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1. PFOA and PFOS induces mineralization of soil organic carbon by accelerating the consumption of dissolved organic carbon

Author

Yulong Li, Bowei Lv, Zhendong Chen, Jianming Xue, Li Wu, Xiaoman He, and Lie Yang

Subjects
PFOA, PFOS, Mineralization, Carbon emission, Selective priming, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Environmental sciences, GE1-350
Abstract

Abstract The wide spread of Perfluoroalkyl substances (e.g., PFOA and PFOS) in soil can alter native soil geochemical properties and microbial communities through various approaches. Nonetheless, it is unclear that how PFOA and PFOS in soil affect the mineralization of soil organic carbon (SOC). A laboratory-scale culture experiment (180 d) was performed to explore the contribution of PFOA and PFOS to SOC dynamics and soil geochemical processes. Results showed that positive priming effect (PE) occurred in the short term (i.e., 30 days after PFOA and PFOS addition) and subsequently shifted to a slightly negative PE (i.e., 90 days) and remained in a significant negative PE thereafter (i.e., > 180 days). The PEs caused by PFOA and PFOS both accelerated the consumption of dissolved organic carbon (DOC), resulting in a significant increase in SOC mineralization (10.45%–127.36%) under the short-term incubation (30 d). As for long-term exposure (> 90 d), the organic carbon mineralization rate was significantly reduced (58.30%–65.24%) due to the excessive DOC consumption in the initial stage. High throughput analysis indicated that both PFOA and PFOS changed soil bacterial and fungal community structures, altered the relevant metabolic pathways and resulted in the enrichment of specific taxa. Graphical Abstract

Published
2024
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3. Effects of Ion Irradiation and Temperature on Mechanical Properties of GaN Single Crystals under Nanoindentation

Author

Zhaohui Dong, Xiuyu Zhang, Jiling Li, Shengyuan Peng, Qiang Wan, Jianming Xue, and Xin Yi

Subjects
GaN single crystals, ion irradiation, high-temperature nanoindentation, hardness, mechanical properties, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Understanding the impact of irradiation and temperature on the mechanical properties of GaN single crystals holds significant relevance for rational designs and applications of GaN-based transistors, lasers, and sensors. This study systematically investigates the influence of C-ion irradiation and temperature on pop-in events, hardness, Young’s modulus, and fracture behavior of GaN single crystals through nanoindentation experiments. In comparison with unirradiated GaN samples, the pop-in phenomenon for ion-irradiated GaN samples is associated with a larger critical indentation load, which decreases with increasing temperature. Both unirradiated and ion-irradiated GaN samples exhibit a decline in hardness with increasing indentation depth, while Young’s moduli do not exhibit a clear size effect. In addition, intrinsic hardness displays an inverse relationship with temperature, and ion-irradiated GaN single crystals exhibit greater intrinsic hardness than their unirradiated counterparts. Our analysis further underscores the significance of Peierls stress during indentation, with this stress decreasing as temperature rises. Examinations of optical micrographs of indentation-induced fractures demonstrate an irradiation embrittlement effect. This work provides valuable insights into the mechanical behavior of GaN single crystals under varying irradiation and temperature conditions.

Published
2023
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4. Multifunctional graphene heterogeneous nanochannel with voltage-tunable ion selectivity

Author

Shihao Su, Yifan Zhang, Shengyuan Peng, Linxin Guo, Yong Liu, Engang Fu, Huijun Yao, Jinlong Du, Guanghua Du, and Jianming Xue

Subjects
Science
Abstract

Nanoporous 2D materials have shown promising potential for ion sieving applications due to their physical and chemical properties. Here authors develop a heterogeneous graphene-based polyethylene terephthalate nanochannel with ion sieving ability that is controlled by adjusting the applied voltage.

Published
2022
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5. Bioinformatics analysis of genes related to ferroptosis in hepatic ischemia-reperfusion injury

Author

Shuo Sun, Jianming Xue, Yunfei Guo, and Jianling Li

Subjects
hepatic ischemia-reperfusion injury, ferroptosis, bioinformatics analysis, prediction of drug-gene interactions, MiRNA prediction, Genetics, QH426-470
Abstract

Background: Primary liver cancer is the sixth most commonly diagnosed cancer and the third leading cause of cancer death worldwide in 2020, and it ranks fifth in global incidence. Liver resection or liver transplantation are the two most prominent surgical procedures for treating primary liver cancer. Both inevitably result in HIRI, causing severe complications for patients and affecting their prognosis and quality of survival. Ferroptosis, a newly discovered mode of cell death, is closely related to HIRI. We used bioinformatics analysis to explore the relationship between the two further.Methods: The GEO database dataset GSE112713 and the FerrDB database data were selected to use bioinformatic analysis methods (difference analysis, FRGs identification, GO analysis, KEGG analysis, PPI network construction and analysis, Hub gene screening with GO analysis and KEGG analysis, intergenic interaction prediction, drug-gene interaction prediction, miRNA prediction) for both for correlation analysis. The GEO database dataset GSE15480 was selected for preliminary validation of the screened Hub genes.Results: We analysed the dataset GSE112713 for differential gene expression before and after hepatic ischemia-reperfusion and identified by FRGs, yielding 11 genes. These 11 genes were subjected to GO, and KEGG analyses, and PPI networks were constructed and analysed. We also screened these 11 genes again to obtain 5 Hub genes and performed GO analysis, KEGG analysis, intergenic interaction prediction, drug-gene interaction prediction, and miRNA prediction on these 5 Hub genes. Finally, we obtained preliminary validation of all these 5 Hub genes by dataset GSE15480.Conclusion: There is a close relationship between HIRI and ferroptosis, and inhibition of ferroptosis can potentially be a new approach to mitigate HIRI treatment in the future.

