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1. Photonic topological insulators in femtosecond laser direct-written waveguides

Author

Wenchao Yan, Bin Zhang, and Feng Chen

Subjects
Applied optics. Photonics, TA1501-1820, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Abstract Topological photonics attract significant interests due to their intriguing fundamental physics and potential applications. Researchers are actively exploring various artificial platforms to realize novel topological phenomena, which provides promising pathways for the development of robust photonic devices. Among these platforms, femtosecond laser direct-written photonic waveguides show unique ability to visualize intricate light dynamics in 2 + 1 dimensions, which rendering them ideal tools for investigating topological photonics. By integrating topological concepts into these waveguides, researchers not only deepen their understanding of topological physics but also provide potential methodology for developing advanced topological photonic integrated devices. In this review, we discuss recent experimental implementations of different topological phases within femtosecond laser direct-written photonic waveguides, as well as the fascinating physical phenomena induced by the interplay of topology with non-Hermiticity, nonlinearity and quantum physics are also introduced. The exploration of topological waveguide arrays shows great promise in advancing the field of topological photonics, providing a solid foundation for further research and innovation in this rapidly developing domain.

Published
2024
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3. Recent advance in Mn-based Li-rich cathode materials: Oxygen release mechanism and its solution strategies based on electronic structure perspective, spanning from commercial liquid batteries to all-solid-state batteries

Author

Ning Wang, Jiaxuan Yin, Haoran Li, Tiancheng Wang, Shengrui Cui, Wenchao Yan, Wei Liu, and Yongcheng Jin

Subjects
Li-rich cathode, Cathodic interface, Oxygen release mechanism, Electronic structure, All-solid-state batteries, Technology
Abstract

Abstracts: The current widespread use of lithium-ion batteries (LIBs) in transportation and consumer electronics has spurred the pursuit of developing cathode materials with enhanced energy density, aiming to commercialize LIBs with improved performance. Mn-based Li-rich layered oxides, among the various types of cathode materials, possess outstanding merits such as high energy density, low cost, and environmentally friendly, which make them the most promising commercial cathode materials for LIBs. However, the low initial cycle efficiency, voltage and capacity attenuation, and phase transformation significantly slow down the process of commercial application. The essential origin of the above drawbacks is the redox reaction from the lattice oxygen in the initial uptake/release process. Based on the advanced characterizations and theoretical analysis, researchers have gained a deep understanding of the fundamental issues and subsequent solution strategies. Firstly, this present article provides a comprehensive review of the redox reaction mechanism involving lattice oxygen in liquid lithium-ion battery avenue, focusing on the perspective of electronic energy levels. Then, the article provides an in-depth analysis and summary of the relevant solution strategies, as well as a detailed overview of the application and challenges of Li-rich cathode materials in all-solid-state lithium-ion batteries (ASSLBs). The primary objective of this review is to offer targeted guidance for the development of Li-rich cathodes that are both highly efficient and safe, with a particular emphasis on their potential application in the future all-solid-state battery technology.

Published
2025
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4. Ultra-high charge electron acceleration for nuclear applications

Author

Liming Chen, Jie Feng, Wenchao Yan, Hao Xu, Yaojun Li, Wenzhao Wang, Xulei Ge, Xiaojun Huang, and Jie Zhang

Subjects
Laser wakefield acceleration, Nuclear reaction, Isomer, Neutron generation, Plasma physics. Ionized gases, QC717.6-718.8, Science
Abstract

Ultra-intense laser-plasma wakefield accelerator possess several superior properties compared with the traditional radio-frequency accelerators. These characteristics include femtosecond duration, micro-source size, and ultra-dense beam density, result in highly advantageous for various important applications. In this paper, we reviewed the generation of ultra-intense and high charge electron beam based on laser-plasma acceleration and its nuclear applications in Shanghai Jiao Tong University, including the production of 10 s nC charge beams, the generation of ultra-high flux neutron source on the order of 1019 n/cm2/s, and the excitation of nuclear isomers with the peak efficiency on the order of 1015 particle/s. This laser driving ultra-dense electron source, in conjunction with the plasma environment, presents immense potential in addressing critical problems in astrophysics, and facilitating various nuclear applications. Based on above progress in nuclear astrophysics, a new research plateform about laboratory astrophysics with a 2.5 PW laser will be constructed in TDLI institute.

Published
2024
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5. Molecular Simulation of the Water Diffusion Behavior and Electronic Properties of Boron-Nitride-Composited Mineral Oil

Author

Yang Wang, Wenchao Yan, Kunqi Cui, Chuanhui Cheng, Yuanyang Ren, and Kai Wu

Subjects
BN nanoparticles, mineral oil, diffusion of water molecules, interfacial potential barriers, molecular simulation, Organic chemistry, QD241-441
Abstract

Despite the fact that doping nanoparticles into insulating transformer oil has proven to be an effective method of enhancing its dielectric and electrical properties, it remains unclear how different types and surface conditions of nanoparticles may affect their dielectric and electrical properties. Therefore, the effect of doping various types of BN nanoparticles (nanosphere, nanotube, and nanosheet) in insulating mineral oil (MO) on the diffusion properties of water molecules and electrical properties across the BN/MO interface was investigated using molecular dynamics (MD) and Density Functional Theory (DFT) simulations. Our results show that different surface morphology and grafted functional groups in different types of BN nanoparticles have a significant impact both on the water diffusion behavior and the interfacial potential barrier across the interface between BN and MO. In the MO system directly doped by BN nanospheres, water diffusion behavior is not significantly restricted. However, grafting -NH2 polar groups onto the BN nanoparticle surface may significantly limit the diffusion behavior of water due to the strong attraction between the -NH2 polar groups and water molecules; the most significant effect is with nanospheres, followed by nanotubes and nanosheets. In terms of electrical properties across the interface between BN and MO, the h-BN surface (derived from BN nanosheets and nanotubes) acts as a trap for electrons in MO (−0.59 eV), while the c-BN surface (derived from BN nanospheres) acts as a potential barrier for electrons in MO (1.45 eV), and it is noteworthy that the presence of water molecules near the interface between BN and MO has little impact on the potential barriers. Advancing a fundamental understanding of the electrical and water diffusion properties of MO in correlation with the surface morphology of different types of nanoparticles is key to improving the insulation properties of oil-impregnated power transformers.

