科研成果

2024
Zheng B, Liu L, Huang G, Baetz B, Zhai M, Zhang K, Lu C. Sustainable Water Resources Management through Disaggregated Multi-Region Virtual Water Flow and Interaction Analysis. Water Resour Manage [Internet]. 2024. 访问链接
Wu C-Y. A Tang Dynasty Coin in 13th-Century Corinth: Context and Transmission. Hesperia: The Journal of the American School of Classical Studies at Athens [Internet]. 2024;93(1):83-143. 访问链接Abstract
During the 1960 campaign of the Corinth Excavations, a Tang Dynasty coin was found in an ash and charcoal layer with deposits from the mid- to late 13th century ce and earlier. Considering similar coin finds from the Xinjiang Uygur Autonomous Region, China, and the Chui Region, Kyrgyzstan, this article argues that the Corinth Tang coin is likely an Anxi Protectorate issue, though a Chui valley origin cannot be ruled out. This article discusses the origins, survival, and mobility of this minimal-value cash coin in a web of Eurasian connections, with particular focus on the connectivity of the Church of the East and the Jewish merchant network from the 8th to the 13th century ce.
Tang Z, Zhang P, Li Y, Hansen P. Tell Me What to Do First: How Behavioral Skills Drive Users' Intention to Adopt Online Health Information. The Electronic Library. 2024;42(5):811-826.
Hu Z, Miao X, Shao L. Tests of Classical Gravity with Radio Pulsars. In: Bambi C, Cárdenas-Avendaño A Recent Progress on Gravity Tests. Challenges and Future Perspectives. ; 2024. pp. 61-99.
Huang Z, Yang Y, Sheng D, Li H, Wang Y, Sun Z, Li M, WANG R, HUANG R, Cheng Z. Thermal Conductivity of Cubic Silicon Carbide Single Crystals Heavily Doped by Nitrogen. arXiv preprint arXiv:2409.18843. 2024.
Yang M, Wang Y, Wu H, Zhang P, Ju X. Thermo-hydro-chemical modeling and analysis of methane extraction from fractured gas hydrate-bearing sediments. Energy [Internet]. 2024;292:130490. 访问链接
Liu T. A three-dimensional reservoir-scale Thermal-Hydrological-Mechanical model of enhanced geothermal systems, in Interpore 2024.; 2024. 访问链接Abstract
The heat energy resource in the deep earth (3 ∼10 km), which is carried by Hot Dry Rocks (HDR), has a huge capacity for geothermal power generation. As a type of conductive geothermal energy, HDR has low rock permeability, so that Enhanced/Engineered Geothermal System (EGS) is developed to artificially increase the heat exchange area and further extract the deep geothermal energy with the connected natural fractures and hydraulic stimulated fracture network. The coupled Thermal-Hydrological-Mechanical (THM) processes largely control the heat recovery efficiency from HDR, and thus real 3D reservoir scale investigations that account for the multiphysics coupling mechanisms are needed to inform geothermal energy recovery from HDR.In this work, we built a three-dimensional THM model for the EGS of Qiabuqia HDR (Zhang et al. 2018, Gonghe Basin, China) by taking advantage of the novel simulation framework, GEOSX (Settgast et al. 2022). As a rapidly growing open-source multi-physics simulator, GEOSX has highly scalable algorithms for solving complex fluid flow, thermal, and geomechanical coupled systems. Preliminary geological data of the targetarea has been acquired by exploratory wells (e.g., GR1, GR2, DR3, DR4). There is also a trial production well GH-01. In our model, we considered a dual-well utilization system. Our 3D model focuses on reservoir-scale THM coupling, and takes into consideration the geostress directions in configuring the faults and (hydraulic)fractures, which are explicitly handled with EDFM (Embedded Discrete Fracture Model) method. The simulated results of heat recovery efficiency under different production scenarios provide guidance information for engineering practices.
Yan W, Wang Y, Yuan Y, Farid M, Zhang P, Peng K. Timing matters: Alongitudinal study examining the effects of physical activity intensity and timing on adolescents' mental health outcomes. Journal of Youth and Adolescence [Internet]. 2024. 访问链接Abstract
Physical activity is universally acknowledged for its benefits to mental health; however, the specific intensities and timings that best benefit adolescents’ mental health, crucial due to their significant influence on daily schedules, have not been thoroughly investigated. This study addresses the substantive research gap by exploring the varied effects of physical activity intensity (light versus moderate to vigorous) and timing (weekdays versus weekends and holidays) on adolescent mental health. Utilizing a large-scale longitudinal dataset (NT1 = 84,054; NT2 = 44,623) from 158 schools, this research describes the current state of adolescent physical activity and investigates the effects of physical activity on mental health outcomes, including positive (i.e., life satisfaction, positive mental health) and negative indicators (depression, anxiety), over a 6-month period. Participants were adolescents aged 9–19 years (mean age = 12.73 ± 2.43 years, 48.9% female), with the analysis adjusted for potential confounding factors. Results showed that as adolescents grow older, their engagement in moderate-to-vigorous physical activity during both weekdays and weekends/holidays tends to decrease, while light physical activity during weekdays increases. Multilevel regression analysis indicated that moderate-to-vigorous physical activity during weekends/holidays at Time 1 positively correlated with better mental health outcomes at Time 2 (six months later), featuring enhanced positive indicators and reduced negative ones. Moderate-to-vigorous physical activity on weekdays at Time 1 was positively linked to mental health at Time 2. Light physical activity during weekends/holidays at Time 1 positively predicted life satisfaction and positive mental health at Time 2. In contrast, light physical activity on weekdays at Time 1 negatively correlated with life satisfaction at Time 2. The study underscores the importance of promoting moderate-to-vigorous physical activity, particularly on weekends and holidays, to improve mental health outcomes among adolescents.
