科研成果

2023
Nie M, Li X, Ding Y, Pan Y, Cai Y, Liu Y, Liu J. Effect of Stoichiometry on Nanomagnetite Sulfidation. Environmental Science and Technology [Internet]. 2023. 访问链接
Yu L, Rahman MS, Li X. The effects of academic adaptation on depression of international students in China: A case study on South Asian students of TCSOL teacher program. International Journal of Intercultural Relations [Internet]. 2023;94:101804. 访问链接Abstract
The empirical research has not provided definitive answers to questions about how to assess and report academic adjustment and whether or not it influences psychological and sociocultural adjustments. This study is a longitudinal investigation into the relationship between academic and psychological adjustment of international students from South Asian countries in a cross-cultural learning context who partied in Teaching Chinese to Speakers of Other Languages (TCSOL) teacher education programs in Chinese universities. Using Zun's Self-Rating Depression Scale and the self-developed Scale of Academic Adaptation, the first test in December 2017 (T1) and the second in December 2019 (T2) were conducted to measure depression, learning motivation, learning behavior, learning efficacy, academic achievement, and satisfaction of South Asian students. The paper discovered significant positive correlations between five variables, indicating an interaction between the five aspects showing how involved and effective overseas students were in learning in China and a cross-lagged relationship between depression and academic adjustment. This longitudinal empirical study of international students in China aimed to help expand the application of cross-cultural adjustment theory in different educational backgrounds, and provide diverse samples and methods different from the traditional western perspective.
Effects of Antibiotic Resistance Genes and Antibiotics on the Transport and Deposition Behaviors of Bacteria in Porous Media
Wang S, He L, Zhang M, Su X, Liu F, Chen Q, Yang J, Tong M. Effects of Antibiotic Resistance Genes and Antibiotics on the Transport and Deposition Behaviors of Bacteria in Porous Media. Environmental Science & Technology [Internet]. 2023;57:10426-10437. 访问链接Abstract
Antibiotics present in the natural environment would induce the generation of antibiotic-resistant bacteria (ARB), causing great environmental risks. The effects of antibiotic resistance genes (ARGs) and antibiotics on bacterial transport/deposition in porous media yet are unclear. By using E. coli without ARGs as antibiotic-susceptible bacteria (ASB) and their corresponding isogenic mutants with ARGs in plasmids as ARB, the effects of ARGs and antibiotics on bacterial transport in porous media were examined under different conditions (1–4 m/d flow rates and 5–100 mM NaCl solutions). The transport behaviors of ARB were comparable with those of ASB under antibiotic-free conditions, indicating that ARGs present within cells had negligible influence on bacterial transport in antibiotic-free solutions. Interestingly, antibiotics (5–1000 μg/L gentamicin) present in solutions increased the transport of both ARB and ASB with more significant enhancement for ASB. This changed bacterial transport induced by antibiotics held true in solution with humic acid, in river water and groundwater samples. Antibiotics enhanced the transport of ARB and ASB in porous media via different mechanisms (ARB: competition of deposition sites; ASB: enhanced motility and chemotaxis effects). Clearly, since ASB are likely to escape sites containing antibiotics, these locations are more likely to accumulate ARB and their environmental risks would increase.
Jia, J. LMLSYJ. The Effects of Personalized Mathematic Instruction Supported by an Intelligent Tutoring System During the COVID-19 Epidemic and the Post-epidemic Era. Int. J. of Innovation and Learning [Internet]. 2023;33(3):330–343. 访问链接
Hu S, Yi K, Li C, Ma S, Liu J, Yang W. Efficient and selective recovery of iron phosphate from the leachate of incinerated sewage sludge ash by thermally induced precipitation. Water Research. 2023;238:120024.