Published
2022
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6. Manure properties, soil conditions and managerial factors regulate greenhouse vegetable yield with organic fertilizer application across China

Author

Yangzhou Xiang, Yuan Li, Xuqiang Luo, Ying Liu, Xuejiao Yue, Bin Yao, Jianming Xue, Leiyi Zhang, Jing Fan, Xiuyue Xu, and Yonghua Li

Subjects
meta-analysis, organic fertilizer, plastic shed production systems, vegetable yield, soil properties, Plant culture, SB1-1110
Abstract

To better understand the responses of vegetable yields in a greenhouse system to organic fertilizer through a quantitative evaluation based on peer-reviewed journal articles and in consideration of environmental managerial factors. We conducted a meta-analysis of 453 paired observations from 68 peer-reviewed journal articles to assess the response of vegetable yields in greenhouse vegetable systems in China to organic fertilization. Compared with the control (no organic fertilizer), organic fertilization significantly increased the yields of vegetables by 44.11% on average. The response of vegetable yields to organic fertilizer tended to increase with the increasing experimental duration. Organic fertilizer application had the greatest potential for leafy vegetables (+76.44%), in loamy soils (+53.94%), at moderate organic fertilizer carbon input levels (+54.13%), and in soils with moderate initial soil total nitrogen levels (+50.89%). Aggregated boosted tree analysis indicated that organic fertilizer carbon inputs, vegetable type and experimental duration were the predominant factors that manipulated the response of vegetable yields to organic fertilizer application. The rational application of farmyard manure would be a promising strategy for increasing vegetable yields in greenhouse vegetable systems in China. Factoring in vegetable type, carbon and nitrogen inputs of organic fertilizer, and soil texture would benefit vegetable yields with the application of organic fertilizer.

Published
2022
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7. Capture capability of different intrinsic structures for helium bubbles in micro-nano composite 304L steels

Author

Zhiying Gao, Jia Huang, Haocheng Liu, Wei Ge, Yue Su, Fengping Luo, Guoying Liu, Tongde Shen, Jianming Xue, Yugang Wang, and Chenxu Wang

Subjects
Capture capability, Grain boundary, Nano-precipitate, Dislocation, Helium bubble, Nuclear engineering. Atomic power, TK9001-9401
Abstract

The formation and migration of helium bubbles lead to performance degradation of structural materials in nuclear reactors. Intrinsic structures in nuclear materials can significantly influence the behavior and distribution of these helium bubbles under irradiation. Micro-nano composite 304L stainless steel (MN304-La) possesses three main kinds of intrinsic structures: grain boundaries (GBs), dislocations, and La-rich nano-precipitates (NPs). In this study, the helium bubbles on different intrinsic structures in MN304-La after He+ ions implantation were characterized and analyzed. We compared the capabilities of different intrinsic structures in capturing helium bubbles and confirmed that NPs exhibit the strongest strength in capturing helium bubbles among the three kinds of intrinsic structures. We found that the competition of intrinsic structures for capturing helium bubbles depends on both the capture strength of the intrinsic structures and the capture distance to the helium bubbles.

Published
2022
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8. The impacts of oxytetracycline on humification during manure composting can be alleviated by adjusting initial moisture contents as illustrated by NMR

Author

Yao FENG, Gui-zhen WANG, Yuan-wang LIU, Deng-miao CHENG, Shuang-hu FAN, Quan-sheng ZHAO, Jianming XUE, Shu-qing ZHANG, and Zhao-jun LI

Subjects
oxytetracycline degradation, humification, moisture content, composting, physico-chemical property, Agriculture (General), S1-972
Abstract

Oxytetracycline (OTC) residues have been found in soil and water, and they may pose potential risks to agricultural ecological environments. One of the most impactful ways for OTC to enter the soil and water environments is through excrement used as organic fertilizer. Therefore, it is important to remove OTC during manure composting and to understand the transformation of the organic materials during composting in the presence of OTC. In the present paper, chicken manure and wheat sawdust spiked with OTC were composted under different initial moisture contents (MC) to evaluate the degradation of OTC and changes of organic matter during the composting process. The MC has a significant effect on OTC degradation during composting. A higher MC of 65% was more conducive to OTC degradation (77.4%) and compost maturity compared to the lower MC. However, the higher MC of 65% could increase the ammonia volatilization by promoting nitrification compared to the lower MC. An increase in the initial MC could improve the composting temperature. NMR results illustrated that the presence of OTC could affect the internal transformation of aliphatics, and OTC inhibited compost humification. Thus, an initial MC of 55–65% can alleviate the impacts of OTC on humification during manure composting.

Published
2021
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9. Helium-Hydrogen Synergistic Effects in Structural Materials Under Fusion Neutron Irradiation

Author

Jia Huang, Haocheng Liu, Zhiying Gao, Yue Su, Qingyuan Liu, Wei Ge, Fengping Luo, Songqin Xia, Liuxuan Cao, Jianming Xue, Yugang Wang, and Chenxu Wang

Subjects
advanced nuclear energy system, fusion neutron irradiation, transmutation reaction, helium-hydrogen synergistic effects, cavity evolution, swelling, Technology
Abstract

In fusion reactors, 14 MeV high-energy neutron irradiation of structural materials will produce large amounts of helium and hydrogen simultaneously with displacement defects. These He and H atoms will interact with displacement defects, leading to He-H synergistic effects and aggravating the irradiation damage. Currently, there exist no available high-flux fusion neutron sources. Additionally, the neutron energy spectrum and the generation of He and H in fission reactors or spallation neutron sources greatly differ from those in fusion reactors. Multi-ion beam irradiation is a promising method to emulate the synergistic effects induced by fusion neutron irradiation. This review summarizes the experimental studies on the He-H synergistic effects, and analyzes the effects of He and H on cavity evolution and swelling under multi-ion beam irradiation. The roles of various experimental factors are also discussed. More systematically controlled experiments are suggested to develop a comprehensive understanding of He-H synergistic effects in structural materials.

Published
2022
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10. Genetic Variation in Drought-Tolerance Traits and Their Relationships to Growth in Pinus radiata D. Don Under Water Stress

Author

Ahmed Ismael, Jianming Xue, Dean Francis Meason, Jaroslav Klápště, Marta Gallart, Yongjun Li, Pierre Bellè, Mireia Gomez-Gallego, Ki-Taurangi Bradford, Emily Telfer, and Heidi Dungey

Subjects
drought tolerance, water stress, heritability, genetic correlation, genomic selection, carbon isotope composition, Plant culture, SB1-1110
Abstract

The selection of drought-tolerant genotypes is globally recognized as an effective strategy to maintain the growth and survival of commercial tree species exposed to future drought periods. New genomic selection tools that reduce the time of progeny trials are required to substitute traditional tree breeding programs. We investigated the genetic variation of water stress tolerance in New Zealand-grown Pinus radiata D. Don using 622 commercially-used genotypes from 63 families. We used quantitative pedigree-based (Genomic Best Linear Unbiased Prediction or ABLUP) and genomic-based (Genomic Best Linear Unbiased Prediction or GBLUP) approaches to examine the heritability estimates associated with water stress tolerance in P. radiata. Tree seedling growth traits, foliar carbon isotope composition (δ13C), and dark-adapted chlorophyll fluorescence (Y) were monitored before, during and after 10 months of water stress. Height growth showed a constant and moderate heritability level, while the heritability estimate for diameter growth and δ13C decreased with water stress. In contrast, chlorophyll fluorescence exhibited low heritability after 5 and 10 months of water stress. The GBLUP approach provided less breeding value accuracy than ABLUP, however, the relative selection efficiency of GBLUP was greater compared with ABLUP selection techniques. Although there was no significant relationship directly between δ13C and Y, the genetic correlations were significant and stronger for GBLUP. The positive genetic correlations between δ13C and tree biomass traits under water stress indicated that intraspecific variation in δ13C was likely driven by differences in the genotype’s photosynthetic capacity. The results show that foliar δ13C can predict P. radiata genotype tolerance to water stress using ABLUP and GBLUP approaches and that such approaches can provide a faster screening and selection of drought-tolerant genotypes for forestry breeding programs.

