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2. Ultrahigh thermal conductive polymer composites by the 3D printing induced vertical alignment of carbon fiber

Author

Zhenbang Zhang, Maohua Li, Yandong Wang, Wen Dai, Linhong Li, Yapeng Chen, Xiangdong Kong, Kang Xu, Rongjie Yang, Ping Gong, Jianxiang Zhang, Tao Cai, Cheng-Te Lin, Kazuhito Nishimura, Hao Nan Li, Nan Jiang, and Jinhong Yu

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Thermal conductive polymer composite prepared by 3D printing technology, which has a highly vertically oriented carbon fiber structure.

Published
2023
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5. Groundwater dynamic influenced by intense anthropogenic activities in a dried-up river oasis of Central Asia

Author

Wanrui Wang, Yaning Chen, Yapeng Chen, Weihua Wang, Tianju Zhang, and Jingxiu Qin

Subjects
Water Science and Technology
Abstract

Intense anthropogenic activities in arid areas have great impacts on groundwater process by causing river dried-up and phreatic decline. Groundwater recharge and discharge have become hot spot in the dried-up river oases of arid regions, but are not well known, challenging water and ecological security. This study applied a stable isotope and end-member mixing analysis method to quantify shallow groundwater sources and interpret groundwater processes using data from 186 water samples in the Wei-Ku Oasis of central Asia. Results showed that shallow groundwater (well depth < 20 m) was mainly supplied by surface water and lateral groundwater flow from upstream, accounting for 88 and 12%, respectively, implying surface water was the dominant source. Stable isotopes and TDS showed obviously spatiotemporal dynamic. Shallow groundwater TDS increased from northwest to southeast, while the spatial variation trend of groundwater δ18O was not obvious. Surface water and groundwater in non-flood season had higher values of stable isotopes and TDS than those in flood season. Anthropogenic activities greatly affect groundwater dynamics, where land-cover change and groundwater overexploitation are the main driving factors. The findings would be useful for further understanding groundwater sources and cycling, and help restore groundwater level and desert ecosystem in the arid region.

Published
2022
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7. Correction: Ultrahigh thermal conductive polymer composites by the 3D printing induced vertical alignment of carbon fiber

Author

Zhenbang Zhang, Maohua Li, Yandong Wang, Wen Dai, Linhong Li, Yapeng Chen, Xiangdong Kong, Kang Xu, Rongjie Yang, Ping Gong, Jianxiang Zhang, Tao Cai, Cheng-Te Lin, Kazuhito Nishimura, Hao Nan Li, Nan Jiang, and Jinhong Yu

Subjects
Renewable Energy, Sustainability and the Environment, General Materials Science, General Chemistry
Abstract

Correction for ‘Ultrahigh thermal conductive polymer composites by the 3D printing induced vertical alignment of carbon fiber’ by Zhenbang Zhang et al., J. Mater. Chem. A, 2023, https://doi.org/10.1039/D3TA01676E.

Published
2023
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8. Learning-Based Intent-Aware Task Offloading for Air-Ground Integrated Vehicular Edge Computing

Author

Wenxuan Kong, Xiaoyan Wang, Wang Zhongyuan, Yapeng Chen, Zhenyu Zhou, Sattam Al Otaibi, and Haijun Liao

Subjects
Computer science, Mechanical Engineering, Quality of service, Distributed computing, Reliability (computer networking), Server, Automotive Engineering, Task analysis, Queuing delay, Throughput, Quality of experience, Computer Science Applications, Task (project management)
Abstract

Existing task offloading mechanisms are developed on some single and rigid quality of service (QoS) performance metrics, which is widely apart from satisfying the true intent of a user vehicle (UV), thereby resulting in low quality of experience (QoE), large queuing latency, and poor reliability. There is an unprecedented demand for an intent-aware task offloading strategy that provides improved QoE and guarantees reliability. In this paper, we develop a novel task offloading framework for air-ground integrated vehicular edge computing (AGI-VEC), which is called the learning-based Intent-aware Upper Confidence Bound (IUCB) algorithm. IUCB enables a UV to learn the long-term optimal task offloading strategy while satisfying the long-term ultra-reliable low-latency communication (URLLC) constraints in a best effort way under information uncertainty. IUCB can achieve three-dimension intent awareness including QoE awareness, URLLC awareness, and trajectory similarity awareness. Simulation results demonstrate that IUCB significantly outperforms existing EMM, sleeping-UCB, and UCB mechanisms in terms of QoE, end-to-end delay, queuing delay, throughput, and times of task offloading failure.

Published
2021
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9. Estimation of Crop Water Requirement Based on Planting Structure Extraction from Multi-Temporal MODIS EVI

Author

Xicheng Zhang, Jinxia Zhang, Yang Hong, Yapeng Chen, Teshome L. Yami, and Changchun Xu

Subjects
010504 meteorology & atmospheric sciences, business.industry, Cash crop, 0208 environmental biotechnology, Growing season, 02 engineering and technology, Agricultural engineering, 01 natural sciences, Arid, 020801 environmental engineering, Water resources, Agriculture, Farm water, Environmental science, Arable land, business, Water use, 0105 earth and related environmental sciences, Water Science and Technology, Civil and Structural Engineering
Abstract

Estimation of crop water requirement (CWR) is key to the rational water use and agricultural water conservation in arid regions. Using remote sensing data to obtain long-term CWR over large areas helps water resources management in water-scarce areas. This study, taking the Kaidu-Kongqi River basin in arid northwest China as the study area, investigated the feasibility of synergistically using phenological characteristics, Savitzky-Golay filter, harmonic analysis and decision tree to extract crop planting structures (CPS) from MODIS EVI, and meanwhile analyzed the spatiotemporal variation in the estimated CWR. The results show that the integrated method for CPS identification and extraction is feasible and reliable with the classification accuracy over 80%. The mid-season stage requires the most water and cash crops need more water than cereal crops. Summer accounts for 69% the total growing season water use. The significant increase in the area of high water demand crops such as cotton raised the total CWR of the basin surging from 14.91× 108m3 in 2000 to 34.92×108m3 in 2017. The spatial distribution of CWR was more related to crop types and area than to climatic conditions. Controlling the expansion of arable land and optimizing the agricultural planting structure remain important tasks for the sustainable management of water resources in the basin.

Published
2021
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10. Enhanced tribological properties of aligned graphene-epoxy composites

Author

Mingliang Wu, Zhenyu Zhang, Yunxiang Lu, Junfeng Cui, Nan Jiang, Yuefeng Du, Yapeng Chen, Ruiyang Kang, Jinhong Yu, Lezhen Zhang, and Dong Wang

Subjects
Friction coefficient, Materials science, Graphene, Scanning electron microscope, Mechanical Engineering, Epoxy, Epoxy matrix, Tribology, Surfaces, Coatings and Films, law.invention, Normal load, law, visual_art, visual_art.visual_art_medium, Composite material, Anisotropy
Abstract

The random distribution of graphene in epoxy matrix hinders the further applications of graphene-epoxy composites in the field of tribology. Hence, in order to fully utilize the anisotropic properties of graphene, highly aligned graphene-epoxy composites (AGEC) with horizontally oriented structure have been fabricated via an improved vacuum filtration freeze-drying method. The frictional tests results indicated that the wear rate of AGEC slowly increased from 5.19×10−6 mm3/(N·m) to 2.87×10−5 mm3/(N·m) with the increasing of the normal load from 2 to 10 N, whereas the friction coefficient (COF) remained a constant of 0.109. Compared to the neat epoxy and random graphene-epoxy composites (RGEC), the COF of AGEC was reduced by 87.5% and 71.2%, and the reduction of wear rate was 86.6% and 85.4% at most, respectively. Scanning electron microscope (SEM) observations illustrated that a compact graphene self-lubricant film was formed on the worn surface of AGEC, which enables AGEC to possess excellent tribological performance. Finally, in light of the excellent tribological properties of AGEC, this study highlights a pathway to expand the tribological applications of graphene-epoxy composites.

