科研成果

2020
Yuan L, Li G-X, Zhu M, Liu T, Wang K, Liu X, Kim K-T, Tatematsu K'ichi, Yuan J, Wu Y. Edge collapse and subsequent longitudinal accretion in filament S242. \aap. 2020;637:A67.
Guo C, Zheng X. The effect of the National Birth Defects Intervention Project on the prevention of congenital disabilities among children in China: a natural experiment. Br J NutrBr J Nutr. 2020;124:709-714.
Fan H, Hong B, Luo Y, Peng Q, Wang L, Jin X, Chen Y, Hu Y, Shi Y, Li T, et al. The effect of whey protein on viral infection and replication of SARS-CoV-2 and pangolin coronavirus in vitro. Signal Transduct Target Ther . [Internet]. 2020;5(1):275. 访问链接
Wei Y, Wan Y, Tanenhaus MK. Effects of Coordination on Perspective-taking: Evidence from Eye-tracking. The Proceedings of the 42nd Annual Meeting of the Cognitive Science Society [Internet]. 2020:2767-2773. Full textAbstract
We investigated whether fine-grained coordination in a screen-based puzzle task with a (virtual) partner would influence on-line perspective-taking. Participants played a screen-based puzzle game with a computer player. In the high-coordination condition, the player presented participants with puzzle pieces that could be placed near their partner’s last piece. In the low-coordination condition, pieces could only be placed further away from their partner’s last piece. Participant’s eye movements were then measured in a referential communication task, with the partner giving the instructions, and whether possible competitor referents were in shared or privileged ground. The results demonstrate clear effects of ground and coordination. Participants in both coordination groups were sensitive to the perspective of the interlocutor. In addition, participants in the high-level coordination condition were more sensitive to statistical regularities in the input and their comprehension was more time-locked to the utterance of the speaker.
Zhao Y, Chen W, Wen D. The effects of crude oil on microbial nitrogen cycling in coastal sediments. Environment International [Internet]. 2020;139:105724. 访问链接Abstract
Crude oil could affect certain critical microbial processes of nitrogen cycling (N-cycling) in coastal sediments, and disturb the nitrogen balance. However, the understanding of the effects of crude oil on coastal sediments N-cycling under human disturbance was still limited. In this study, two sediments (named SY and HB with heavy and slight pollution, respectively) were sampled from Hangzhou Bay, China. After an incubation with exposure to different amounts of crude oil in above two sediments for 30 days, we found that crude oil affected microbial N-cycling in multiple levels. Potential rate measurements revealed that crude oil stimulated potential denitrification and N2O emissions in both sediments, which showed a higher influence on denitrification rates in higher concentration of oil. Quantitative PCR revealed that crude oil greatly increased abundances of bacterial and archaeal 16S rRNA genes and N-cycling genes (nirS, nosZ, nrfA, part of AOA and AOB amoA). On the other hand, only a few genes (16S rRNA and nrfA) showed higher transcriptional activities in oil-addition treatments. Results about relative changes of N-cycling genes revealed that the variations of N-cycling genes in oil-addition treatments were related to sediment types but not crude oil concentrations, and the genes in HB were more sensitive to crude oil than SY. Network analysis of N-cycling genes found that crude oil decreased the complexity of N-cycling gene networks in SY, while increased complexity in HB, and led to more competition among N-cycling microbes. Our findings help to look into the effects of crude oil on key N-cycling processes, and improve the understanding of the interactions among N-cycling under crude oil contamination.
Shi WZ, Ma L, Wang J. EFFECTS OF INQUIRY-BASED TEACHING ON CHINESE UNIVERSITY STUDENTS’ EPISTEMOLOGIES ABOUT EXPERIMENTAL PHYSICS AND LEARNING PERFORMANCE. Journal of Baltic Science Education. 2020;19:289-297.