Cheng Z, Huang Z, Sun J, Wang J, Feng T, Ohnishi K, Liang J, Amano H, HUANG R. (Ultra) wide bandgap semiconductor heterostructures for electronics cooling. Applied Physics Reviews. 2024;11(4).
Xiong Y, Li S, Wang R, Cheng Z, Yang J, Li D, Liu X, Xu D. Ultralow Contact Thermal Resistance between Bismuth Selenide Nanoribbons Achieved by Current-Induced Annealing. ACS Applied Materials & Interfaces. 2024;16(42):57824-57831.
Zhu W, Shi J, Wang H, Yu Y, Tan R, Shen R, Chen J, Lou S, Hu M, Guo S. Understanding secondary particles in a regional site of Yangtze River Delta: Insights from mass spectrometric measurement. Science of the Total Environment. 2024;933.
Xu N, Hu M, Li X, Zeng L, Wang Y, Qiu Y, Song K, S Li, Shuai S, Chen Y, et al. Unraveling the Light-Absorbing Properties of Brown Carbon at a Molecular Level. Geophysical Research Letters. 2024;51(10).
Yan W, Zhang X, Wang Y, Peng K, Ma Y. Unraveling the relationship between teachers’ and students’ mental health: A one-to-one matched analysis. The Journal of Experimental Education [Internet]. 2024. 访问链接Abstract
This study aims to identify the associations between teacher mental health and student mental health. Cross-sectional data were collected from 127,877 students aged 9–20 years and 2,759 teachers across 31 provinces in China. The mental health of students and teachers were assessed by well-being (life satisfaction and positive mental health), and psychological distress (depression and anxiety). Controlling for demographic variables, multilevel regression analyses suggest that higher teacher positive mental health was linked to higher student positive mental health and lower student depression; higher teacher depression were correlated with higher student depression; and teacher life satisfaction and anxiety were not correlated with any indicators of student mental health. The study highlights the significant association between teacher mental health and student mental health.
He L, Liu W, Li Y, Wang J, Kuwata M, Liu YJ. Wall loss of semi-volatile organic compounds in a Teflon bag chamber for the temperature range of 262–298 K: mechanistic insight on temperature dependence. Atmospheric Measurement Techniques [Internet]. 2024;17(2):755–764. 访问链接Abstract
Teflon bag chambers have long been used for investigating atmospheric chemical processes, including secondary organic aerosol formation. The wall-loss process of gas-phase species in Teflon bag chambers has typically been investigated at around room temperature. Recent laboratory studies started employing Teflon bag chambers at sub-273 K conditions for simulating wintertime and upper-tropospheric environments. However, temperature dependence in vapor-wall-loss processes of semi-volatile organic compounds (SVOCs) in a Teflon bag chamber has not been well investigated. In this study, we experimentally investigated wall-loss processes of C14–C19 n-alkanes in a 1 m3 Teflon bag for the temperature range of 262 to 298 K. Enhanced wall losses of the tested n-alkanes were observed following the decrease in temperature. For instance, 65 %​​​​​​​ of C14 n-alkane was lost to the wall 15 h after injection at room temperature, while the corresponding value was 95 % at 262 K. The experimental data were analyzed using a two-layer kinetic model, which considers both absorption of gas-phase species to the surface layer of the Teflon wall and diffusion to the inner layer. The experimental data demonstrated that absorption of gas-phase species by the surface layer was enhanced at lower temperatures. The temperature dependence in absorption was well accounted for using the equilibrium-dissolution model of organic compounds to the Teflon surface by considering reduced saturation vapor pressure at lower temperatures. On the contrary, diffusion of n-alkanes from the surface to the inner layer slowed down at reduced temperatures. Mechanistic studies on these processes will need to be conducted in the future to quantitatively predict the influence of temperature-dependent wall-loss processes of SVOCs on laboratory experimental results.