Qian J, Mi X, Chen Z, Xu W, Liu W, Ma R, Zhang Y, Du Y, Ni B-J. Efficient emerging contaminants (EM) decomposition via peroxymonosulfate (PMS) activation by Co3O4/carbonized polyaniline (CPANI) composite: Characterization of tetracycline (TC) degradation property and application for the remediation of EM-polluted wate. Journal of Cleaner Production [Internet]. 2023;405:137023. 访问链接Abstract
Earth abundant transition metal-based materials are widely served as peroxymonosulfate (PMS) activators for degradation of emerging contaminants. However, the agglomeration of catalyst particles and metal ion leaching hinder their practical applications for pollutant decomposition. In this study, a Co3O4-carbonized polyaniline composite (Co3O4/CPANI) was implemented for PMS activation. The Co3O4/CPANI + PMS system exhibited high catalytic performance toward tetracycline (TC) degradation (degradation efficiency of 92.11%, initial TC level of 20 mg/L). Moreover, the practical application potential of Co3O4/CPANI + PMS system was well verified with three antibiotics (i.e., TC, doxycycline (DOX), and ciprofloxacin (CIP)) at highest actual aquatic environmental levels (1.0 and 0.5 mg/L). In the established Co3O4/CPANI + PMS system, both radicals (•O2−, •OH and SO4•-) and non-radical (1O2) contributed to TC degradation, and 1O2 was the dominant reactive oxygen species (ROS). CO groups, oxygen vacancies (OVS), redox pairs of Co2+/Co3+ species, and graphitic N all served as active sites in the PMS activation process, especially, OVS were crucial for the generation of 1O2. This study provides an efficient method for the synthesis of metal-based nanocatalysts with low nanoparticle aggregation and metal leaching which could act as a sustainable PMS activator for the remediation of TC-polluted water environment.
Efficient peroxymonosulfate activation by magnetic MoS2@Fe3O4 for rapid degradation of free DNA bases and antibiotic resistance genes
Nie C, Hou Y, Liu F, Dong Q, Li Z, Han P, Tong M. Efficient peroxymonosulfate activation by magnetic MoS2@Fe3O4 for rapid degradation of free DNA bases and antibiotic resistance genes. Water Research [Internet]. 2023;239:120026. 访问链接Abstract
Antibiotic resistance genes (ARGs) have become as emerging contaminant with great concerns worldwide due to their threats to human health. It is thus urgent to develop techniques to degrade ARGs in water. In this study, MoS2@Fe3O4 (MF) particles were fabricated and used to activate peroxymonosulfate (PMS) for the degradation of four types of free DNA bases (T, A, C, and G, major components of ARGs) and ARGs. We found that MF/PMS system could effectively degrade all four DNA bases (T within 10 min, A within 30 min, C within 5 min, and G within 5 min) in very short time. During the reaction process, MF could activate PMS to form the reactive radicals such as ·OH, SO4·−, O2·−, and 1O2, contributing to the degradation of DNA bases. Due to the low adsorption energy, high charge transfer, and great capability for PMS cleavage, MF exhibited excellent PMS adsorption and activation performances. MoS2 in MF could enhance the cycle of Fe(III)/Fe(II), improving the catalytic performance. Excellent catalytic performances of MF/PMS system were achieved in complex water matrix (including different solution pH, coexisting of anions and natural organic matter) as well as in real water samples (including tap water, river water, sea water, and sewage) especially under high salinity conditions due to the generation of Cl· radicals and HClO species. MF/PMS system could also efficiently degrade ARGs (chromosomal kanR and plasmid gmrA) and DNA extracted from antibiotic resistant bacteria (ARB) in super-short time. Moreover, complete disinfection of two types of model ARB (E. coli K-12 MG 1655 and E. coli S17–1) could also be achieved in MF/PMS system. The high degradation performances of MF/PMS system achieved in the reused experiments and the 14-day continuous flow reactor experiments indicated the stability of MF particles. Due to the magnetic property, it would be convenient to separate MF particles from water after use via using magnet, facilitating their reuse of MF and avoiding potential water contamination by catalysts. Overall, this study not only provided a deep insight on Fe/Mo-triggered PMS activation process, but also provided an effective and reliable approach for the treatment of DNA bases, ARGs, DNA, and ARB in water.
Liu Z, Sun X, Fu J, Liu W, Cai Z. Elevated nitrate promoted photodegradation of PAHs in aqueous phase: Implications for the increased nutrient discharge. Journal of Hazardous Materials [Internet]. 2023;443:130143. 访问链接Abstract
Polycyclic aromatic hydrocarbons (PAHs) are frequently released in aqueous phase by oil spill or from other sources, and photochemical oxidation is one of their major weathering processes. In this study, the photochemical behavior of phenanthrene (PHE, as a representative PAH) were studied and the effects of nitrogenous compounds were evaluated. The results showed that nitrate was an effective photosensitizer for improving the photodegradation of PHE, but the promoting effect was less effective in seawater due to the presence of halogen ions; the ammonia played a negligible role on PHE degradation. The photochemical ionization was a key process for PHE degradation, it can be retarded due to the quenching of triplet excited state by dissolved oxygen, and the inhibition was most prominent in fresh water. The presence of nitrate increased the steady state concentration of •OH from 2.08 × 10−15 M to 1.04 × 10−14 M in fresh water, and from 1.5 × 10−16 M to 2.08 × 10−15 M in seawater. The secondary-order reaction rate constant between PHE and •OH (k•OH,PHE) was determined as 5.70 × 109 M−1 s−1. Similar trend was observed for 1O2. The contribution of •OH to PHE removal was more prominent in fresh water than in seawater due to the quenching effects of halogen, and the increasing of nitrate enlarged the contribution of •OH. Two possible PHE degradation pathways were proposed based on GC-MS analysis and DFT calculation. The Quantitative Structure-activity Relationship (QSAR) evaluation showed that some degradation intermediates were more toxic than PHE, but the total environmental risk was still diminished due to the low percentage of toxic intermediates. This study provided theoretical and experimental insights into the influence of nitrogenous compounds on the photodegradation of PHAs in water environment.