Xiong F, Zhao X, Wen D, Li Q. Effects of N-acyl-homoserine lactones-based quorum sensing on biofilm formation, sludge characteristics, and bacterial community during the start-up of bioaugmented reactors. Science of the total environment [Internet]. 2020;735:139449. 访问链接Abstract
Bioaugmentation is an effective technology for treating wastewater containing recalcitrant organic pollutants. However, it is restricted by several technical problems, including the difficult colonization and survival of the inoculated bacteria, and the time-consuming start-up process. Considering the important roles of quorum sensing (QS) in regulating microbial behaviors, this study investigated the effects of N-acyl-homoserine lactones (AHLs)-based manipulation on the start-up of biofilm reactors bioaugmented with a pyridine-degrading strain Paracoccus sp. BW001. The results showed that, in the presence of two specific exogenous AHLs (C6-HSL and 3OC6-HSL), the biofilm formation process on carriers was significantly accelerated, producing thick and structured biofilms. The protein and polysaccharide contents of the extracellular polymeric substances (EPS) and soluble microbial products (SMP) in sludge were also elevated, possibly due to the increased abundance of several EPS-producing bacterial genera. Specifically, the stability and complexity of protein structures were improved. Besides the reactor running time, the AHL-manipulation was proved to be the main factor that drove the shift of bacterial community structures in the reactors. The addition of exogenous AHLs significantly increased the succession rate of bacterial communities and decreased the bacterial alpha diversity. Most importantly, the final proportions of the inoculated strain BW001 were elevated by nearly 100% in both sludge and biofilm communities via the AHL-manipulation. These findings strongly elucidated that AHL-based QS was deeply involved in biofilm formation, sludge characteristics, and microbial community construction in bioaugmented reactors, providing a promising start-up strategy for bioaugmentation technology.
Huang R-J, Duan J, Li Y, Chen Q, Chen Y, Tang M, Yang L, Ni H, Lin C, Xu W, et al. Effects of NH3 and alkaline metals on the formation of particulate sulfate and nitrate in wintertime Beijing. Science of the Total Environment. 2020;717.
He L, Cui X, Xia Q, Li F, Mo J, Gong J, Zhang Y, Zhang J. Effects of personal air pollutant exposure on oxidative stress: Potential confounding by natural variation in melatonin levels. International Journal of Hygiene and Environmental Health [Internet]. 2020;223(1):116-123. 访问链接
He L, Cui X, Xia Q, Li F, Mo J, Gong J, Zhang Y, Zhang J. Effects of personal air pollutant exposure on oxidative stress: Potential confounding by natural variation in melatonin levels. International Journal of Hygiene and Environmental HealthInternational Journal of Hygiene and Environmental Health. 2020;223:116-123.
Du H, Li J, Wang Z, Dao X, Guo S, Wang L, Ma S, Wu J, Yang W, Chen X, et al. Effects of Regional Transport on Haze in the North China Plain: Transport of Precursors or Secondary Inorganic Aerosols. Geophysical Research LettersGeophysical Research LettersGeophysical Research Letters. 2020;47.Abstract
Most previous studies treat regional transport of aerosols as a whole, without distinguishing the transport of secondary aerosols and that of their precursors. A new method of quantifying the transport forms of secondary inorganic aerosols (SIA) using the Nested Air Quality Prediction Modeling System was proposed. The contribution of nonlocal emissions to SIA in the receptor region was divided into three parts: (1) SIA chemically formed by nonlocal emissions in their source regions; (2) SIA chemically formed by nonlocal emissions during transport; and (3) SIA chemically formed by nonlocal emissions in the receptor region, representing transport of precursors. In the North China Plain, the transport of precursors and SIA produced during transport are the two main transport forms. Furthermore, the contribution from transport of precursors increased under polluted conditions in most cities. The results indicate that joint control of precursors is paramount for mitigating air pollution. ©2020. The Authors.
Chen Z, Chen W, Jia J, An H. The effects of using mobile devices on language learning: a meta-analysis. Educational Technology Research and Development [Internet]. 2020;68:1769-1789. 访问链接
Zheng M, Ji H, Duan J, Dang C, Chen X, Liu W. Efficient adsorption of europium (III) and uranium (VI) by titanate nanorings: Insights into radioactive metal species. Environmental Science and Ecotechnology [Internet]. 2020;2:100031. 访问链接Abstract
Radioactive wastewater containing high concentration of radionuclides poses severe threats to ecosystem and human health, so efficient removal of these toxic heavy metals is urgently needed. Titanate nanomaterials have been demonstrated good adsorbents for heavy metals due to ion exchange property. In this study, titanate nanorings (TNRs) were synthesized using the facile hydrothermal-cooling method. The TNRs were composed of sodium trititanate, with a chemical formula of Na0.66H1.34Ti3O7•0.27H2O and a Na content of 2.38 mmol/g. The TNRs demonstrated sufficient adsorption performance to radionuclides europium (Eu) and uranium (U) ions. Specifically, even at a high initial concentration of 50 mg/L, 86.5% and 92.6% of the two metal ions can be rapidly adsorbed by the TNRs within 5 min, and equilibrium was reached within 60 min at pH 5. The maximum adsorption capacity (Qmax) obtained by the Langmuir isotherm model was 115.3 mg/g for Eu(III) and 282.5 mg/g for uranium U(VI) at pH 5, respectively. The adsorption capacities of the two metals under various water chemical conditions were highly related to their species. Ion exchange between metal cations and Na+ in the TNR interlayers was the dominant adsorption mechanism, and adsorption of U(VI) was more complicated because of the co-existence of various uranyl (UO22+) and uranyl-hydroxyl species. The spent TNRs were effectively regenerated through an acid-base or ethylenediamine tetraacetic acid (EDTA) treatment and reused. Considering the large adsorption capacity and quick kinetic, TNRs are promising materials to remove radionuclides in environmental purification applications, especially emergent treatment of leaked radionuclides.