Huang C, Tian L, Wang J, Jiang L, Zhang K. Water-CO2 wettability on sandstone surface with asphaltene adsorption: Molecular dynamics simulation. Fuel [Internet]. 2024;360:130558. 访问链接Abstract
The reactions between CO2 slugs and crude oil induce a substantial amount of asphaltene precipitation and adsorption on the rock surface during the CO2 alternative water flooding process. When the subsequent water slug passes through the core pores after asphaltene adsorption, it will displace the previous CO2 slug. The wettability of water and CO2 on the asphaltene-adsorbed rock surface will directly determine the magnitude and direction of the capillary force of the two media, which in turn affects their flow resistance and flow pattern analysis. In this paper, the systems of CO2/water/sandstone and CO2/water/asphaltene adsorption sandstone were established by molecular dynamics simulation technology. The effects of asphaltene adsorption, thickness of the asphaltene adsorption layer, CO2 density, mass fraction and type of salt in water on the wettability of water on sandstone surfaces were studied. The results reveal that asphaltene adsorption significantly reduces the wettability of water on the original powerful water-wetting sandstone surface, making it easier to see how CO2 density affects the wettability of water on the asphaltene-adsorbed sandstone surface. The increased CO2 density will continue to lower the wettability of water on the asphaltene-adsorbed sandstone surface, even causing it to become wet with CO2. The adsorption thickness of asphaltene does not affect the wettability of water and CO2 on the asphaltene-adsorbed sandstone surface, and just a layer of 5A-thick asphaltene adsorption can significantly reduce the wettability of water on sandstone surfaces. Furthermore, a rise in salinity in water has a detrimental impact on the wettability of water on the asphaltene-adsorbed sandstone surface, with divalent salts having a stronger negative effect than monovalent salts.
Yuan ZW; ZW; Y. We’ve Got You Covered! The Effect of Public Health Insurance on Rural Entrepreneurship in China. Journal of Public Economics [Internet]. 2024;235(105150). 访问链接Abstract
Rural households contend with numerous uninsured risks that hinder their ability to leverage profitable yet risky opportunities. We study whether the provision of insurance coverage for medical expenditure, one of the most substantial and unpredictable risk, can stimulate entrepreneurship and other risky financial decisions among rural households. We leverage the progressive nationwide rollout of a universal public health insurance program in rural China. We find that the introduction of health insurance led to a substantial increase in rural households engagement in entrepreneurship. This increase is mainly driven by the risk sharing of health insurance, rather than a reduction in realized medical expenses. The entrepreneurship-promoting effect is also evident at an aggregate level, fostering the growth of smallholder businesses in rural counties. Our findings shed light on the understudied, favorable impact of health insurance on household’s risk taking in rural markets of developing countries.
Gu J. Wealth Management Report for Mid-High Net Worth Families. 1st ed. Singapore: Springer; 2024 pp. 358. 访问链接Abstract
This book analyzes the wealth management of mid-high net worth individuals and families. As China's economy develops and people's living standards improve, more and more families are becoming well-off and the middle-income group continues to expand. After creating wealth and becoming rich, better guarding, spreading and enjoying wealth is not only an urgent challenge faced by more and more micro-families, but also an inevitable need to enrich and energize people's livelihood and the connotation of a good life. Mid-high net worth people are an organic part of China's middle-income group, as well as the future coordinates of many families that have just crossed into the middle-income group. An accurate portrait of this group and an in-depth study of the needs, habits, ways and effects of their family wealth management and distribution are conducive to better responding to the demands of affluent families to "keep, pass on and enjoy wealth," as well as exploring the path of solidly promoting common prosperity at the micro-family level. From this perspective, Institute of Social Science Survey of Peking University has conducted a panoramic analysis on mid-high net worth people from panel survey with more 16,000 households in China after 10 years of tracking and investigation, from six aspects: behavioral patterns, financial asset allocation, non-financial asset allocation, commercial insurance allocation, children's commercial medical insurance allocation and pension insurance allocation, the importance of which is self-evident. As the first systematic work on asset allocation and insurance protection of Chinese middle and high net worth families, although part of the purpose is to explore the demand for insurance protection and develop the commercial insurance market, there is no doubt that this study is an important reference for the government to formulate social security policies and for financial institutions to optimize the supply of family wealth services.
Chen Q, Miao R, Geng G, Shrivastava M, Dao X, Xu B, Sun J, Zhang X, Liu M, Tang G, et al. Widespread 2013-2020 decreases and reduction challenges of organic aerosol in China. Nature Communications. 2024;15(1).
Chen L. Zero-carbon microgrid: Real-world cases, trends, challenges, and future research prospects. Renewable and Sustainable Energy Reviews [Internet]. 2024;203(114720). 访问链接
田亚,刘丽红,张远银,韩淼.; 2024. 一种三维矿物模型建立的方法. China patent CN ZL 2022 1 0660468.8.

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