Published
2022
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11. Disorder in Mn+1AXn phases at the atomic scale

Author

Chenxu Wang, Tengfei Yang, Cameron L. Tracy, Chenyang Lu, Hui Zhang, Yong-Jie Hu, Lumin Wang, Liang Qi, Lin Gu, Qing Huang, Jie Zhang, Jingyang Wang, Jianming Xue, Rodney C. Ewing, and Yugang Wang

Subjects
Science
Abstract

Highly ordered and compositionally complex ceramics are prone to disordering under irradiation, but exactly how is unclear. Here, the authors use high resolution microscopy to directly image the order-to-disorder phase transformations in Ti3AlC2 into otherwise unattainable solid solutions.

Published
2019
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12. Trends in Research on Forest Ecosystem Services in the Most Recent 20 Years: A Bibliometric Analysis

Author

Shiyou Chen, Jie Chen, Chunqian Jiang, Richard T. Yao, Jianming Xue, Yanfeng Bai, Hui Wang, Chunwu Jiang, Silong Wang, Yehui Zhong, En Liu, Lina Guo, Shoufang Lv, and Shuren Wang

Subjects
ecosystem services, forest resources, bibliometric analysis, human disturbance, Plant ecology, QK900-989
Abstract

Forest resources and the flow of ecosystem services they provide play a key role in supporting national and regional economies, improving people’s lives, protecting biodiversity, and mitigating the impacts of climate change. Based on the ISI (Institute of Scientific Information) Web of Science (WoS) database, we used a bibliometric approach to analyze the research status, evolution process, and hotspots of forest ecosystem services (FES) from a compilation of 8797 documents published between 1997 and 2019. The results indicated that: (1) research on forest ecosystem services has developed rapidly over the past 23 years. Institutions in the United States and other developed countries have significantly contributed to undertake research on the topic of ecosystem services. (2) The 11 hotpot key focus areas of completed research were payments for ecosystem services, biodiversity conservation, forest governance, ecosystem approaches, climate change, nitrogen, ecosystem management, pollination, cities, ecological restoration, and policy. (3) The trade-off relationships among ecosystem services, ecosystem resilience and stability have become the research frontier in this field. (4) Future research on FES will likely focus on the formation and evolution mechanism of ecosystem services; the interaction, feedback and intrinsic connections of ecosystem services at different scales; analysis of the trade-offs and synergies; unified evaluation standards, evaluation systems, model construction and scenario analyses; in-depth studies of the internal correlation mechanism between forest ecosystem services and human wellbeing; and realization of cross-disciplinary and multi-method integration in sustainable forest management and decision-making.

Published
2022
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13. Effect of Damage Rate on the Cavity Swelling of Pure Nickel Irradiated with Triple Ion Beams

Author

Jia Huang, Zhiying Gao, Haocheng Liu, Pengfei Ma, Yan Liu, Wei Ge, Fengping Luo, Liuxuan Cao, Jinchi Huang, Jianming Xue, Yugang Wang, and Chenxu Wang

Subjects
damage rate, triple ion beam irradiation, He-H synergistic effect, cavity, swelling, Mining engineering. Metallurgy, TN1-997
Abstract

He-H synergistic effects influence the performance of structural materials in fusion reactors. Due to the lack of high-intensity fusion neutron sources, multiple ion beam irradiation has been widely used as an emulation method to study its synergistic effects. However, the damage rate under multiple ion beam irradiation is three to four orders of magnitude higher than that under fusion neutron irradiation, and its effect on the cavity swelling is still unclear. In this study, pure nickel was irradiated with single and triple ion beams to ~1 displacements per atom (dpa) at 450 °C. The damage rate ranged from 1.4 × 10−4 to 1.4 × 10−3 dpa/s, with the identical gas-dose ratios of ~400 H appm/dpa and 100 He appm/dpa. Large and isolated cavities formed under single ion irradiation, while triple ion irradiation induced smaller and denser cavities and higher swelling. As the damage rate increased, the cavity size, density, and swelling decreased, due to the constraint of cavity nucleation and growth processes. The effect of damage rate on cavity evolution under triple ion irradiation strongly depends on two competing factors: the enhancement of aggregation and binding of H/He/vacancies, and the enhancement of vacancies–interstitials recombination with increasing damage rate.

Published
2022
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14. Mechanical Properties of GaN Single Crystals upon C Ion Irradiation: Nanoindentation Analysis

Author

Zhaohui Dong, Xiuyu Zhang, Shengyuan Peng, Fan Jin, Qiang Wan, Jianming Xue, and Xin Yi

Subjects
GaN single crystals, mechanical properties, ion irradiation, nanoindentation, pop-in, activation volume, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

Mechanical properties of gallium nitride (GaN) single crystals upon carbon ion irradiation are examined using nanoindentation analysis at room temperature. Pop-in events in the load-depth curves are observed for unirradiated and irradiated GaN samples. A statistical linear relationship between the critical indentation load for the occurrence of the pop-in event and the associated displacement jump is exhibited. Both the slope of linear regression and the measured hardness increase monotonically to the ion fluence, which can be described by logistic equations. Moreover, a linear relationship between the regression slope as a micromechanical characterization and the hardness as a macroscopic mechanical property is constructed. It is also found that the maximum resolved shear stress of the irradiated samples is larger than that of the unirradiated samples, as the dislocation loops are pinned by the irradiation-induced defects. Our results indicate that the nanoindentation pop-in phenomenon combined with a statistical analysis can serve as a characterization method for the mechanical properties of ion-irradiated materials.