Published
2021
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11. Eicosane-based thermo-conductive phase change composite for efficient capture solar energy and using in real-environment as power source

Author

Linhong Li, Maohua Li, Yue Qin, Yapeng Chen, Wen Dai, Zhenbang Zhang, Xiangdong Kong, Ping Gong, Yandong Wang, Rongjie Yang, Bo Wang, Tao Cai, Zhongbin Pan, Kazuhito Nishimura, Cheng-Te Lin, Nan Jiang, and Jinhong Yu

Subjects
General Chemical Engineering, Environmental Chemistry, General Chemistry, Industrial and Manufacturing Engineering
Published
2023
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12. Enhanced thermal transportation across an electrostatic self-assembly of black phosphorene and boron nitride nanosheets in flexible composite films

Author

Yandong Wang, Xianzhe Wei, Huiwu Cai, Bin Zhang, Yapeng Chen, Maohua Li, Yue Qin, Linhong Li, Xiangdong Kong, Ping Gong, Huanyi Chen, Xinxin Ruan, Chengcheng Jiao, Tao Cai, Wenying Zhou, Zhongwei Wang, Kazuhito Nishimura, Cheng-Te Lin, Nan Jiang, and Jinhong Yu

Subjects
General Materials Science
Abstract

For effective heat dissipation in portable electronics, there is a great demand for lightweight and flexible films with superior thermal transport properties. Despite extensive efforts, enhancing the intrinsic low thermal conductivity of polymers while simultaneously maintaining their flexibility is difficult to achieve due to the dilemma of quarrying appropriate filler loading. Herein, a cellulose nanofiber-based film with high in-plane thermal conductivity up to 72.53 W m

Published
2022

13. Ecohydrological effects of water conveyance in a disconnected river in an arid inland river basin

Author

Yaning, Chen, Yapeng, Chen, Chenggang, Zhu, Yang, Wang, and Xingming, Hao

Subjects
China, Multidisciplinary, Rivers, Water Supply, Water Movements, Water Resources, Water
Abstract

Water system management is a worldwide challenge, especially in arid and semi-arid regions. Ecological water conveyance projects aim to raise the groundwater table, thereby saving natural vegetation and curbing ecological deterioration. Since 2000, these projects have been implemented in the arid zone of northwest China, with generally successful outcomes. Taking a portion of the lower reaches of the Tarim River as the study area, this paper analyzes in detail the ecohydrological effects which have occurred since the launching of artificial water conveyance 20 years ago. The results show that the groundwater table in the upper, middle and lower segments of the Tarim River’s lower reaches has been raised on average 4.06, 4.83 and 5.13 m, respectively, while the area of surface water bodies connected to those sections has expanded from 49.00 km2 to 498.54 km2. At the same time, Taitema Lake, which is the terminal lake of the Tarim River, has been revived and now boasts a water area of 455.27 km2. Other findings indicate that the surface ecological response is extremely sensitive and that the area of natural vegetation has expanded to 1423 km2. Furthermore, the vegetation coverage, vegetation index (NDVI), and Net Primary Productivity (NPP) have increased by 132 km2, 0.07 and 7.6 g C m−2, respectively, and the Simpson dominance, McIntosh evenness, and Margalef richness indices have risen by 0.33, 0.35 and 0.49, respectively, in the monitored sample sites. As well, the carbon sink area has expanded from 1.54% to 7.8%. Given the increasing intensity of the occurrence of extreme hydrological events and successive dry years, similar ecological water conveyance projects should be considered elsewhere in China and in other parts of the world. The water conveyance scheme has generally proven successful and should be optimized to enhance the benefits of ecological water conveyance under water resource constraints.

Published
2022
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14. Extremely high thermal conductivity of carbon fiber/epoxy with synergistic effect of MXenes by freeze-drying

Author

Cheng-Te Lin, Guichen Song, Jinhong Yu, Su-Ting Han, Maohua Li, Ruiyang Kang, Zhenyu Zhang, Nan Jiang, Liangchao Guo, and Yapeng Chen

Subjects
Materials science, Polymers and Plastics, Composite number, Electronic packaging, 02 engineering and technology, Epoxy, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Thermal expansion, 0104 chemical sciences, Thermal conductivity, Mechanics of Materials, visual_art, Thermal, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Composite material, 0210 nano-technology, MXenes, Glass transition
Abstract

As the power density of the electronics is on increasing, improving the heat dissipation performance of electronic packaging materials will play a positive role in promoting the performance of modern electronics. In this work, the three-dimensional carbon fiber (CF)-MXenes foam, in which the vertically aligned CF constructed the heat transport paths, were prepared by simple freeze-drying method. As a result, the thermal conductivity (TC) of CF-M/epoxy composites was improved to an ultra-high level (9.68 W/mK) at 30.2 wt% hybrid fillers, increasing by 4509% enhancement compared with that of neat epoxy. In addition, the thermal properties of composites, such as glass transition temperature (Tg), coefficient of thermal expansion (CTE) were investigated. All the results indicated that the CF-MXenes/epoxy composite was supposed to be a promising heat dissipation material and will be used in the field of electronic packaging.

Published
2020
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15. Enhanced thermal conductivity of polydimethylsiloxane composites with carbon fiber

Author

Jinhong Yu, Nan Jiang, Meizhen Liao, Xiao Hou, Aijie Ma, Yapeng Chen, Maohua Li, Zehui Duan, and Jinming Wei

Subjects
Filler (packaging), Materials science, Polymers and Plastics, Polydimethylsiloxane, business.industry, Composite number, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Thermal conductivity, chemistry, Mechanics of Materials, Thermal, Materials Chemistry, Ceramics and Composites, Microelectronics, Electronics, Composite material, 0210 nano-technology, business, Electrical conductor
Abstract

Highly thermal conductive thermal interface materials are playing an irreplaceable role in modern highly integrated microelectronic devices. A facile method was used to fabricate a highly thermal conductive composite combined with highly thermal conductivity and excellent flexibility. The carbon fiber/polydimethylsiloxane (CF/PDMS) composites were prepared by solution blending with PDMS as matrix and different contents CF as thermal conductive fillers. Thermal conductivity of the PDMS composite is up to 2.73 W/mK with 20 wt% CF filler loading. Otherwise, we have characterized the heat transport performance of composites under various conditions. The results indicate that it has very stable and efficient thermal conductivity, which can meet the heat dissipation requirements under various conditions. Therefore, the CF/PDMS composite is a promising thermal management material that can be used to the heat dissipation of electronic devices in the near future.

Published
2020
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16. Facile and Green Preparation of Superfast Responsive Macroporous Polyacrylamide Hydrogels by Frontal Polymerization of Polymerizable Deep Eutectic Monomers

Author

Yang Jiang, Pin Wen, Shengfang Li, Shilin Yan, Yapeng Chen, and Min Tao

Subjects
Polyacrylamide Hydrogel, General Chemical Engineering, Mixing (process engineering), 02 engineering and technology, General Chemistry, 021001 nanoscience & nanotechnology, Industrial and Manufacturing Engineering, chemistry.chemical_compound, Monomer, 020401 chemical engineering, chemistry, Chemical engineering, Polymerization, Acrylamide, Proton NMR, 0204 chemical engineering, 0210 nano-technology, Eutectic system, Choline chloride
Abstract

Polymerizable deep eutectic monomers (DEMs) were prepared by mixing various molar ratios of acrylamide (AM) and choline chloride (ChCl). 1H NMR and Fourier transform infrared confirmed that there w...

Published
2020
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19. Preparation, characterization, and properties of silanized graphene oxide reinforced biobased benzoxazine-bismaleimide resin composites

Author

Yapeng Chen, Shengfang Li, Yang Jiang, and Shilin Yan

Subjects
Cardanol, Materials science, Graphene, Resin composite, Oxide, 030206 dentistry, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, law.invention, Characterization (materials science), 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, chemistry, Chemical engineering, Mechanics of Materials, law, Materials Chemistry, 0210 nano-technology
Abstract

Silanized graphene oxide (SiGO) was synthesized and characterized using KH570 as a modifier on graphene oxide (GO). Subsequently, high performance silanized graphene oxide/cardanol based be...