Zu K, Lenoir J, Fang J, Tang Z, Shen Z, Ji C, Zheng C, Luo A, Song W, Zimmermann NE, et al. Elevational shift in seed plant distributions in China's mountains over the last 70 years. Global Ecology and BiogeographyGlobal Ecology and Biogeography. 2023;32:1098-1112.Abstract
Abstract Aim Significant changes in species elevational ranges in mountains have been repeatedly documented, yet the direction, magnitude and drivers of these shifts remain controversial. Presently, there is still lacking evidence about the general nature of species elevational range shifts in eastern Eurasia in response to anthropogenic climate change. By using historical specimen records and recent field observations for 735 seed plant species across 29 China's mountains, we assessed changes in species' elevational centroids and their drivers. Location China. Time Period 1950–2018. Major Taxa Studied Seed plant species. Methods The elevation records of all sampled occurrences in each mountain during the two time periods were estimated, and the null models were developed to test the sampling bias. Ecological niche models (ENMs) were used to evaluate the relative importance of climate factors in constraining each species distribution. Generalized linear models (GLMs) to test the relationships between the centroid elevational range shifts of species and different divers. Results We found that 54% of the species shifting upward and 46% downhill. However, species' elevational shifts significantly differed among species and mountains. Herbaceous and lowland species moved upward faster than woody and high-elevation species. Species in temperate mountains and in mountains with taller elevational gradients moved upward, while species in subtropical mountains and in mountains with shorter elevational gradients moved downward. Precipitation changes experienced by species, species' climatic adaptations, several species' functional traits and mountain size all contributed to explain the magnitude of species' centroid elevational range shifts. Main Conclusions Our results highlight complex biodiversity redistribution of seed plants across Chinese mountains, not necessarily conforming to the trend of species upward shifts in elevation. Changes in precipitation regimes may blur the simplistic assumption of isotherm tracking. This study fills an important geographic shortfall for our understanding of biodiversity redistribution under anthropogenic climate change.
Zhai T, Lu K, Wang H, Lou S, Chen X, Hu R, Zhang Y. Elucidate the formation mechanism of particulate nitrate based on direct radical observations in the Yangtze River Delta summer 2019. Atmospheric Chemistry and Physics. 2023;23(4):2379-2391.
Chen A, Chen C, Zhang S, Li L, Zhang Z, Chen J, Jing Q, Liu* J. Emission and environmental distribution of decabromodiphenyl ethane (DBDPE) in China from 2006 to 2026: Retrospection, forecasting, and implications for assessment and management. Environmental Pollution [Internet]. 2023;327. 访问链接Abstract
Decabromodiphenyl ethane (DBDPE) is the main alternative to decabromodiphenyl ether (deca-BDE) in commercial use. However, there is increasing evidence show that DBDPE is a potential persistent organic pollutant, and it has been found ubiquitously in environmental media across China in recent years. Monitoring studies have not been able to determine the overall levels and temporal trends of DBDPE contamination in China, and have been unable to explain how emission patterns can affect their environmental distribution. Therefore, this study estimated the temporal variance of DBDPE emissions and environmental concentrations in five regions of China from 2006 to 2026 using the PROduction-To-EXposure (PROTEX) mass balance model. The results showed that Guangdong Province was the greatest DBDPE pollution hotspot in China due to emissions from plastics manufacturing and e-waste disposal; there was also severe pollution in Shandong Province, where almost all the DBDPE in China is produced. The DBDPE concentrations in indoor and outdoor environments increased substantially in all regions during 2006–2021. Furthermore, in Guangdong Province and Shandong Province, the ratio of indoor/outdoor air concentrations was greater than or close to 1, indicative of significant outdoor emission sources of DBDPE. In contrast, the ratios for the Beijing–Tianjin–Hebei region, East China, and Southwest China were below 1 due to the indoor use of electronic equipment containing DBDPE. The temporal trends of these ratios indicated that DBDPE contamination has gradually spread from high-concentration environments with strong emission sources to low-concentration environments. The outcomes of this study have important implications for the risk assessment of DBDPE use in China and can be used to establish contamination-mitigation actions.