Published
2022
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15. Effects of Turning Frequency on Ammonia Emission during the Composting of Chicken Manure and Soybean Straw

Author

Qianqian Ma, Yanli Li, Jianming Xue, Dengmiao Cheng, and Zhaojun Li

Subjects
composting, turning frequency, ammonia oxidizing bacterial, ammonia oxidizing archaeal, N fractions, ammonia emission, Organic chemistry, QD241-441
Abstract

Here, we investigated the impact of different turning frequency (TF) on dynamic changes of N fractions, NH3 emission and bacterial/archaeal community during chicken manure composting. Compared to higher TF (i.e., turning every 1 or 3 days in CMS1 or CMS3 treatments, respectively), lower TF (i.e., turning every 5 or 7 days in CMS5 or CMS7 treatments, respectively) decreased NH3 emission by 11.42–18.95%. Compared with CMS1, CMS3 and CMS7 treatments, the total nitrogen loss of CMS5 decreased by 38.03%, 17.06% and 24.76%, respectively. Ammonia oxidizing bacterial/archaeal (AOB/AOA) communities analysis revealed that the relative abundance of Nitrosospira and Nitrososphaera was higher in lower TF treatment during the thermophilic and cooling stages, which could contribute to the reduction of NH3 emission. Thus, different TF had a great influence on NH3 emission and microbial community during composting. It is practically feasible to increase the abundance of AOB/AOA through adjusting TF and reduce NH3 emission the loss of nitrogen during chicken manure composting.

Published
2022
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16. A Model for Dose Dependence of the Void Swelling in Electron-Irradiated Alloys

Author

Wei Ge, Shijun Zhao, Chenxu Wang, Haocheng Liu, Yue Su, Jia Huang, Zhiying Gao, Jianming Xue, and Yugang Wang

Subjects
structural alloys, electron irradiation, radiation-induced void swelling, dose dependence, Mining engineering. Metallurgy, TN1-997
Abstract

Understanding the void swelling dependence on irradiation dose for structural materials is critical for the design and operation of advanced nuclear reactors. Due to their easy accessibility in high-voltage transmission electron microscopes, electron beams have been frequently employed to investigate the void swelling mechanisms. Here, we build a general model to describe the radiation-induced swelling produced by energetic electrons. Based on this model, we develop a quantitative relation between void swelling and irradiation dose, which is in good agreement with experimental data. By extrapolating to high-dose swelling in electron-irradiated alloys, our model validation is consistent with available experiments. Furthermore, the model is well supported by our phase-field simulations.

Published
2022
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17. Weighted arithmetic–geometric operator mean inequalities

Author

Jianming Xue

Subjects
Positive linear map, Operator inequality, Weighted arithmetic operator mean, Weighted geometric operator mean, Mathematics, QA1-939
Abstract

Abstract In this paper, we refine and generalize some weighted arithmetic–geometric operator mean inequalities due to Lin (Stud. Math. 215:187–194, 2013) and Zhang (Banach J. Math. Anal. 9:166–172, 2015) as follows: Let A and B be positive operators. If 0

Published
2018
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18. Some refinements of operator reverse AM-GM mean inequalities

Author

Jianming Xue

Subjects
operator inequalities, reverse AM-GM means inequalities, positive linear maps, Mathematics, QA1-939
Abstract

Abstract In this paper, we prove the operator inequalities as follows: Let A , B $A,B$ be positive operators on a Hilbert space with 0 < m ≤ A , B ≤ M $0 < m \le A,B \le M$ and M m ≤ 2.314 $\sqrt{\frac{M}{m}} \le2.314$ . Then for every positive unital linear map Φ, Φ 2 ( A + B 2 ) ≤ ( M + m ) 2 4 M m Φ 2 ( A ♯ B ) $$\Phi^{2} \biggl( {\frac{{A + B}}{2}} \biggr) \le\frac{{ ( {M + m} )^{2} }}{{4Mm}} \Phi^{2} ( {A\mathrel{\sharp} B} ) $$ and Φ 2 ( A + B 2 ) ≤ ( M + m ) 2 4 M m ( Φ ( A ) ♯ Φ ( B ) ) 2 . $$\Phi^{2} \biggl( {\frac{{A + B}}{2}} \biggr) \le\frac{{ ( {M + m} )^{2} }}{{4Mm}} \bigl( {\Phi ( A )\mathrel{\sharp} \Phi ( B )} \bigr)^{2}. $$ Moreover, we prove Lin’s conjecture when M m ≤ 2.314 $\sqrt{\frac{M}{m}} \le 2.314$ .

Published
2017
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19. A semi-classical model for the charge exchange and energy loss of slow highly charged ions in ultrathin materials

Author

Xun Guo, Yanjun Fu, Xitong Zhang, Xinwei Wang, Yan Chen, and Jianming Xue

Subjects
Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

We present a simple and reliable method, based on the over-barrier model and Lindhard’s formula, to calculate the energy loss, charge transfer, and normalized intensity of highly charged ions penetrating through 2D ultrathin materials, including graphene and carbon nanomembranes. According to our results, the interaction between the ions and the 2D material can be simplified as an equivalent two-body collision, and we find that full consideration of the charge exchange effect is key to understanding the mechanism of ion energy deposition in an ultrathin target. Not only can this semiclassical model be used to evaluate the ion irradiation effect to a very good level of accuracy, but it also provides important guidance for tailoring the properties of 2D materials using ion beams.

Published
2019
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20. Selective-area ALD for positively and negatively charged layers into the ion-beam track-etched conical pores in polyethylene terephthalate

Author

Hua Li, Delin Kong, Zhengduo Wang, Lizhen Yang, Jianming Xue, and Qiang Chen

Subjects
Physics, QC1-999
Abstract

This paper presents the strategy of selective-area growing of a positively-charged layer of Al2O3 and the negatively-charged layer of HfO2 on ion beam track-etched polyethylene terephthalate (PET) nanotubes through the thermal atomic layer deposition (T-ALD) technique. We used the self-assembled monolayer of octadecyl trichlorosilane (OTS-SAMs) on the surface to serve as a passivation layer and then selectively deposited the Al2O3 and HfO2 in the nanotubes. The influence of the dipping time of the substrates in the OTS solution and the experimental conditions on the roughness and the thickness of the OTS monolayer have been investigated. X-ray photoelectron spectroscopy (XPS) was used to analyze the composition of the ALD Al2O3 and HfO2 films. Atomic force microscope (AFM) and scanning electron microscope (SEM) were employed to study the morphologies before and after the ALD of Al2O3 and HfO2. The I-V characteristics of the film confirmed the surface charge polarities in the nanotubes, i.e. the positively-charged Al2O3 and negatively-charged HfO2, in the electrically-neutral solution. The results will aid surface modification and functionalization of PET by nanotubes.