Published
2019
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20. Largely enhanced thermal conductivity of ethylene-propylene-diene monomer composites by addition of graphene ball

Author

Wenge Zheng, Yongqing Zhao, Jinhong Yu, Yapeng Chen, Aijie Ma, and Xiaojun Wang

Subjects
Materials science, Polymers and Plastics, Graphene, Composite number, Vulcanization, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Energy storage, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Thermal conductivity, Monomer, chemistry, Mechanics of Materials, law, Thermal, Materials Chemistry, Ceramics and Composites, Composite material, 0210 nano-technology, Electrical conductor
Abstract

Along with the need of the fast development of electric and electronic industries, polymer composites with high thermal conductivity are much more demanded in the field of energy storage systems and electrical devices. In this paper, graphene ball (GB) composed of stacked graphene sheets was selected as filler and introduced into ethylene-propylene-diene monomer (EPDM) for improving its thermal conductivity. Here, a facile method was proposed to make GB uniformly dispersed into EPDM by solution blending and then obtain high thermal conductive EPDM/GB composites through vulcanization. The thermal conductivity of neat EPDM is 0.29 W/(m·K). The addition of the GB leads to the increase of the thermal conductivity of the composites. Thermal conductivity of the EPDM/GB composite with 60 phr GB loading along the in- and through-plane directions are 18.43 and 1.48 W/(m·K), which are approximately to 62 and 4 times higher than that of neat EPDM, respectively. The EPDM/GB composites are expected to play a key role in new-era advanced electronic devices and related applications due to its excellent thermal transport property.

Published
2019
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21. High-Thermal-Transport-Channel Construction within Flexible Composites via the Welding of Boron Nitride Nanosheets

Author

Jinhong Yu, Zhongwei Wang, Su Zhao, Le Lv, Li Fu, Yapeng Chen, Xiao Hou, Nan Jiang, Cheng-Te Lin, and Wen Dai

Subjects
Materials science, Thermal management of electronic devices and systems, Welding, law.invention, chemistry.chemical_compound, Thermal transport, Thermal conductivity, chemistry, law, Boron nitride, Polymer composites, Antistatic agent, General Materials Science, Composite material, Communication channel
Abstract

Efficient heat dissipation is a prerequisite for further improving the integration of devices. However, the polymer composites are not satisfying heat dissipation. For that reason, high-thermal-tra...

Published
2019
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22. Graphene as a nanofiller for enhancing the tribological properties and thermal conductivity of base grease

Author

Yapeng Chen, Nan Jiang, Hao Wang, Chao Yan, Jinhong Yu, Guoping Yan, Cheng-Te Lin, Hui Fu, and Meng Li

Subjects
chemistry.chemical_classification, Work (thermodynamics), Materials science, Base (chemistry), Graphene, General Chemical Engineering, 02 engineering and technology, General Chemistry, Tribology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Mechanical components, 0104 chemical sciences, law.invention, Contact surfaces, Thermal conductivity, chemistry, law, Grease, Composite material, 0210 nano-technology
Abstract

During mechanical processes, violent friction and wear between the friction contact surfaces not only causes wear to mechanical components, reducing the instrument life, but also causes friction heat, reducing the working efficiency of machines during operation. The addition of graphene-reinforced grease to the mechanical friction surface can effectively reduce the friction coefficient and improve the thermal conductivity. In this work, the tribological properties and thermal conductivity of base grease with graphene were investigated systematically. The tribological results showed that the grease with 2 wt% graphene had the best tribological properties among all these greases. The wear scar diameter and average friction coefficient of graphene grease with 2 wt% graphene reached 0.43 mm and 0.10 (the values for base grease are 0.50 mm and 0.118), respectively. In addition, the average friction coefficient and wear scar diameter increased proportionally with the increasing load and frequency. The thermal conductivity of the grease with 4 wt% graphene reached 0.28 W (m K)−1, an increase of 55.5% in comparison with the base grease. It is proposed that the addition of graphene into the base grease effectively enhanced the tribological properties and thermal conductivity.

Published
2019
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23. Graphene foam-embedded epoxy composites with significant thermal conductivity enhancement

Author

Fakhr E. Alam, Qingwei Yan, Zhiduo Liu, Jinhong Yu, Yifan Li, Cheng-Te Lin, Yapeng Chen, Zhongwei Wang, Shiyu Du, Kazuhito Nishimura, Wen Dai, and Nan Jiang

Subjects
Filler (packaging), Materials science, Graphene, Graphene foam, Electronic packaging, 02 engineering and technology, Epoxy, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry.chemical_compound, Thermal conductivity, Template, chemistry, law, visual_art, visual_art.visual_art_medium, General Materials Science, Composite material, 0210 nano-technology, Polyurethane
Abstract

High thermal conductivity polymer composites at low filler loading are of considerable interest because of their wide range of applications. The construction of three-dimensional (3D) interconnected networks can offer a high-efficiency increase for the thermal conductivity of polymer composites. In this work, a facile and scalable method to prepare graphene foam (GF) via sacrificial commercial polyurethane (PU) sponge templates was developed. Highly thermally conductive composites were then prepared by impregnating epoxy resin into the GF structure. An ultrahigh thermal conductivity of 8.04 W m-1 K-1 was obtained at a low graphene loading of 6.8 wt%, which corresponds to a thermal conductivity enhancement of about 4473% compared to neat epoxy. This strategy provides a facile, low-cost and scalable method to construct a 3D filler network for high-performance composites with potential to be used in advanced electronic packaging.

Published
2019
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25. Tunable Brillouin-Raman multi-wavelength fiber laser with a linear cavity configuration

Author

Zezhong Zhou, Qian Yang, Yapeng Chen, Mengmeng Chen, and Zuxing Zhang

Subjects
Condensed Matter Physics, Mathematical Physics, Atomic and Molecular Physics, and Optics
Abstract

A tunable Brillouin-Raman multi-wavelength fiber laser has been proposed and demonstrated in a linear cavity configuration, where stimulated Raman scattering and stimulated Brillouin scattering occur simultaneously in the dispersion compensation fiber. The influence of Brillouin pump (BP) and Raman pump (RP) power on the obtained Brillouin Stokes lines has been investigated in detail. The experimental results show that when BP wavelength is 1545 nm, 63 orders of Stokes lines can be obtained at most, and the interval between adjacent lines is about 0.08 nm. Moreover, there are two opposite relations between the number of the generated Stokes lines and the BP power within the whole tunable range of 1520–1575 nm (55 nm), depending on the Raman gain. The proposed laser featuring simple structure will enable promising potentials in optical communications and optical sensor systems.

Published
2022
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26. Research Advances in Plant Physiology and Ecology of Desert Riparian Forests under Drought Stress

Author

Yaning Chen, Yapeng Chen, Honghua Zhou, Xingming Hao, Chenggang Zhu, Aihong Fu, Yuhai Yang, and Weihong Li

Subjects
Forestry
Abstract

Under drought stress, desert riparian forest plants are highly self-regulating and have their own unique water use and regulation strategies, which can respond positively in several aspects such as physiology, ecology, and individual phenotypes when coping and adapting to the stresses brought by external environmental changes. In addition, as an important component of arid zone ecosystems, desert riparian forest plants maintain the cycling process of energy and material in desert areas. Therefore, it is of great ecological value to study the role played by desert riparian forest plants in desertification control and biodiversity conservation in arid zones. The purpose of this study is to provide basic data and scientific basis for the conservation, and restoration of desert riparian forests in the inland river basin of arid zone. In this paper, the physiological and ecological responses of desert riparian plants under drought stress were analyzed by reviewing the literature and focusing on the key scientific issues such as drought avoidance mechanisms, water use, and water redistribution, and the relationship between interspecific water competition and resource sharing of desert riparian plants. The results showed that: (1) In the inland river basin of arid zone, desert riparian plants show a mutual coordination of increasing soluble sugars, proline, malondialdehyde (MDA), and decreasing peroxidase (POD), to form a unique drought avoidance mechanism, and improve their drought tolerance by changing leaf stomatal conductance resulted from regulating abscisic acid (ABA) and cytokinin (CTK) content. (2) Desert riparian forest plants have their own unique water use and regulation strategies. When the degree of drought stress increased, Populus euphratica enhanced the water flow of dominant branches by actively sacrificing the inferior branches to ensure and improve the overall survival chances of the plant, while Tamarix ramosissima weaken hydraulic conductance, and increase subsurface material inputs by reducing plant height to cope with drought stress. (3) The root systems of desert riparian plants have hydraulic uplift and water redistribution functions, and, in the hydraulic uplift process of P. euphratica and T. ramosissima root systems, there is a possibility of assisting with other species in water utilization and the existence of a resource sharing mechanism.