Wen J, Ma Y, Wang Z. An Efficient FPGA Accelerator Optimized for High Throughput Sparse CNN Inference. IEEE Asia Pacific Conference on Circuits and Systems (APCCAS) [Internet]. 2020. Links
Zhang H, Wu W, Ma Y, Wang Z. Efficient Hardware Post Processing of Anchor-Based Object Detection on FPGA. IEEE Computer Society Annual Symposium on VLSI (ISVLSI) [Internet]. 2020. Links
Wu X, Ma Y, Wang Z. Efficient Inference of Large-Scale and Lightweight Convolutional Neural Networks on FPGA. IEEE International System-on-Chip Conference (SOCC) [Internet]. 2020. Links
Zhang Z, Wu C, Wang D, Zhang Q, Zhang Y, Guo X, Lao Y, Qu B, Xiao L, Chen Z. Efficient Nonlead Double Perovskite Solar Cell with Multiple Hole Transport Layers. ACS APPLIED ENERGY MATERIALS. 2020;3:9594-9599.
Zhang Z, Wu C, Wang D, Zhang Q, Zhang Y, Guo X, Lao Y, Qu B, Xiao L, Chen Z. Efficient Nonlead Double Perovskite Solar Cell with Multiple Hole Transport Layers. ACS APPLIED ENERGY MATERIALS. 2020;3:9594-9599.Abstract
Cs(2)AgBiBr(6 )having a double perovskite structure is expected to be used in nonlead and stable optoelectronic devices and has received wide attention recently. At this stage, structures of optoelectronic devices using double perovskite and hybrid perovskite are the same. And the energy band structures of double perovskite and hybrid perovskite are different, which will cause energy-level mismatch in the device with double perovskite, which in turn will seriously restrict further improvement of the device performance. A strategy to solve this problem by constructing energy-level gradients with poly(3-hexylthiophene) (P3HT)/MoO3/poly[bis(4-phenyl)(2,4,6-trimethylphenyo-amine] (PTAA) was reported for the first time. The construction of energy-level gradient is mainly achieved by P3HT and PTAA. MoO3 plays a role in protecting the substrate (P3HT) and does not hinder hole transport because it is itself a p-type semiconductor. The champion power conversion efficiency of devices with P3HT/MoO3/PTAA is improved by more than a quarter compared to the standard devices. Moreover, in the champion device, the power conversion efficiency achieved 1.94% with a short-circuit current of 2.80 mA/cm(2).
Zhang H, Jia J. Elastic-net Regularized High-dimensional Negative Binomial Regression: Consistency and Weak Signals Detection. Statistica Sinica. [Internet]. 2020. 访问链接
Li# M, Zuo K#, Liang S, Xiao K, Liang P, Wang X, Huang X. Electrically Tuning Ultrafiltration Behavior for Efficient Water Purification. Environmental Science & Technology. 2020.Abstract
Conventional ultrafiltration (UF) technology suffers from membrane fouling and limited separation performance. This work demonstrates a novel electrical tuning strategy to improve the separation efficiency of the UF process. An electrically enhanced UF (EUF) system with two sets of oppositely placed membrane–electrode modules was set up. A series of multicycle treatment experiments were conducted to reveal the performance and tuning mechanism of the EUF system. The applied electrical tuning operation brought about an up to 68% reduction of average transmembrane pressure increasing rate (Rp), indicating a strong capability in inhibiting membrane fouling. This fouling reduction can be mainly ascribed to the applied electrophoretic force, changes in solution chemistry, and generation of peroxide, which repulses foulants away from the membrane, hampers foulant adsorption owing to enhanced electrostatic repulsion, and degrades foulants, respectively. The 1.2 V voltage was identified as an effective voltage for stably inhibiting membrane fouling. Besides, the electrical tuning operation led to an up to ∼32% increase in foulant retention rate (φ) owing to both non-Faradaic effects (including electrosorption and electrophoretic repulsion) and Faradaic oxidative degradation. Moreover, the electrical tuning operation allowed a remarkable desalination capability with a significantly higher desalination rate and an up to ∼43% greater salt adsorption capacity as compared with a conventional capacitive deionization process. Additionally, the EUF system achieved a good performance in removing heavy metals (Ag, Cu, Pb, Se, and Sb). The overall enhanced EUF performance suggests promising prospects for practical applications.

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