Published
2019
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21. Highly efficient nickel (II) removal by sewage sludge biochar supported α-Fe2O3 and α-FeOOH: Sorption characteristics and mechanisms.

Author

Lie Yang, Liuyang He, Jianming Xue, Li Wu, Yongfei Ma, Hong Li, Pai Peng, Ming Li, and Zulin Zhang

Subjects
Medicine, Science
Abstract

A novel approach was employed to load α-Fe2O3 and α-FeOOH onto sewage sludge biochar (SBC) with the purpose of efficient nickel (Ni) removal. A high Ni(II) adsorption capacity of 35.50 mg·g-1 in 100 ppm Ni(II) solution with 10 mg modified sewage sludge biochar (MSBC) was achieved. The adsorption kinetic and isotherm were fitted well by the pseudo-second-order model and the Langmuir model, respectively. The optimal pH was found around a neutral pH of 7. The adsorption mechanisms of Ni(II) onto MSBC were described as the synergistic effects of electrostatic attraction, ion exchange, inner-sphere complexation and co-precipitation. The initial rapid adsorption phenomenon could be attributed to electrostatic attraction and ion exchange, and then inner-sphere complexation and co-precipitation acted as a crucial role in the following step. The remarkable performance of MSBC provides an effective waste utilization approach to simultaneous sewage sludge recycle and Ni removal from aqueous solution.

Published
2019
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22. An innovative alcohol-solution combustion-calcination process for the fabrication of NiFe2O4 nanorods and their adsorption characteristics of methyl blue in aqueous solution

Author

Qi Xu, Yueyang Xu, Jianming Xue, Fahua Zhu, Zhaoping Zhong, and Ruijiang Liu

Subjects
magnetic NiFe2O4 nanorods, alcohol-solution combustion-calcination technique, methyl blue, adsorption characteristics, Materials of engineering and construction. Mechanics of materials, TA401-492, Chemical technology, TP1-1185
Abstract

Magnetic nickel ferrite (NiFe _2 O _4 ) nanorods were prepared via an innovative alcohol-solution combustion-calcination technique and evaluated for removing methyl blue (MB), which may greatly benefit for dye-polluted water treatment. The magnetic nanorods were characterized by TEM, EDS, XRD, VSM, SAED, FTIR, XPS and BET, the results showed that the NiFe _2 O _4 sample has high magnetic saturation (Ms) and soft superparamagnetic behavior, and these properties accounted for their facile separation from the aqueous solution when an external magnetic field was applied. To understand the adsorption mechanism, adsorption experiments were performed using adsorption kinetics and adsorption isotherms. The Temkin model and the pseudo-second-order kinetic model best described the adsorption characteristics of MB onto NiFe _2 O _4 nanorods. The effect of pH on the adsorption process was investigated, when pH was 3–7, the maximum adsorption capacity was reached, which was about 62 mg·g ^−1 . The recycling efficiency was also estimated, after 10 runs of regeneration, it remained 70.1% initial adsorption capacity, indicating the adsorbent could be efficiently reused for the adsorption of MB.

Published
2021
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23. Some generalizations of operator inequalities for positive linear maps

Author

Jianming Xue and Xingkai Hu

Subjects
operator inequalities, Kantorovich inequalities, positive linear maps, Mathematics, QA1-939
Abstract

Abstract In this paper, we generalize some operator inequalities for positive linear maps due to Lin (Stud. Math. 215:187-194, 2013) and Zhang (Banach J. Math. Anal. 9:166-172, 2015).

Published
2016
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24. Hydrothermal Enhanced Nanoscale Zero-Valent Iron Activated Peroxydisulfate Oxidation of Chloramphenicol in Aqueous Solutions: Fe-Speciation Analysis and Modeling Optimization

Author

Lie Yang, Hong Li, Jianming Xue, Liuyang He, Yongfei Ma, Li Wu, and Zulin Zhang

Subjects
persulfate, nzvi, chloramphenicol, fe species, response surface methodology, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

The efficiencies of the nanoscale zero-valent iron (nZVI) and hydrothermal and nZVI-heat activation of peroxydisulfate (PS) were studied for the decomposition of chloramphenicol (CAP) in aqueous solutions. The nZVI heat combined with activation of PS provided a significant synergistic effect. A central composite design (CCD) with response surface methodology (RSM) was employed to explore the influences of single parameter and interactions of selected variables (initial pH, PS concentration, nZVI and temperature) on degradation rates with the purpose of condition optimization. A quadratic model was established based on the experimental results with excellent correlation coefficients of 0.9908 and 0.9823 for R2 and R2adj. The optimized experimental condition for 97.12% CAP removal was predicted with the quadratic model as 15 mg/L, 0.5 mmol/L, 7.08 and 70 °C for nZVI dosage, PS, initial pH, and temperature, respectively. This study demonstrated the effectiveness of RSM for the modeling and prediction of CAP removal processes. In the optimal condition, Fe2O3 and Fe3O4 were the predominant solid products after reactions based on X-ray photoelectron spectroscopy (XPS) and X-ray diffraction (XRD) analysis, which could also act as the activators along with the reaction. Overall, it could be concluded that hydrothermal enhanced nZVI activation of PS was a promising and efficient choice for CAP degradation.

Published
2019
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25. Further Improved Weighted Arithmetic-Geometric Operator Mean Inequalities

Author

Jianming Xue and Xingkai Hu

Subjects
operator inequality, positive linear map, weighted arithmetic-geometric operator mean, Mathematics, QA1-939
Abstract

The main purpose of this paper is to present some weighted arithmetic-geometric operator mean inequalities. These inequalities are refinements and generalizations of the corresponding results. An example is provided to confirm the effectiveness of the results.