Zhang Z, Wu X, Chen J*. Emotion Classification with EEG Responses Evoked by Emotional Prosody of Speech, in Proceeding of Interspeech.; 2023:4254–4258. 访问链接
Gu J. Energy poverty and government subsidies in China. Energy Policy [Internet]. 2023;180:113652. 访问链接Abstract
Identifying the policy effect of government subsidies on families is beneficial to alleviate household energy poverty. This study first builds a Propensity Score Matching–Difference-in-Differences (PSM-DID) model and empirically tests the impact of government subsidies on household energy poverty in China based on China Family Panel Studies data from 2016 to 2018. The results show that household energy poverty is considered to have obvious regional differences. Moreover, the results indicate that government subsidies can reduce the probability of household energy poverty by 38.1%. However, the effect of government subsidies in alleviating household energy poverty will vary depending on the specific household situation. It is concluded that subsidies provided by the Chinese government to households can effectively alleviate household energy poverty. Finally, some policy recommendations are proposed based on the results of the empirical analysis.
Feng X, Liu B, Zhou Z, Li W, Zhao J, Li L, Zhao Y. Engineering hierarchical metal-organic@metal-DNA heterostructures for combinational tumor treatment. Nano ResearchNano Research. 2023.
Shuai Q, Pang Q, Tang F, Niu Z, Zhu B. An Enhanced Precise Carrier Phase Positioning Method for Vehicle Navigation. IEEE Access. 2023:1-1.
He Y, Du J, Liu S-ming, Tian C, Zhang M, Zhu Y-H, Zhong H, Wang X, Shi J-jie. Enhancement for phonon-mediated superconductivity up to 37 K in few-hydrogen metal-bonded layered magnesium hydride under atmospheric pressure. Phys. Chem. Chem. Phys. [Internet]. 2023;25:21037-21044. 访问链接Abstract
The discovery of superconductivity in layered MgB2 has renewed interest in the search for high-temperature conventional superconductors, leading to the synthesis of numerous hydrogen-dominated materials with high critical temperatures (Tc) under high pressures. However, achieving a high-Tc superconductor under ambient pressure remains a challenging goal. In this study, we propose a novel approach to realize a high-temperature superconductor under ambient pressure by introducing a hexagonal H monolayer into the hexagonal close-packed magnesium lattice, resulting in a new and stable few-hydrogen metal-bonded layered magnesium hydride (Mg4)2H1. This compound exhibits superior ductility compared to multi-hydrogen, cuprate, and iron-based superconductors due to its metallic bonding. Our unconventional strategy diverges from the conventional design principles used in hydrogen-dominated covalent high-temperature superconductors. Using anisotropic Migdal–Eliashberg equations, we demonstrate that the stable (Mg4)2H1 compound is a typical phonon-mediated superconductor, characterized by strong electron–phonon coupling and an excellent Tc of 37 K under ambient conditions, comparable to that of MgB2. Our findings not only present a new pathway for exploring high-temperature superconductors but also provide valuable insights for future experimental synthesis endeavors.
Ren M, Huang C, Wu Y, Deppermann A, Frank S, Havlík P, Zhu Y, Fanga C, Ma X, Liu Y, et al. Enhancing food system efficiency is the key to China’s carbon neutrality. Nature Food [Internet]. 2023. 访问链接
Zhu* J, Tao* Y, Zhang Z. eNODE: Energy-Efficient and Low-Latency Edge Inference and Training of Neural ODEs, in The 29th IEEE International Symposium on High-Performance Computer Architecture (HPCA). IEEE; 2023. 访问链接
Deng H, Sonnenthal E, Arora B, Breunig H, Brodie E, Kleber M, Spycher N, Nico P. The environmental controls on efficiency of enhanced rock weathering in soils. Scientific Reports. 2023;13:9765.
Wang Y, Feng Z, Yuan Q, Shang D, Fang Y, Guo S, Wu Z, Zhang C, Gao Y, Yao X, et al. Environmental factors driving the formation of water-soluble organic aerosols: A comparative study under contrasting atmospheric conditions. Science of the Total EnvironmentScience of the Total Environment. 2023;866.

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