Published
2022
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27. Apelin is associated with clinicopathological parameters and prognosis in breast cancer patients

Author

Dan Hu, Zhaolei Cui, Wei Peng, Xiaojiang Wang, Yapeng Chen, and Xiufeng Wu

Subjects
Lymphatic Metastasis, Biomarkers, Tumor, Obstetrics and Gynecology, Apelin, Humans, Breast Neoplasms, Female, General Medicine, Prognosis, Lymphatic Vessels
Abstract

Apelin has been shown to be a novel angiogenic factor in various cancers. However, there is limited information regarding the role of apelin in breast cancer. The aim of the present study is to examine associations between apelin, clinicopathological variables, and clinical outcome in breast cancer patients.In this study, we began by investigating the apelin expression in breast cancer with long-term follow-up using immunohistochemistry. We then analyzed the relationship between apelin expression and microvessel density (MVD), lymphatic vessel density (LVD), lymph node status as well as other established clinicopathological parameters. The relationship between apelin expression and prognosis was also studied. In addition, we compared the apelin and its ligant APJ expression between 30 breast cancer samples and normal breast tissues adjacent to the breast tumors using western blot (WB) and RT-PCR.Apelin protein expression was detected in the cytoplasm of the breast carcinoma cells at various intensities. Apelin expression was positive in 59.2% (84/142) of the breast cancer patients and apelin expression was significantly correlated with tumor size (p = 0.030), stage (p = 0.000), histological type (p = 0.009), MVD (p = 0.000), LVD (p = 0.000), and lymph node metastasis (p = 0.041). Survival curves determined by the Kaplan-Meier method and univariate analysis demonstrated that high expression of apelin was associated with both worse disease-free survival (p 0.001) and overall survival (p 0.001). Interestingly, a significant difference in apelin and APJ expression by WB as well as RT-PCR was observed between normal breast tissues adjacent to the breast tumors and breast cancer tissues.Our results showed apelin expression was associated with tumor size, stage, histological type, MVD, LVD, lymph node metastasis and poor prognosis. The presence of apelin may be a new prognostic factor and potential therapeutic target for breast cancer.

Published
2020

28. Advances in graphene-based polymer composites with high thermal conductivity

Author

Xinming Li, Mingliang Wu, Asif Tahir, Nan Jiang, Jianbin Xu, Shengcheng Shu, Bahareh Yazdani Damavandi, Cheng-Te Lin, Qingwei Yan, Cesar Mendoza, Jinhong Yu, Yapeng Chen, Xiao Hou, and Jingyao Gao

Subjects
Materials science, lcsh:T, Graphene, fabrication, 02 engineering and technology, lcsh:Chemical technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, lcsh:Technology, 01 natural sciences, 0104 chemical sciences, law.invention, Thermal conductivity, law, lcsh:TA401-492, Polymer composites, thermal conductivity, lcsh:Materials of engineering and construction. Mechanics of materials, lcsh:TP1-1185, Composite material, 0210 nano-technology, graphene-based composites
Abstract

Owing to its excellent thermal and mechanical properties of graphene, graphene-based composites have attracted tremendous research interest in recent years. In particular, graphene with high thermal conductivity becomes an important and promising filler in composites for thermal management. This critical review focus on the recent advances in graphene-based composites with high thermal conductivity. After the introduction of thermal conductive mechanisms of graphene-based composites, the fabrication methods of graphene-based composites are summarized. Then we also discuss currently researches of various graphene-based composites such as graphene/thermoplastic composites and graphene/thermoset composites. Herein, the mechanisms, preparation, and properties of graphene-based composites are discussed along with detailed examples from the scientific literature and the guidance are provided on the fabrication of composites with high thermal conductivity.

Published
2018
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29. Enhanced thermal conductivity of poly(vinylidene fluoride)/boron nitride nanosheet composites at low filler content

Author

Nan Jiang, Zhaoyong Jiao, Jinhong Yu, Xiao Hou, Shuangyi Li, Yuming Wu, Yapeng Chen, Mengjie Wang, and Li Fu

Subjects
Materials science, Composite number, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Hot pressing, 01 natural sciences, Exfoliation joint, 0104 chemical sciences, chemistry.chemical_compound, Thermal conductivity, chemistry, Mechanics of Materials, Boron nitride, Heat spreader, Ceramics and Composites, Composite material, 0210 nano-technology, Fluoride, Nanosheet
Abstract

Due to the growing needs of thermal management in modern electronics, high thermal conductive polymer composites are increasingly demanded. Boron nitride nanosheet (BNNS) was prepared through molten hydroxide assisted liquid exfoliation of hexagonal boron nitride (h-BN) powder and used as thermally conductive filler. The poly(vinylidene fluoride) (PVDF)/BNNS films were obtained through solution blend and hot pressing. With only 4 wt% BNNS, the in-plane thermal conductivity of PVDF/BNNS composite achieved 4.69 W/mK, with a thermal conductivity enhancement of 2297% compared to neat PVDF. However, the through-plane thermal conductivity of the composites is only 0.23 W/mK, which shows a high thermal conductive anisotropy over 20. The thermal conductive anisotropy and the high in-plane thermal conductivity can be attributed to the formation of thermally conductive network in PVDF matrix. Thus, the BNNS reinforced PVDF films are promising for use as an efficient heat spreader for electronic cooling applications.

Published
2018
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30. Variation in agricultural water demand and its attributions in the arid Tarim River Basin

Author

Guojia Fang, Yapeng Chen, and Zhen Li

Subjects
Hydrology, 010504 meteorology & atmospheric sciences, 0208 environmental biotechnology, Humidity, 02 engineering and technology, 01 natural sciences, Arid, 020801 environmental engineering, Crop coefficient, Evapotranspiration, Sunshine duration, Genetics, Farm water, Environmental science, Animal Science and Zoology, Penman–Monteith equation, Irrigation management, Agronomy and Crop Science, 0105 earth and related environmental sciences
Abstract

Agricultural water use accounts for more than 95% of the total water consumption in the extreme arid region of the Tarim River Basin. Understanding the variation of agricultural water demand (AWD) and its attributions is therefore vital for irrigation management and water resource allocation affecting the economy and natural ecosystems in this high water-deficit region. Here spatial–temporal variations of AWD based on weighted crop water requirement (ETc) were estimated using the Penman–Monteith equation and the crop coefficient approach. Then the contributions of meteorological factors and planting structure (i.e. proportions of crop acreages) to AWD variations were quantified based on traditional methods and numerical experiment (i.e. a series calculation of AWD based on different input data). Results indicated that AWD decreased during 1960–1988 at a rate of 2.76 mm/year and then started to increase at a high rate of 9.47 mm/year during 1989–2015. For the first period (1960–1988), wind speed (uz), maximum humidity (RHmax) and sunshine duration (n) were the most important factors leading to decreased AWD, while for the second period the evolution of planting structure was the most significant factor resulting in the rapid increase of AWD, followed by the minimum temperature (Tmin), uz and RHmax. The evolution of planting structure alone would lead to an increase rate for AWD of 7.1 mm/year while the climatic factor would result in an increase rate of 1.9 mm/year during 1989–2015.