Published
2019
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33. Long-Term Evolution of Vacancies in Large-Area Graphene

Author

Shihao Su, Yong Liu, Man Li, Huaqing Huang, and Jianming Xue

Subjects
General Chemical Engineering, General Chemistry
Abstract

Devices based on two-dimensional (2D) materials such as graphene and molybdenum disulfide have shown extraordinary potential in physics, nanotechnology, and electronics. The performances of these applications are heavily affected by defects in utilized materials. Although great efforts have been spent in studying the formation and property of various defects in 2D materials, the long-term evolution of vacancies is still unclear. Here, using a designed program based on the kinetic Monte Carlo method, we systematically investigate the vacancy evolution in monolayer graphene on a long-time and large spatial scale, focusing on the variation of the distribution of different vacancy types. In most cases, the vacancy distribution remains nearly unchanged during the whole evolution, and most of the evolution events are vacancy migrations with a few being coalescences, while it is extremely difficult for multiple vacancies to dissolve. The probabilities of different categories of vacancy evolutions are determined by their reaction rates, which, in turn, depend on corresponding energy barriers. We further study the influences of different factors such as the energy barrier for vacancy migration, coalescence, and dissociation on the evolution, and the coalescence energy barrier is found to be dominant. These findings indicate that vacancies (also subnanopores) in graphene are thermodynamically stable for a long period of time, conducive to subsequent characterizations or applications. Besides, this work provides hints to tune the ultimate vacancy distribution by changing related factors and suggests ways to study the evolution of other defects in various 2D materials.

Published
2022

34. Intervention Effects of Okra Extract on Brain-Gut Peptides and Intestinal Microorganisms in Sleep Deprivation Rats

Author

Jingru Wu, Mingxue Cao, Ming Hu, Yu Gong, Jianming Xue, Yilin Yang, and Hairui Zhou

Subjects
Article Subject, Complementary and alternative medicine
Abstract

Objective. Okra, possessing various bioactive components, is used to treat different diseases. This study sought to estimate the intervention effects of okra extract (OE) on brain-gut peptides (BGPs) and intestinal microorganisms in sleep deprivation (SD) rats. Methods. SD rat models were established using the modified multiple platform method and then treated with normal saline, diazepam tablets, or different doses of OE. Body weight and average daily water consumption of rats were recorded. Depressive behaviors of rats were assessed by the open field test and sucrose preference test. Serum levels of noradrenaline, melatonin, inflammatory factors (IL-1β/IL-6/TNF-α/IL-4/IL-10), and BGP indexes, including gastrin (GAS), motilin (MTL), 5-hydroxytryptamine (5-HT), cholecystokinin (CCK), and vasoactive intestinal peptide (VIP) were measured by ELISA. Additionally, the DNA relative contents of representative intestinal microorganisms in the collected rat feces were determined using RT-qPCR. Results. SD decreased body weight and average daily water consumption and induced depressive behaviors as well as stress and inflammatory responses in rats. SD rats exhibited lowered GAS, MTL, 5-HT, and VIP but elevated CCK and showed diminished DNA relative contents of Bacteroidetes and probiotics (Bifidobacteria and Lactobacilli) but increased Clostridium perfringens. OE at different doses ameliorated the depressive behaviors and mitigated the stress and inflammatory responses in SD rats, raised the serum contents of GAS, MTL, 5-HT, and VIP, reduced CCK level, elevated the DNA relative contents of Bacteroidetes and probiotics, but diminished Clostridium perfringens. OE exhibited similar intervention effects to diazepam tablets (positive control). Conclusion. OE exerts intervention effects on BGPs and intestinal microorganisms in SD rats.

Published
2022

35. Mineralisation and nitrification of biuret and urea nitrogen in two New Zealand forest soils

Author

Jianming Xue, Peter W. Clinton, Roger Sands, and Tim W. Payn

Subjects
Soil Science, Environmental Science (miscellaneous), Earth-Surface Processes
Abstract

Context Biuret has potential to improve tree growth when applied at high rates as a slow-release nitrogen (N) fertiliser. However, there is little comparative research into the transformation of biuret and urea-N in forest soils. Aims This study comparatively investigated the mineralisation, nitrification and immobilisation of biuret and urea-N in two forest soils (a sandy loam soil and a silt loam soil) to further evaluate the suitability of biuret as a slow-release N source. Methods A 112-day long soil C and N mineralisation incubation study was conducted following application of 0, 4.08, 40.8 and 408 mg N kg−1 soil of biuret (referred to as control, B4, B41 and B408) and urea (referred to as control, U4, U41 and U408). CO2-C, microbial biomass C and N, NH4+-N and NO3−-N were measured at six times (on Days 2, 7, 14, 28, 56 and 112) to quantify net mineralisation and nitrification. Key results In both soils, biuret (especially in B408) was slowly mineralised with a steady increase in soil NH4+-N while urea was readily hydrolysed with a sharp increase and subsequently considerable decrease in soil NH4+-N. B408 had less nitrification than U408 in both soils, especially during the first 56 days. Conclusions Due to the lower mineralisation, nitrification and greater immobilisation, more biuret-N remained in the soils compared to urea-N. Biuret could be used as a potential slow-release N fertiliser in forest soils. Implications The research findings could have important implications for future biuret fertiliser development for plantation forests.

Published
2022

38. Enhancement in soil fertility, early plant growth and nutrition and mycorrhizal colonization by vermicompost application varies with native and exotic tree species

Author

Jianming Xue, Mark R. Bakker, Sylvie Milin, and Doug Graham

Subjects
Stratigraphy, Earth-Surface Processes
Abstract

Purpose The impact of vermicompost on tree-soil systems is not yet fully understood. This study aimed to comparatively investigate the effects of chemical fertilizer, compost and vermicompost on soil enzymatic activities, seedling mycorrhizal colonization, growth and nutrition of one exotic tree species (radiata pine, Pinus radiata D. Don) and two native tree species (mānuka, Leptospermum scoparium and tōtara, Podocarpus totara). Methods A 12-month-long pot trial was set up in the glasshouse with a factorial design of three tree species (radiata pine, tōtara and manuka) by six treatments, including T1-control, T2-chemical fertilizer, T3-HS compost, T4-HS vermicompost, T5-LS vermicompost and T6-CM vermicompost. We assessed the main effects and interactions of treatment and species on soil chemical and biological properties, plant growth and nutritional responses. Results Compared to the untreated control (T1), application of vermicomposts (T4-T6) and compost (T3) significantly improved soil chemical properties and enzymatic activities, and increased total seedling dry weight by 160–260%, shoot concentrations of nitrogen (N) by 54–97% and phosphorus (P) by 61–91%. Vermicomposts were comparable to diammonium phosphate (DAP) applied at 133 kg N ha−1 (T2) in stimulating the growth of native species (mānuka and tōtara) without negative impact on mycorrhizal colonization, with T5 being better than DAP (T2) in promoting mānuka growth. However, application of vermicompost alone was less effective than DAP in stimulating the exotic radiata pine growth. Overall, soil activities of dehydrogenase, urease, acid phosphatase and invertase were significantly and positively correlated to total C and N and exchangeable Ca and Mg. Conclusion The increased growth of three tree species after application of vermicomposts was mainly related to improved N and P nutrition associated with enhanced root growth and soil enzymatic activities. Our findings imply that the vermicomposting products from septic tank waste could be a promising alternative to inorganic fertilizers in land application or greenhouse potting media of native tree species.

