed with water also generates great danger for its use. From the perspective of low cost and high performance, wood sponges exhibit great potential for dealing with crude oil pollution. Wood sponge is a renewable material. With a highly oriented layered structure and a highly compressible three-dimensional porous frame, wood sponges are extremely hydrophobic, making them ideal for oil–water separation. Currently, the most common approach for creating wood sponge is to first destroy the wood cell wall to obtain a porous-oriented layered structure and then enhance the oil–water separation ability via superhydrophobic treatment. Wood sponge prepared using various experimental methods and different natural woods exhibits distinctive properties in regards to robustness, compressibility, fatigue resistance, and oil absorption ability. As an aerogel material, wood sponge offers multi-action (absorption, filtration) and reusable oil–water separation functions. This paper introduces the advantages of the use of wood sponge for oil–water separation. The physical and chemical properties of wood sponge and its mechanism of adsorbing crude oil are explained. The synthesis method and the properties are discussed. Finally, the use of wood sponge is summarized and prospected. [ABSTRACT FROM AUTHOR]

Published

2024

4. Excellent Antibacterial Properties of Silver/Silica–Chitosan/Polyvinyl Alcohol Transparent Film.

Author

Cai, Taoyang, Ge-Zhang, Shangjie, Zhang, Chang, Mu, Pingxuan, and Cui, Jingang

Subjects

*POLYVINYL alcohol, *TENSILE tests, *GRAM-negative bacteria, *CONTACT angle, *STAPHYLOCOCCUS aureus

Abstract

Transparent films with excellent antibacterial properties and strong mechanical properties are highly sought after in packaging applications. In this study, Ag/SiO2 nanoparticles were introduced into a mixed solution of chitosan (CS) and polyvinyl alcohol (PVA) and a Ag/SiO2-CS-PVA transparent film was developed. The excellent properties of the film were confirmed by light transmittance, water contact angle tests and tensile tests. In addition, for the antibacterial test, the antibacterial properties of the sample against Gram-negative bacteria (Escherichia coli) and Gram-positive bacteria (Staphylococcus aureus) were explored, and the average size of the bacteriostatic circle was measured by the cross method. The final results show that Ag/SiO2-CS-PVA transparent film has the advantages of good antibacterial properties, high transparency and high mechanical strength. [ABSTRACT FROM AUTHOR]

Published

2024

5. Fabrication of PVA–Silica Sol Wood Composites via Delignification and Freezing Pretreatment.

Author

Cong, Rizheng, Cai, Taoyang, Ge-Zhang, Shangjie, Yang, Hong, and Zhang, Chang

Subjects

ENGINEERED wood, DELIGNIFICATION, WOOD, POLYVINYL alcohol, COLLOIDS

Abstract

The efficient exploitation of planted fast-growing wood is crucial for enhancing wood resource utilization. In this study, the fast-growing poplar wood was modified by in situ impregnation through vacuum impregnation with polyvinyl alcohol and nano-silica sol as impregnation modifiers, combined with delignification–freezing pretreatment. The samples were characterized by FTIR, XRD, SEM, and the universal mechanical testing machine. The results showed that the wrinkle deformation and cracking of the wood blocks were greatly alleviated after the delignification–freezing pretreatment and the polyvinyl alcohol and nano-silica sol were successfully integrated into the wood. The resulting polyvinyl alcohol–silica sol poplar composites exhibited about 216%, 80% and 43% higher compressive strength with respect to delignified wood, natural wood and impregnated natural wood, respectively, thereby demonstrating superior mechanical properties and potential opportunities for value-added and efficient utilization of low-quality wood. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Wooden Carbon-Based Photocatalyst for Water Treatment.

Author

Zhang, Chang, Ge-Zhang, Shangjie, Wang, Yudong, and Mu, Hongbo

Subjects

*WATER purification, *PHYSISORPTION, *PHOTODEGRADATION, *BIOCHAR, *WATER use, *WATER pollution, *WATER treatment plants

Abstract

Due to a large number of harmful chemicals flowing into the water source in production and life, the water quality deteriorates, and the use value of water is reduced or lost. Biochar has a strong physical adsorption effect, but it can only separate pollutants from water and cannot eliminate pollutants fundamentally. Photocatalytic degradation technology using photocatalysts uses chemical methods to degrade or mineralize organic pollutants, but it is difficult to recover and reuse. Woody biomass has the advantages of huge reserves, convenient access and a low price. Processing woody biomass into biochar and then combining it with photocatalysts has played a complementary role. In this paper, the shortcomings of a photocatalyst and biochar in water treatment are introduced, respectively, and the advantages of a woody biochar-based photocatalyst made by combining them are summarized. The preparation and assembly methods of the woody biochar-based photocatalyst starting from the preparation of biochar are listed, and the water treatment efficiency of the woody biochar-based photocatalyst using different photocatalysts is listed. Finally, the future development of the woody biochar-based photocatalyst is summarized and prospected. [ABSTRACT FROM AUTHOR]

Published

2024

7. Consumers' Risk Perception of Triploid Food: Empirical Research Based on Variance Analysis and Structural Equation Modeling.