Published
2018
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31. Enhanced thermal conductivity of epoxy composites filled with tetrapod-shaped ZnO

Author

Jinhong Yu, Xiao Hou, Junfeng Cui, Cheng-Te Lin, Zhenyu Zhang, Yuming Wu, Yapeng Chen, Ruiyang Kang, Bo Wang, Nan Jiang, Liangchao Guo, and Mengjie Wang

Subjects
Materials science, General Chemical Engineering, Whiskers, Composite number, 02 engineering and technology, General Chemistry, Epoxy, 010402 general chemistry, 021001 nanoscience & nanotechnology, Thermal conduction, 01 natural sciences, Thermal expansion, 0104 chemical sciences, Thermal conductivity, visual_art, visual_art.visual_art_medium, Composite material, 0210 nano-technology, Glass transition, Mass fraction
Abstract

Epoxy composites with ZnO powders characterized by different structures as inclusion are prepared and their thermal properties are studied. The experimental results demonstrate that the epoxy resins filled by tetrapod-shaped ZnO (T-ZnO) whiskers have the superior thermal transport property in comparison to ZnO micron particles (ZnO MPs). The thermal conductivity of ZnO/epoxy and T-ZnO/epoxy composites in different mass fraction (10, 20, 30, 40, 50 wt%) are respectively investigated and the suitable models are compared to explain the enhancement effect of thermal conductivity. The thermal conductivity of T-ZnO/epoxy composites with 50 wt% filler reaches 4.38 W m−1 K−1, approximately 1816% enhancement as compared to neat epoxy. In contrast, the same mass fraction of ZnO MPs are incorporated into epoxy matrix showed less improvement on thermal conduction properties. This is because T-ZnO whiskers act as a thermal conductance bridge in the epoxy matrix. In addition, the other thermal properties of T-ZnO/epoxy composites are also improved. Furthermore, the T-ZnO/epoxy composite also presents a much reduced coefficient of thermal expansion (∼28.1 ppm K−1) and increased glass transition temperature (215.7 °C). This strategy meets the requirement for the rapid development of advanced electronic packaging.

Published
2018
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32. Highly flexible biodegradable cellulose nanofiber/graphene heat-spreader films with improved mechanical properties and enhanced thermal conductivity

Author

Cheng-Te Lin, Yapeng Chen, Wen Dai, Xiao Hou, Liangchao Guo, Kazuhito Nishimura, Yun Liang, Jinhong Yu, Nan Jiang, and Ruiyang Kang

Subjects
Materials science, Graphene, Composite number, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Flexible electronics, 0104 chemical sciences, law.invention, Thermal conductivity, law, Nanofiber, Heat spreader, Ultimate tensile strength, Materials Chemistry, Composite material, 0210 nano-technology, Layer (electronics)
Abstract

Thermal management materials with high thermal conductivity and good flexibility are needed for the next generation of flexible electronics. Herein, a flexible graphene/cellulose nanofiber (CNFG) composite film with high thermal conductivity was fabricated via simple vacuum-assisted filtration. The highly ordered hierarchical stacked layer structure of the graphene nanosheets endows the CNFG composite films with excellent heat-spreader performance and good flexibility. The in-plane thermal conductivity of the CNFG composite film loaded with 50 wt% graphene reached 164.7 W m−1 K−1, and the through-plane thermal conductivity reached 5.0 W m−1 K−1. More importantly, the thermal conductivities of the CNFG composite films in both the axial and radial directions barely changed after 1000 bending cycles. In addition to the good flexibility, the CNFG composite films exhibited superior mechanical properties compared to common graphene papers and neat cellulose nanofibers. The tensile strength of the CNFG composite film containing 50 wt% graphene was 72.3 ± 5.4 MPa. All these qualities make the CNFG composite films ideal heat spreaders for flexible electronic devices.

Published
2018
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33. Boron nitride nanosheet nanofluids for enhanced thermal conductivity

Author

Nan Jiang, Zhongwei Wang, Jinhong Yu, Li Fu, Xiao Hou, Cheng-Te Lin, Mengjie Wang, and Yapeng Chen

Subjects
Materials science, Nanoparticle, 02 engineering and technology, Thermal transfer, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Nanofluid, Thermal conductivity, chemistry, Boron nitride, Thermal, Heat transfer, General Materials Science, Composite material, 0210 nano-technology, Nanosheet
Abstract

It is difficult for traditional cooling liquids to meet equipment requirements due to the high power and high integration they demand. Nanofluids are nanoparticle dispersions with high thermal conductivities, thus they have been proposed for heat transfer applications. Boron nitride nanosheets (BNNSs) possess high thermal conductivities and excellent insulation properties. Here, we fabricated BNNS nanofluids and investigated their effects on thermal conductivity enhancements. We find that BNNSs can effectively enhance the thermal conductivity of water. The thermal conductivity of the BNNS nanofluids reached 2.39 W mK-1 at 24 vol% loading. The surface temperature changes of the nanofluids and water were observed during the heating process using an infrared camera. The results show that the nanofluids transfer heat much faster than water, indicating that the fabricated BNNS nanofluids have excellent thermal transfer properties.

Published
2018
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34. Anisotropic thermal conductive properties of cigarette filter-templated graphene/epoxy composites

Author

Zhiduo Liu, Yuming Wu, Yapeng Chen, Xiao Hou, Nan Jiang, Mengjie Wang, Jinhong Yu, Wen Dai, He Li, and Cheng-Te Lin

Subjects
Materials science, Graphene, General Chemical Engineering, Composite number, 02 engineering and technology, General Chemistry, Epoxy, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Thermal conductivity, law, visual_art, Thermal, visual_art.visual_art_medium, Composite material, 0210 nano-technology, Anisotropy, Electrical conductor, Filtration
Abstract

Herein, a cigarette filter-templated graphene/epoxy composite was prepared with enhanced thermal conductive properties. The through-plane thermal conductivity of the epoxy composite was up to 1.2 W mK−1, which was 4 times that of it in the in-plane (0.298 W mK−1) after only 5 filtration cycles. The thermal conductive anisotropy and improvement in the through-plane thermal conductivity of the epoxy composite were attributed to the particular structure of cigarette filter-templated graphene in the epoxy matrix. The unique structure formed effective conductive pathways in the composite to improve the thermal transportation properties. The excellent thermal transportation properties allow the epoxy composite to be used as an efficient heat dissipation material for thermal management applications.

Published
2018
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35. Development of Quick Digital Field Recording and Mapping Method of Geological Objects for Hydraulic Engineering

Author

Gao Yusheng, Liu Manjie, Yapeng Chen, Shuai Han, and Wenchao Zhao

Subjects
digital geological recording, Technology, Engineering drawing, QH301-705.5, Hydraulic engineering, Computer science, QC1-999, field geology, Stability (learning theory), Field (computer science), Software, 3D real scene of terrain, General Materials Science, Biology (General), QD1-999, Instrumentation, Fluid Flow and Transfer Processes, business.industry, Physics, Process Chemistry and Technology, General Engineering, Mode (statistics), hydraulic engineering, 3D geology model, Engineering (General). Civil engineering (General), Object (computer science), Computer Science Applications, Chemistry, Geological survey, Development (differential geometry), TA1-2040, business
Abstract

During the fieldwork of hydraulic engineering, practical engineers normally document geological information manually. Although there are some GIS-based digital tools for geology, they are not perfectly applicable to hydraulic engineering. As a result, the current work mode is ineffective, unmanageable, error-prone, and not conducive to subsequent analysis. To address this problem, we developed a digital tool which enables geological recording and quick modeling based on 3D real scenes in the field of hydropower projects. There are three modules in the surface tool: object recording, image interpretation, and field analysis. The object recording module is to mark geological points (e.g., drills and shafts), lines (e.g., faults, stratigraphic boundaries), and surfaces (e.g., slope and stocking yard) on a 3D scene and then store them in the database. The image interpretation is to interpret the 2D information in images to 3D models loaded in 3D software for further studies, such as GOCAD. The field analysis includes surface fitting, stability analysis of blocks, occurrences calculating, rock recognition, and 69/sketching. The tool is helpful for recording data, drawing geological boundaries, and building a preliminary model in the geological survey.