Published
2022

39. Native and invasive seedling drought-resistance under elevated temperature in common gorse populations

Author

Mathias Christina, Céline Gire, Mark R Bakker, Alan Leckie, Jianming Xue, Peter W Clinton, Zaira Negrin-Perez, José Ramon Arevalo Sierra, Jean-Christophe Domec, and Maya Gonzalez

Subjects
Ecology, Plant Science, Ecology, Evolution, Behavior and Systematics
Abstract

The assumption that climatic growing requirements of invasive species are conserved between their native and non-native environment is a key ecological issue in the evaluation of invasion risk. We conducted a growth chamber experiment to compare the effect of water regime and temperature on the growth and mortality of native and invasive populations of common gorse seedlings (Ulex europaeus L.). Seeds were sampled from 20 populations of five areas from both native (continental France and Spain) and non-native areas (New Zealand, Canary and Reunion islands). The seedlings were grown over 36 days in two temperature treatments (ambient and elevated) combined with two water treatments (irrigated or droughted). The elevated temperature (ET) was defined as the highest temperature observed at the niche margin in the different countries. While ET increased seedlings growth, the drought treatment increased mortality rate and limited seedlings growth. Under ET and drought, native populations showed a greater mortality rate (53%) than invasive populations (16%). Invasive seedlings also showed higher above- and belowground development than native ones under these constrained climatic conditions. While phenotypic plasticity did not differ between native and invasive populations, the difference between populations in terms of total dry mass could be related to differences in the climate of origin (precipitation in particular). Assessing the importance of phenotypic changes between populations within invasive species is crucial to identify the margins of their climatic distribution range and to highlight areas where management efforts should be concentrated in order to limit its spread.

Published
2023

40. Effects of MeV Proton Irradiation on the Properties of Mo/Cu Bilayer Films

Author

Yanling Chen, Yuan Gao, Xinyan Hua, Fajun Li, Yajie Liang, Hai Jin, Jiao Ding, Guole Wang, Sifan Wang, Yuning Zhang, Rui Huang, Xiuyu Zhang, Wei Cui, Yeru Wang, and Jianming Xue

Subjects
Materials science, Proton, Bilayer, General Materials Science, Irradiation, Condensed Matter Physics, Photochemistry, Atomic and Molecular Physics, and Optics
Published
2021

41. Environment-Dependent Radiation Tolerance of Graphene Transistors under Proton Irradiation

Author

Yifan Zhang, Shengyuan Peng, Yihan Wang, Linxin Guo, Xiuyu Zhang, Huaqing Huang, Shihao Su, Xinwei Wang, and Jianming Xue

Subjects
General Materials Science, Physical and Theoretical Chemistry
Abstract

Electronic devices based on two-dimensional materials are promising for application in space instrumentation because of their small size and low power consumption, and irradiation tolerance of these devices is required because of the existence of energetic particles in aerospace conditions. We investigate the performance degradation of graphene field effect transistors (GFETs) with 3 MeV protons by using an in situ irradiation facility. Our results indicate that GFET performance degraded severely at the ion fluence of 8 × 10

Published
2022

42. The effect of permissive high SVV on postoperative delirium in elderly patients in laparoscopic hepatectomy

Author

Yunfei Guo, Yazhu Wang, Yanyan Niu, Jianming Xue, Shuo Sun, and Jianling Li

Abstract

Backgrounds The effect of goal-directed fluid therapy (GDFT) on postoperative cognitive function in elderly patients is unknown. Therefore, we designed the present study to evaluate the effect of permissive high stroke volume variability (SVV)-mediated GDFT on postoperative delirium in elderly laparoscopic hepatectomy patients. Methods In this study, patients were randomly divided into two groups: a pilot group (group S) with SVV-guided rehydration and a control group (group C) with Central venous pressure (CVP)-guided rehydration. Group S: fluid therapy according to the target SVV value; Group C: fluid therapy according to the CVP value intraoperative parameters and postoperative outcomes were recorded for all patients. The primary outcome variables were cerebral metabolic and injury indicators, volume of access, stress and inflammatory indicators. Results Brain metabolic indexes: During operation, rSO2%max in group S was significantly lower than that in group C (7.5% vs 12.3%), and O2ER in group S was lower than that in group C at T2-4, P

Published
2022

43. A novel Fe-PTFE magnetic composite prepared by ball milling for the efficient degradation of imidacloprid: Insights into interaction mechanisms based on ultrasonic piezoelectric catalysis

Author

Liuyang He, Lijuan Wu, Shitai Shen, Yulong Li, Siyu Chen, Jianming Xue, Shengmao Yang, Zulin Zhang, Li Wu, and Lie Yang

Subjects
Environmental Engineering, Environmental Chemistry, Pollution, Waste Management and Disposal
Abstract

In this study, a novel magnetic poly (tetrafluoroethylene, PTFE) (Fe@PTFE) piezoelectric catalytic material was successfully prepared by a simple ball milling treatment. The prepared piezoelectric catalytic material Fe@PTFE exhibited excellent catalytic performance under the activation of ultrasonic (US) and realized the efficient degradation of imidacloprid (IMI) at low concentrations in an aqueous environment. It was demonstrated by various characterization methods that Fe

Published
2022

44. Coassisted carbonization with HCOOK/(HCOO)

Author

Fei, Gu, Rongting, Ji, Qian, Sun, Shengcun, Chen, Rong, Bai, Yuying, Shen, Xinran, Liu, Yang, Song, Jiangang, Han, Xin, Jiang, Hu, Cheng, and Jianming, Xue

Subjects
Oxygen, Water, Environmental Pollutants, Adsorption, Porosity, Carbon
Abstract

Porous carbons are excellent sorbents for removing organic pollutants. Green conversion of biowaste into advanced porous carbons is crucial for industrialized production and practical applications, which, however, have rarely been investigated. This study develops a coassisted carbonization method for the preparation of porous carbons with the environmentally friendly agents HCOOK and (HCOO)

Published
2022

46. Short-term grazing rather than mowing stimulates N2O production potential through enhancing the bacterial pathway in semiarid grasslands