Author

Qi, Qi, Cai, Taoyang, Zhou, Keyu, Hu, Zhitao, Hao, Fanjie, Wei, Yutong, Ge-Zhang, Shangjie, and Cui, Jingang

Abstract

With the advancement of new food processing technology, triploid technology has emerged as a viable option to enhance plant yield and improve crop stress resistance. However, like many emerging technologies, food produced using triploid technology has sparked controversy regarding its safety since its inception. Particularly, consumers generally have a limited understanding of new technologies employed in food production, leading to concerns about potential risks and uncertainties associated with these technologies. Such concerns can significantly impact consumers' acceptance and purchasing intentions toward foods modified using new technologies. This study collected 375 questionnaires from both online and offline sources and conducted a detailed analysis of consumers' demographic variables, fear degree regarding triploid food, social trust, and concerns about food safety. SPSS and AMOS software were utilized for reliability and validity analysis, variance analysis, multiple comparisons, and confirmatory factor analysis. A structural equation model was developed to comprehensively examine consumers' risk perception of triploid food and its influencing factors. The results indicate that consumers' risk perception of triploid food is influenced by various factors. Notably, significant differences were found in consumers' risk perception of triploid food based on age, educational background, residency, and employment status. Additionally, this study identified a negative correlation between consumers' risk perception of triploid food and their levels of fear and social trust. Conversely, a positive correlation was observed between risk perception and the degree of attention given to food safety. [ABSTRACT FROM AUTHOR]

Published

2024

8. Investigation and Suggestions regarding Residents' Understanding of Waste Classification in Chinese Prefecture-Level Cities—A Case Study of Maanshan City, Anhui Province, China.

Author

Ge-Zhang, Shangjie, Cai, Taoyang, Hu, Zhitao, Zhu, Haotong, Mu, Pingxuan, and Cui, Jingang

Abstract

The implementation of waste-sorting policy is conducive to improving residents' working and living environments, and has positive implications for promoting green development and building in China. As one of the main factors in the implementation of waste-sorting policy, residents' awareness of and behavior regarding waste sorting and disposal affects its promotion, while policies, incentives and infrastructure will affect residents' enthusiasm for implementing waste sorting. Taking Maanshan City in Anhui Province as a case study, this paper discusses the current state of progress towards ecological civilization in China; the influence of policy promotion on residents' perception of it; the correlation between residents' age and their understanding of waste classification; and the correlation between residents' enthusiasm, policies and green infrastructure; and puts forward some suggestions for how to enhance green infrastructure and improve residents' perceptions of waste classification in the future. [ABSTRACT FROM AUTHOR]

Published

2023

9. Advances in Sol-Gel-Based Superhydrophobic Coatings for Wood: A Review.

Author

Wang, Yudong, Ge-Zhang, Shangjie, Mu, Pingxuan, Wang, Xueqing, Li, Shaoyi, Qiao, Lingling, and Mu, Hongbo

Subjects

*WOOD, *SUPERHYDROPHOBIC surfaces, *ACID-base catalysis, *SURFACE coatings, *SOL-gel processes, *WOOD chemistry, *MILITARY readiness

Abstract

As the focus of architecture, furniture, and other fields, wood has attracted extensive attention for its many advantages, such as environmental friendliness and excellent mechanical properties. Inspired by the wetting model of natural lotus leaves, researchers prepared superhydrophobic coatings with strong mechanical properties and good durability on the modified wood surface. The prepared superhydrophobic coating has achieved functions such as oil-water separation and self-cleaning. At present, some methods such as the sol-gel method, the etching method, graft copolymerization, and the layer-by-layer self-assembly method can be used to prepare superhydrophobic surfaces, which are widely used in biology, the textile industry, national defense, the military industry, and many other fields. However, most methods for preparing superhydrophobic coatings on wood surfaces are limited by reaction conditions and process control, with low coating preparation efficiency and insufficiently fine nanostructures. The sol-gel process is suitable for large-scale industrial production due to its simple preparation method, easy process control, and low cost. In this paper, the research progress on wood superhydrophobic coatings is summarized. Taking the sol-gel method with silicide as an example, the preparation methods of superhydrophobic coatings on wood surfaces under different acid-base catalysis processes are discussed in detail. The latest progress in the preparation of superhydrophobic coatings by the sol-gel method at home and abroad is reviewed, and the future development of superhydrophobic surfaces is prospected. [ABSTRACT FROM AUTHOR]

Published

2023

10. Three-Dimensional Honeycomb-Like Carbon as Sulfur Host for Sodium–Sulfur Batteries without the Shuttle Effect.

Author

Zhao, Decheng, Ge-Zhang, Shangjie, Zhang, Zhen, Tang, Hao, Xu, Yuanyuan, Gao, Fei, Xu, Xiangyu, Liu, Shupei, Zhou, Jian, Wang, Zhoulu, Wu, Yutong, Liu, Xiang, and Zhang, Yi