Published
2021
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36. Flame-retardant composite gel polymer electrolyte with a dual acceleration conduction mechanism for lithium ion batteries

Author

Chengkai Yang, Yapeng Chen, Gui Xu, Borong Li, Chenpeng Xi, Yuanbin Xiao, Yan Yu, and Jianqiang Guo

Subjects
Triethyl phosphate, Materials science, General Chemical Engineering, chemistry.chemical_element, 02 engineering and technology, General Chemistry, Electrolyte, 010402 general chemistry, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Industrial and Manufacturing Engineering, Dissociation (chemistry), 0104 chemical sciences, Diffusion layer, chemistry.chemical_compound, chemistry, Chemical engineering, Zeta potential, Environmental Chemistry, Lithium, 0210 nano-technology, Electrochemical window
Abstract

In recent years, the pursuit of high electrochemical stability and safety are considered as the newly growing and leading trend of next-generation lithium-ion batteries (LIB). The gelation of polymer electrolytes(GPEs) is the most direct and effective way to improve electrochemical performance. Herein, a novel composited polyethylene glycol (PEG) electrolyte is reported with a dual acceleration conduction effect of Li+ by the nano-TiO2 and triethyl phosphate (TEP). The negative ZETA potential of nano-TiO2/PEG internal interface promoted the dissociation of lithium salt by the unstable adsorption in diffusion layer, which enhanced the lithium ion migration and promoted the uniformity of lithium deposition. The flame retardant TEP improved safety performance, adjusted the affinity between EO and Li+, which bestowed it a high discharge 125.7mAh/g at 0.2C, with a low average capacity decay rate of 0.08% per cycle. The well-designed PEG-TEP-TiO2 GPEs showed wide electrochemical window, stable Li+ stripping/plating, smaller voltage polarizations and excellent cycling performance. The new understanding of composite electrolytes provides a powerful avenue for facilitating the gelation-solid-state lithium ion batteries.

Published
2021
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37. Starch as a reinforcement agent for poly(ionic liquid) hydrogels from deep eutectic solvent via frontal polymerization

Author

Shilin Yan, Shengfang Li, and Yapeng Chen

Subjects
Materials science, Compressive Strength, Polymers and Plastics, Polymers, Starch, Ionic Liquids, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Polymerization, chemistry.chemical_compound, Tensile Strength, Ultimate tensile strength, Materials Chemistry, Solubility, Organic Chemistry, Electric Conductivity, Temperature, Water, Hydrogels, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Deep eutectic solvent, Compressive strength, chemistry, Chemical engineering, Ionic liquid, Self-healing hydrogels, Solvents, 0210 nano-technology
Abstract

For the first time, conductive starch/poly(ionic liquid) hydrogels from a polymerizable deep eutectic solvent (DES) by frontal polymerization (FP) were reported. The solubility and dispersibility for starch granules in the polymerizable DES was investigated. The effects of starch content on FP behaviors, mechanical properties and electrical conductivity of composite hydrogels were studied. Results showed that starch could be partially dissolved and dispersed in the DES. Comparing with the pure poly(ionic liquid) hydrogel from DES (the tensile strength was 41 K Pa), the tensile strength of composite hydrogel could increased by 3.07 times and reached 126 K Pa. When the fixed strain was 80 %, its compressive strength could increase by 6 times and reaches 16.8 MPa. The main reason was that there was a strong interfacial interaction between starch and the polymer hydrogel network. The starch/poly(ionic liquid) composite hydrogels also had good electrical conductivity. Absorption of water could increase the conductivity of the composite hydrogel significantly.

Published
2021
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38. Experimental study on water transport observations of desert riparian forests in the lower reaches of the Tarim River in China

Author

Aihong Fu, XinmingHao, Weihong Li, Jianxin Ma, Honghua Zhou, Yapeng Chen, and Yaning Chen

Subjects
China, Atmospheric Science, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Forests, 010501 environmental sciences, 01 natural sciences, Rivers, Stress, Physiological, Riparian forest, Groundwater, 0105 earth and related environmental sciences, Transpiration, Riparian zone, Hydrology, geography, Water transport, geography.geographical_feature_category, Ecology, biology, Tamaricaceae, Water, Plant Transpiration, biology.organism_classification, Arid, Droughts, Populus, Environmental science, Desert Climate, Tamarix chinensis, Populus euphratica, Water use
Abstract

Studying the water use processes of desert riparian vegetation in arid regions and analyzing the response and adaptation strategies of plants to drought stress are of great significance for developing ecological restoration measures. Based on field monitoring and test analyses of physiological ecological indicators of dominant species (Populus euphratica and Tamarix chinensis) in the desert riparian forest in the lower reaches of the Tarim River, the water relations of P. euphratica and T. chinensis under drought stress are discussed and some water use strategies put forward. The results show that (1) concerning plant water uptake, desert riparian forests depend mainly on groundwater to survive under long-term water stress. (2) Concerning plant water distribution, the survival of P. euphratica and nearby shallow root plants is mainly due to the hydraulic lift and water redistribution of P. euphratica under drought stress. (3) Concerning plant water transport, P. euphratica sustains the survival of competitive and advantageous branches by improving their ability to acquire water while restraining the growth of inferior branches. (4) Concerning plant transpiration, the sap flow curves of daily variations of P. euphratica and T. chinensis were wide-peak sin and narrower-peak respectively. T. chinensis has better environmental adaptability.

Published
2017
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39. Enhanced Thermal Conductivity of Epoxy Composites Filled with 2D Transition Metal Carbides (MXenes) with Ultralow Loading

Author

Jinhong Yu, Xiao Hou, Zhenyu Zhang, Cheng-Te Lin, Liangchao Guo, Yapeng Chen, Ruiyang Kang, Bo Wang, Junfeng Cui, and Nan Jiang

Subjects
0301 basic medicine, Materials science, Composite number, lcsh:Medicine, Two-dimensional materials, Article, Thermal expansion, Nanocomposites, 03 medical and health sciences, 0302 clinical medicine, Thermal conductivity, Thermal stability, Composite material, lcsh:Science, chemistry.chemical_classification, Multidisciplinary, lcsh:R, Polymer, Epoxy, 030104 developmental biology, chemistry, visual_art, visual_art.visual_art_medium, lcsh:Q, MXenes, Glass transition, 030217 neurology & neurosurgery
Abstract

With the development of electronic devices such as integrated circuits toward the continual increase in power density and consumption, the efficient heat dissipation and low thermal expansion of materials become one of the most important issue. However, conventional polymers have the problem of poor thermal dissipation performance, which hinder application for electronic devices. In this work, the two-dimensional material, MXene (Ti3C2), is used as the reinforcement additive to optimize the thermal properties of polymers. We reported the preparation of multilayer Ti3C2 MXene by HF etching method and obtained few-layer Ti3C2 MXene by simple ultrasonication. Meanwhile, Ti3C2/epoxy composites were prepared by a solution blending method. The results show that the thermal properties of the composites are improved in comparison with the neat epoxy. Thermal conductivity value (0.587 W/mK) of epoxy composite with only 1.0 wt% Ti3C2 MXene fillers, is increased by 141.3% compared with that of neat epoxy. In addition, the composite presents an increased glass transition temperature, high thermal stability and lower coefficient of thermal expansion. This work is of great significance for the research of high-performance composite materials.

Published
2019
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40. Defect chemistry of alkaline earth metal (Sr/Ba) titanates

Author

Yapeng Chen, Xin Guo, and Tuo Shi

Subjects
Work (thermodynamics), Range (particle radiation), Alkaline earth metal, Materials science, Doping, Analytical chemistry, Mineralogy, 02 engineering and technology, Partial pressure, Atmospheric temperature range, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Acceptor, 0104 chemical sciences, Materials Science(all), General Materials Science, 0210 nano-technology
Abstract

Defect reactions and reaction parameters of SrTiO3 and BaTiO3, published in literatures, over the doping range from acceptor to donor, temperature range from room temperature to >1500 K and oxygen partial pressure range of 10 - 25 to 1 bar are summarized in this work, and a Windows® based DefectChemCal program is developed. With the program, one can calculate the defect concentrations and the electrical properties of acceptor and donor-doped SrTiO3 and BaTiO3, and the validity of the program is demonstrated by comparing the calculation and experimental results.