Author

Jinwu Qing, Yingjin Song, Jianming Xue, Taogetao Baying, Lei Zhong, Gaoyuan Li, Frank Yonghong Li, Jinlei Li, Guanyi Chen, and Yichao Rui

Subjects
geography, geography.geographical_feature_category, Stratigraphy, Microorganism, Growing season, Nitrous oxide, Biology, Inner mongolia, Enzyme assay, Grassland, chemistry.chemical_compound, Agronomy, chemistry, Grazing, biology.protein, Nitrification, Earth-Surface Processes
Abstract

The study aimed to explore how grazing and mowing influence the archaeal, bacterial, and fungal nitrous oxide (N2O) production potential and identify the key soil factors driving N2O emissions from soil. Three treatments: fence (no grazing or mowing), grazing, and mowing were set in a field-scale experiment. Total (TNEA and TDEA), fungal (FNEA and FDEA), bacterial (BNEA and BDEA), and archaeal (ANEA and ADEA) nitrification and denitrification enzyme activities were measured to compare the effect of grazing and mowing on the potential of N2O emission. The TC varied from 16.7 to 19.0 g kg−1 and the TN content varied from 1.19 to 1.37 g kg−1 during the growing season. The TNEA, TDEA, BNEA, and BDEA were significantly higher in summer (July) (p

Published
2021

47. The impacts of oxytetracycline on humification during manure composting can be alleviated by adjusting initial moisture contents as illustrated by NMR

Author

Dengmiao Cheng, Gui-zhen Wang, Yuanwang Liu, Quan-sheng Zhao, Shu-qing Zhang, Shuang-hu Fan, Yao Feng, Li ZhaoJun, and Jianming Xue

Subjects
Agriculture (General), Plant Science, engineering.material, Biochemistry, S1-972, Food Animals, Organic matter, humification, moisture content, chemistry.chemical_classification, Ecology, Chemistry, Compost, oxytetracycline degradation, Ammonia volatilization from urea, Pulp and paper industry, Manure, Humus, physico-chemical property, engineering, composting, Animal Science and Zoology, Chicken manure, Nitrification, Agronomy and Crop Science, Organic fertilizer, Food Science
Abstract

Oxytetracycline (OTC) residues have been found in soil and water, and they may pose potential risks to agricultural ecological environments. One of the most impactful ways for OTC to enter the soil and water environments is through excrement used as organic fertilizer. Therefore, it is important to remove OTC during manure composting and to understand the transformation of the organic materials during composting in the presence of OTC. In the present paper, chicken manure and wheat sawdust spiked with OTC were composted under different initial moisture contents (MC) to evaluate the degradation of OTC and changes of organic matter during the composting process. The MC has a significant effect on OTC degradation during composting. A higher MC of 65% was more conducive to OTC degradation (77.4%) and compost maturity compared to the lower MC. However, the higher MC of 65% could increase the ammonia volatilization by promoting nitrification compared to the lower MC. An increase in the initial MC could improve the composting temperature. NMR results illustrated that the presence of OTC could affect the internal transformation of aliphatics, and OTC inhibited compost humification. Thus, an initial MC of 55–65% can alleviate the impacts of OTC on humification during manure composting.

Published
2021

48. Adsorption Mechanism and Electrochemical Properties of Methyl Blue onto Magnetic CoxCu(1–x)Fe2O4 Nanoparticles Prepared via an Alcohol Solution of Nitrate Combustion and Calcination Process

Author

Shaoshuai Zhang, Jiaqian Bi, Ruitong Yin, Jianming Xue, Ruijiang Liu, and Yueyang Xu

Subjects
Materials science, Polymers and Plastics, Methyl blue, Nanoparticle, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Dielectric spectroscopy, chemistry.chemical_compound, Adsorption, chemistry, Chemical engineering, law, Specific surface area, Materials Chemistry, Calcination, Cyclic voltammetry, 0210 nano-technology, High-resolution transmission electron microscopy
Abstract

Magnetic CoxCu(1–x)Fe2O4 nanoparticles were prepared via an alcohol solution of nitrate combustion and calcination process. Their magnetic properties, microstructure, and element composition were measured by XRD, VSM, SEM, TEM, HRTEM, EDS, BET, and XPS. For larger specific surface area and facile separation from solutions, magnetic Co0.8Cu0.2Fe2O4 nanoparticles calcined at 400 °C for 2 h with 20 mL absolute ethyl alcohol were employed to adsorb methyl blue (MB). The adsorption mechanism was expounded by the intraparticle diffusion model and the Temkin model, which suggested that the adsorption of MB onto Co0.8Cu0.2Fe2O4 nanoparticles was the monolayer-multilayer mixed adsorption mechanism. The adsorption of MB onto Co0.8Cu0.2Fe2O4 nanoparticles kept the high efficiency when the pH of dye solution was equal to or over seven, and the adsorption capacity of Co0.8Cu0.2Fe2O4 nanoparticles remained 57.1% of the original removal effect after five times circulation. Cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) were used to characterize the adsorption behavior innovatively.

Published
2021

49. Facile Fabrication of Subnanopores in Graphene under Ion Irradiation: Molecular Dynamics Simulations

Author

Jianming Xue and Shihao Su

Subjects
Materials science, Graphene, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, Ion, Nanopore, Membrane, law, Chemical physics, Atom, Energy transformation, General Materials Science, Irradiation, Gas separation, 0210 nano-technology
Abstract

Two-dimensional (2D) nanoporous membranes have attracted great interest in water desalination, energy conversion, electrode, and gas separation. The performances of these membranes are mainly determined by the nanopores, and only with satisfactory subnanometer pores can applications such as high-precision ion separation be realized. Therefore, to efficiently create subnanopores in 2D materials is of great importance. Here, using molecular dynamics simulations, we demonstrate that the direct irradiation of energetic ion is capable of introducing subnanopores in monolayer graphene. By changing the energy of the incident Au ion, the averaged pore diameter can be adjusted from 4.2 to 5.6 Å, and pore diameter distributions are narrow. In the formation processes of the subnanopores, the cascade collisions caused by the primary knock-on atom (PKA) predominates, and pores can only be created in ion impact positions close to the PKA, especially for the incident ion with high energy. Our results show the promise of ion irradiation as a facile method to fabricate subnanopores in 2D materials. As hydrated ions, gases, and small organic molecules have diameters of several angstroms, close to the pore sizes, the created nanoporous membranes can be used to separate those matter, which is conducive to accelerating related applications.

Published
2021

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