Published

2022

11. Advances in Polyethylene Terephthalate Beverage Bottle Optimization: A Mini Review.

Author

Ge-Zhang, Shangjie, Liu, Huixin, Song, Mingbo, Wang, Yanzhi, Yang, Hong, Fan, Haobo, Ding, Yuyang, and Mu, Liqiang

Subjects

*POLYETHYLENE terephthalate, *PACKAGING materials, *BEVERAGE packaging, *STRUCTURAL optimization, *PROCESS optimization, *PACKAGING industry

Abstract

Compared with other materials, polyethylene terephthalate (PET) has high transparency, excellent physical and mechanical properties in a wide temperature range and good hygiene and safety, so it is widely used in the packaging industry, especially in the packaging of beverages and foods. The optimization of PET bottles is mainly reflected in three aspects: material optimization, structure optimization and process optimization, among which there is much research on material optimization and process optimization, but there is no complete overview on structure optimization. A summary of structural optimization is necessary. Aiming at structural optimization, the finite element method is a useful supplement to the beverage packaging industry. By combining the computer-aided design technology and using finite element software for finite element simulation, researchers can replace the experimental test in the pre-research design stage, predict the effect and save cost. This review summarizes the development of PET bottles for beverage packaging, summarizes various optimization methods for preventing stress cracking in beverage packaging, and especially focuses on comparing and evaluating the effects of several optimization methods for packaging structure. Finally, the future development of all kinds of optimization based on structural optimization in the field of beverage packaging is comprehensively discussed, including personalized design, the combination of various methods and the introduction of actual impact factor calculation. [ABSTRACT FROM AUTHOR]

Published

2022

12. Ultraviolet-Assisted Modified Delignified Wood with High Transparency.

Author

Chen, Xiaoli, Ge-Zhang, Shangjie, Han, Yu, Yang, Hong, Ou-Yang, Wenao, Zhu, Haotong, Hao, Junyi, and Wang, Jinxin

Subjects

WOOD, IMAGING systems in chemistry, SCANNING electron microscopes, LIGHT transmission, ALKALINE solutions, SOLAR cells

Abstract

The substrate of solar cells with high haze, transparent, flexible, green and low coatings will be needed in the future. This paper reports a method for ultraviolet-assisted delignification of wood in an alkaline solution environment to improve the transmittance of "transparent wood". Scanning electron microscope (SEM), X-ray diffraction image (XRD), Fourier transform infrared (FTIR) spectroscopy and transmittance-haze and chemical composition analysis were used to explore the mechanisms underlying the effect of ultraviolet-assisted lignin modification on the optical properties of "transparent wood". The results show that UV-assisted delignification accelerates the rate of removal of lignin and chromogenic groups, which in turn improves the optical properties of the "transparent wood", with UV-assisted lignin modification for 2 h increasing the light transmission of the "transparent wood" by 20%. UV-assisted delignification for 4 h and impregnation resulted in "transparent wood" with a transparency of 71% and a haze of 90%. This report provides a rapid and easy method to prepare high-quality "transparent wood". The "transparent wood" with high transmittance and high haze is a potential candidate for transparent solar substrates. Meanwhile, this method is enlightening for high quality, fast and green preparation of other derived functional materials based on lignin wood. [ABSTRACT FROM AUTHOR]

Published

2022

13. Computer Simulation of Polyethylene Terephthalate Carbonated Beverage Bottle Bottom Structure Based on Manual–Automatic Double-Adjustment Optimization.

Author

Ge-Zhang, Shangjie, Chen, Xiaoli, Zhu, Haotong, Song, Yuan, Ding, Yuyang, and Cui, Jingang

Subjects

*POLYETHYLENE terephthalate, *COMPUTER simulation, *CARBONATED beverages, *BOTTLES, *STRAIN energy, *STRUCTURAL design

Abstract

PET bottlesare often used as airtight containers for filling carbonated drinks. Because carbonated drinks contain large volumes of CO2 gas, the container needs to bear a tremendous pressure from the inside of the bottle.If the stress exceeds the bearing limit, the material will show the phenomenon of local cracking and liquid overflow.For the structural design, the method of manual adjustment before automatic adjustment was adopted. First, through manual optimization, the initial optimal parameter combination was as follows:the inner diameter of the bottle bottom was 17 mm, the dip angle of the valley bottom was 81°, the deepest part of the valley bottom was 25 mm, and the outer diameter was 27 mm. Comsol software was used for automatic optimization. Compared with the original bottle bottom, the total maximum principal stress and total elastic strain energy in the bottle bottom after manual–automatic double optimization decreased by 69.4% and 40.0%, respectively, and the displacement caused by deformation decreased by 0.60 mm (74.1%). The extremely high reduction ratio was caused by manual–automatic double optimization. [ABSTRACT FROM AUTHOR]

Published

2022