Published
2016
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41. Impact of groundwater depth on leaf hydraulic properties and drought vulnerability of Populus euphratica in the Northwest of China

Author

Yapeng Chen, Yaning Chen, Rizhao Wang, Zhiguo Ren, and Yingping Pan

Subjects
0106 biological sciences, Hydrology, Drought stress, Water transport, Ecology, biology, Physiology, Turgor pressure, Forestry, Plant Science, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Botany, Groundwater depth, Osmotic pressure, Environmental science, Arid zone, Populus euphratica, Groundwater, 010606 plant biology & botany
Abstract

Different groundwater conditions affect leaf hydraulic conductance and leaf pressure–volume parameters in Populus euphratica at the extremely arid zone in the northwest of China. Efficient water transport inside leaves constitutes a major determinant of plant function, especially in drought-stressed plants. The previous researches have reported the correlation between leaf hydraulic properties and water availability. In this study, we tested the hypothesis that water relation parameters of Populus euphratica in an extremely arid zone of China are sensitive and acclimated to groundwater depth. We measured leaf hydraulic conductance (K leaf) using rehydration kinetics methods (RKM), pressure–volume (P–V) curves, and leaf vulnerability curves of P. euphratica growing at four groundwater depth gradients. We also assessed the hydraulic safety margins across groundwater depth gradients. We found that K leaf–max shows an increasing trend as the groundwater depth increases, while osmotic potential at full turgor (πft) and turgor loss point (Ψtlp) exhibits a decreasing trend, suggesting that increased tolerance to drought is formed as the groundwater depth increases. Furthermore, safety margins showed positive and negative variations under different groundwater depths, indicating that P. euphratica has formed special drought survival strategies, which can be summarized as a “conservative” strategy in favorable water conditions or a “risk” strategy in severe drought stress.

Published
2016
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42. Graphdiyne for significant thermal conductivity enhancement at ultralow mass fraction in polymer composites

Author

Yapeng Chen, Nan Jiang, Maohua Li, Linhong Li, Chao Yan, Xiao Hou, Mengjie Wang, Jinhong Yu, and Meizhen Liao

Subjects
chemistry.chemical_classification, Filler (packaging), Work (thermodynamics), Materials science, Mechanical Engineering, Composite number, General Chemistry, Polymer, Condensed Matter Physics, Hot pressing, chemistry.chemical_compound, Thermal conductivity, chemistry, Mechanics of Materials, General Materials Science, Composite material, Fluoride, Mass fraction
Abstract

In thermal management systems, it is quite meaningful to achieve high thermal conductivity enhancement efficiency for polymer-based thermally conductive materials with low content filler. In this work, a novel 2D all-carbon allotrope, graphdiyne (GDY) was attempted as a filler to improve the thermal conductivity of the polymer matrix. The poly(vinylidene fluoride) (PVDF) composite films, with ultralow mass fraction (≤ 1 wt%) GDY, were fabricated by solution blend and hot pressing. As a consequence, the obtained composite film, at only 1 wt% GDY content, exhibited a high in-plane thermal conductivity of 3.86 W/mK, which revealed a 2249% thermal conductivity enhancement compared with neat PVDF. This excellent heat transport performance makes GDY an attractive filler for high-performance composite for electronic cooling applications.

Published
2020
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43. Constructing a 'pea-pod-like' alumina-graphene binary architecture for enhancing thermal conductivity of epoxy composite

Author

Wen Dai, Yapeng Chen, Meizhen Liao, He Li, Jinhong Yu, Nan Jiang, Zhongwei Wang, Xiao Hou, Cheng-Te Lin, and Chao Yan

Subjects
Work (thermodynamics), Materials science, Graphene, General Chemical Engineering, Composite number, Binary number, General Chemistry, Epoxy, Industrial and Manufacturing Engineering, law.invention, Thermal conductivity, law, visual_art, Heat spreader, visual_art.visual_art_medium, Environmental Chemistry, Composite material, Filtration
Abstract

Constructing a three-dimensional thermal transport framework is an effective strategy for enhancing thermal conductivity of polymer composites. Vacuum-assisted filtration has been utilized as an effective method to prepare heat spreader films, which always exhibit poor heat dissipation performance in the axial direction. Herein, with the incorporation of spherical alumina, a pea-pod-like binary alumina-graphene architecture has been fabricated via vacuum filtration and impregnated with epoxy to obtain alumina-graphene/epoxy composite. The thermal conductivity of epoxy composite in axial direction has risen to 13.3 W m−1 K−1 with the assistance of pea-pod-like binary alumina-graphene foam with 12.1 wt% graphene and 42.4 wt% alumina loading. Thermal conductivity of the composite in radial direction reached 33.4 W m−1 K−1, which exhibits about 166 times enhancement than that of pure epoxy. The test result of the thermal conductivity of the composite under various conditions and heat transport applications confirmed the excellent thermal transport performance of the composite. Our work provides a new idea to significantly enhance the thermal conductivity of thermal management materials.

Published
2020
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44. Land-use/cover conversion affects soil organic-carbon stocks: A case study along the main channel of the Tarim River, China

Author

Yuhai Yang, Yapeng Chen, Yaning Chen, and Zhi Li

Subjects
Atmospheric Science, 010504 meteorology & atmospheric sciences, Ecological Succession, ved/biology.organism_classification_rank.species, lcsh:Medicine, Social Sciences, Ecological succession, Plant Science, 010501 environmental sciences, Carbon sequestration, Forests, Soil Chemistry, 01 natural sciences, Shrub, Grassland, Soil, Land Use, lcsh:Science, Multidisciplinary, geography.geographical_feature_category, Deserts, Ecology, Geography, Eukaryota, Soil Carbon, Agriculture, Plants, Terrestrial Environments, Chemistry, Grasslands, Physical Sciences, Environmental Monitoring, Research Article, Carbon Sequestration, China, Conservation of Natural Resources, Soil Science, Human Geography, Ecosystems, Carbon cycle, Greenhouse Gases, Rivers, Environmental Chemistry, Plant Communities, 0105 earth and related environmental sciences, geography, Land use, ved/biology, Plant Ecology, lcsh:R, Ecology and Environmental Sciences, Organisms, Chemical Compounds, Biology and Life Sciences, Forestry, Soil carbon, Carbon Dioxide, Arid, Atmospheric Chemistry, Earth Sciences, Environmental science, lcsh:Q, Shrubs
Abstract

Soil organic carbon (SOC) constitutes a large pool within the global carbon cycle. Changes in land-use/cover strongly drive variation of SOC stocks. We analyzed the changes in four types of land use/cover and their influence on SOC content, density, and regional stocks along the main channel of the Tarim River in China for 2000-2010 obtained from remotely sensed images and field surveys. The areas and structures of the land uses/covers changed greatly during this period. Specifically, the areas of cultivated, industrial and residential, and shrub land increased, particularly cultivated and shrub land. The areas of forestland, grassland, water bodies, and unused land decreased. SOC stocks in forestland, grassland and unused land decreased between 2000 and 2010. The total SOC stock for the forestland shrub land grassland and unused land was lower in 2010 than 2000. Land-use/cover conversion thus affected SOC stocks. Specifically, conversions from forestland to shrub land, forestland to grassland, forestland to unused land, grassland to shrub land, grassland to unused land, and shrub land to unused land decreased the SOC stocks. This study provides a scientific basis for eco-environmental protection in arid areas.

Published
2018

45. Use of 2H and 18O stable isotopes to investigate water sources for different ages of Populus euphratica along the lower Heihe River

Author

Jonathan M. Friedman, Yaning Chen, Jarre Heng A. Hati, Yapeng Chen, Shubao Liu, and Gonghuan Fang

Subjects
Hydrology, geography, geography.geographical_feature_category, biology, δ18O, Ecology, Stable isotope ratio, Water source, Xylem, biology.organism_classification, Soil water, Environmental science, Ecology, Evolution, Behavior and Systematics, Populus euphratica, Groundwater, Riparian zone
Abstract

Investigation of the water sources used by trees of different ages is essential to formulate a conservation strategy for the riparian tree, P. euphratica. This study addressed the contributions of different potential water sources to P. euphratica based on levels of stable oxygen and hydrogen isotopes (δ18O, δ2H) in the xylem of different aged P. euphratica, as well as in soil water and groundwater along the lower Heihe River. We found significant differences in δ18O values in the xylem of different aged P. euphratica. Specifically, the δ18O values of young, mature and over-mature forests were −5.368(±0.252) ‰, −6.033(± 0.185) ‰ and −6.924 (± 0.166) ‰, respectively, reflecting the reliance of older trees on deeper sources of water with a δ18O value closer to that of groundwater. Different aged P. euphratica used different water sources, with young forests rarely using groundwater (mean 45 %), and mature and over-mature forests using water from deeper than 100 cm derived primarily from groundwater.

Published
2015
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46. Climate variations in northern Xinjiang of China over the past 50 years under global warming

Author

Yapeng Chen, Jie Zhao, Jiaxiu Li, Changchun Xu, and Shentong Gao

Subjects
Trend analysis, Climatology, Global warming, Sunshine duration, Period (geology), Environmental science, Relative humidity, Precipitation, Soviet union, China, Earth-Surface Processes
Abstract

Based on the data of five observed meteorological elements (temperature, precipitation, wind speed, sunshine duration, and relative humidity) from 22 stations, the paper investigated the climate variations in northern Xinjiang over the past 50 years. The analytical results showed that both the temperature and the precipitation have increased significantly (0.35 °C/10 y, 11.2 mm/10 y) during the period of 1960–2011. An abrupt change was detected to have occurred in 1986 for temperature and in 1987 for precipitation. Autumn was the season when the temperature increased most dramatically, and winter and autumn were the seasons when the precipitation increased most dramatically. The twenty years after 1990 were the warmest and wettest two decades of the past ∼50 years, but the warming and wetting paces have slowed down during the same period. The results also showed that the mean annual minimum temperature increased more dramatically than the mean annual maximum temperature, resulting in a greatly reduced diurnal range. The reasons or mechanisms for rising trend of temperature during the past 50 years and also for the faster rising rate of the temperature in northern Xinjiang and the adjacent areas have been reasonably explored in published literature. However, the reasons or mechanisms for the rising trend of the past 50-year precipitation in northern Xinjiang and the adjacent areas have not been reasonably explored. This wetting trend has not extended further to the surrounding areas including Republic of Mongolia, major part of North China, and five republics of the former Soviet Union, and the need is thus pressing to explore the reasons or mechanisms behind this relatively “localized” wetting trend.

Published
2015
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47. Climate change in Urumqi City during 1960–2013

Author

Jie Zhao, Changchun Xu, Shentong Gao, Rongpan Zhou, Yapeng Chen, Jiaxiu Li, and Huizhi Liu

Subjects
Maximum temperature, Climatology, Global warming, Sunshine duration, Environmental science, Climate change, Relative humidity, Precipitation, Water vapor, Wind speed, Earth-Surface Processes
Abstract

Based on the long-term trends analysis of five meteorological parameters (temperature, precipitation, wind speed, sunshine duration and relative humidity) in the four chosen stations of different settings, this paper attempts to reveal the characteristics of climate change in Urumqi City during 1960–2013. Our analytical results showed that both the temperature and precipitation in the Urumqi City have increased significantly since the middle 1980s. Autumn was the season when the temperature increased most drastically, and winter was the season when the precipitation increased most drastically. The average minimum temperature increased faster than the average maximum temperature, thus resulting in greatly reduced diurnal and annual temperature ranges. The wind speed was weakening significantly since the middle 1980s. The sunshine duration did not display any geographic coherence or consistency among different stations. The relative humidity has maintained more or less a constant, meaning that the absolute amount of water vapor has been increased under warming conditions. Comparatively, the Urumqi station (i.e., the urbanized area) had the most pronounced changes in temperature, precipitation and sunshine duration and the most pronounced changes were possibly due to the combined effects of natural and anthropogenic factors. Climate change in the mountainous area was synchronous with that in the plain area and the underlying surfaces and topographies, together with degrees of human activities, distinguished the regional climatic responses to global warming.

Published
2015
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48. Effect of service recovery on recovery satisfaction and behavior intention: An empirical study on clothing product online shopping

Author

Yan Li, Tongchao Liu, and Yapeng Chen

Subjects
Service (business), Mediation (statistics), business.industry, 05 social sciences, Applied psychology, Multilevel model, Clothing, Service recovery, Empirical research, 0502 economics and business, 050211 marketing, Customer satisfaction, Product (category theory), Psychology, business, 050203 business & management
Abstract

In the background of clothing products online shopping, data of 276 service failure experienced consumers had been collected through online survey. The aim of this study was to investigate the influence mechanism of service recovery strategies (compensation, recovery speed, apology and recovery initiation) on recovery satisfaction (RS) and behavior intentions (BI) (Word-of-Mouth (WOM) and Repurchase Intention (RI)). Hierarchical regression and bootstrapping had been used to examine the mediation effect of WOM and RS. The findings indicated that all of the four strategies had positive effects on RS; Positive WOM had the mediation effect between RS and RI; RS had the mediation effects between recovery strategies and BI. Also, theoretical and practical contributions had been discussed to give some new perspectives or advices. Limitations and suggestions for future research had been mentioned in the end.

Published
2017
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49. Enhanced Thermal Conductivity of Polyimide Composites with Boron Nitride Nanosheets

Author

Xiao Hou, Shuangyi Li, Yuming Wu, Jinhong Yu, Yapeng Chen, Ting Wang, Ruiyang Kang, Nan Jiang, Liangchao Guo, Zehui Duan, Mengjie Wang, and Li Fu

Subjects
Multidisciplinary, Materials science, Composite number, lcsh:R, lcsh:Medicine, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Exfoliation joint, Article, 0104 chemical sciences, chemistry.chemical_compound, Thermal conductivity, chemistry, Boron nitride, Hydroxide, lcsh:Q, Composite material, 0210 nano-technology, Anisotropy, lcsh:Science, Electrical conductor, Polyimide
Abstract

A strategy was reported to prepare boron nitride nanosheets (BNNSs) by a molten hydroxide assisted liquid exfoliation from hexagonal boron nitride (h-BN) powder. BNNSs with an average thickness of 3 nm were obtained by a facile, low-cost, and scalable exfoliation method. Highly thermally conductive polyimide (PI) composite films with BNNSs filler were prepared by solution-casting process. The in-plane thermal conductivity of PI composite films with 7 wt% BNNSs is up to 2.95 W/mK, which increased by 1,080% compared to the neat PI. In contrast, the out-of plane thermal conductivity of the composites is 0.44 W/mK, with an increase by only 76%. The high anisotropy of thermal conductivity was verified to be due to the high alignment of the BNNSs. The PI/BNNSs composite films are attractive for the thermal management applications in the field of next-generation electronic devices.

Published
2017

50. Desert riparian vegetation and groundwater in the lower reaches of the Tarim River basin

Author

Yapeng Chen, Yaning Chen, Weihong Li, Changchun Xu, and Zhaoxia Ye

Subjects
Hydrology, Global and Planetary Change, Irrigation, geography, geography.geographical_feature_category, Water table, Water flow, Soil Science, Geology, Vegetation, Pollution, Arid, Environmental Chemistry, Environmental science, Surface water, Groundwater, Earth-Surface Processes, Water Science and Technology, Riparian zone
Abstract

The Green Corridor in the lower reaches of Tarim River in northwestern China has an extreme hot and dry climate. Vegetation here, consisting of arbor, shrub and grass, relies on groundwater exceedingly. However, the increasing anthropogenic activities of large-scale agricultural reclamation and unreasonable water utilization in the upper and middle reaches caused the 321-km riverway in the lower reaches to dry up completely in 1972 and resulted in the sharp decline of groundwater, followed by the ruin of desert riparian vegetation on a large scale. The Green Corridor is on the verge of shrinking. Water has a key role in maintaining ecological balance and socioeconomic development. This paper, focused on the relationship between vegetation and groundwater, discusses (1) the change of groundwater table caused by the ecological water delivery carried out in the lower reaches of Tarim River; (2) the appropriate groundwater depth meeting the vegetation’s survival; (3) the minimum ecological flux and ecological water requirement for the growth of natural vegetation. It was shown that (1) based on the analysis of the monitoring data from the groundwater level of ten times water delivery, such an extensive artificial watering takes positive effect on raising the groundwater level along the two sides of the river; (2) a groundwater table depth of 2–4 m is probably the appropriate ecological water table level for the lower reaches of the Tarim River, and 6 m is the threshold for the local vegetation; (3) at the lower Tarim River, 1.157 × 108 m3 of water flow is needed for itself. The longer the duration of water releases, the greater would be the groundwater rise and the larger the range of vegetation influenced. It was found that the duration and volume of water delivery was closely related to restoration of vegetation in the lower reaches of the Tarim River. The goal of this paper is to offer scientific evidences for water delivery in the rigorous areas to maintain an ecological balance.

Published
2014
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