Published
2024
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6. Neospora caninum inhibits tumor development by activating the immune response and destroying tumor cells in a B16F10 melanoma model

Author

Xiaojin Li, Meng Qi, Kai He, Haiyan Liu, Wenlan Yan, Lizhuo Zhao, Yanyan Jia, Lei He, Chaochao Lv, Min Zhang, Zhiguo Wei, Wenchao Yan, Tianqi Wang, Fuchang Yu, and Weifeng Qian

Subjects
Neospora caninum, B16F10 melanoma, Th1 immunity, Cell death, Gut microbiota, Infectious and parasitic diseases, RC109-216
Abstract

Abstract Background Melanoma is a malignant tumor with a high mortality rate. Some microorganisms have been shown to activate the immune system and limit cancer progression. The objective of this study is to evaluate the anti-melanoma effect of Neospora caninum, a livestock pathogen with no pathogenic activity in humans. Methods Neospora caninum tachyzoites were inoculated into a C57BL/6 mouse melanoma model by intratumoral and distal subcutaneous injections. Tumor volumes were measured, and cell death areas were visualized by hematoxylin and eosin staining and quantified. Apoptosis in cell cultures and whole tumors was detected by propidium iodide (PI) and TUNEL staining, respectively. Cytokine and tumor-associated factor levels in tumors and spleens were detected by real-time quantitative polymerase chain reaction. Infiltration of macrophages and CD8+ T cells in the tumor microenvironment (TME) were detected by immunohistochemistry with anti-CD68 and anti-CD8 antibodies, respectively. Finally, 16S rRNA sequencing of mice cecal contents was performed to evaluate the effect of N. caninum on gut microbial diversity. Results Intratumoral and distal subcutaneous injections of N. caninum resulted in significant inhibition of tumor growth (P

Published
2022
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7. Engineering the Electronic Structure towards Visible Lights Photocatalysis of CaTiO3 Perovskites by Cation (La/Ce)-Anion (N/S) Co-Doping: A First-Principles Study

Author

Qiankai Zhang, Yang Wang, Yonggang Jia, Wenchao Yan, Qinghao Li, Jun Zhou, and Kai Wu

Subjects
CaTiO3, photocatalysis, first-principles calculations, co-doping, electronic structure, Organic chemistry, QD241-441
Abstract

Cation-anion co-doping has proven to be an effective method of improving the photocatalytic performances of CaTiO3 perovskites. In this regard, (La/Ce-N/S) co-doped CaTiO3 models were investigated for the first time using first-principles calculations based on a supercell of 2 × 2 × 2 with La/Ce concentrations of 0.125, 0.25, and 0.375. The energy band structure, density of states, charge differential density, electron-hole effective masses, optical properties, and the water redox potential were calculated for various models. According to our results, (La-S)-doped CaTiO3 with a doping ratio of 0.25 (LCOS1-0.25) has superior photocatalytic hydrolysis properties due to the synergistic performances of its narrow band gap, fast carrier mobility, and superb ability to absorb visible light. Apart from the reduction of the band gap, the introduction of intermediate energy levels by La and Ce within the band gap also facilitates the transition of excited electrons from valence to the conduction band. Our calculations and findings provide theoretical insights and solid predictions for discovering CaTiO3 perovskites with excellent photocatalysis performances.

Published
2023
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8. Gamma-ray Vortex Burst in Nonlinear Thomson Scattering with Refocusing Spiral Plasma Mirror

Author

Weijun Zhou, Wenchao Yan, Jinguang Wang, and Liming Chen

Subjects
Physics, QC1-999, Applied optics. Photonics, TA1501-1820
Abstract

The gamma-ray vortex burst in the nonlinear Thomson scattering when the laser wakefield accelerated electron bunch collides with an ultra-intense Laguerre–Gaussian laser that was reflected from the refocusing spiral plasma mirror. The orbit angular momentum of the scattering laser would be transferred to the gamma radiation through the scattering process. The 3-dimensional particle-in-cell simulations gave the electron dynamics in the scattering, which determines the characteristics of the vortical radiation. The radiation calculation results illustrated the burst of gamma-ray vortex and surprisingly revealed the radiation pattern distortion phenomenon due to the nonlinear effect. This scheme can not only simplify the experimental setup for the generation of twisted radiation but also boost the yield of vortical gamma photons. The peak brightness of the gamma-ray vortex was estimated to be 1 × 1022 photons/s/mm2/mrad2/0.1% BW at 1 MeV, which might pave the way for the researches on angular momentum-related nuclear physics.

Published
2023
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9. Metagenome of Gut Microbiota Provides a Novel Insight into the Pathogenicity of Balantioides coli in Weaned Piglets

Author

Kai He, Jie Xiong, Wentao Yang, Lizhuo Zhao, Tianqi Wang, Weifeng Qian, Suhui Hu, Qiangqiang Wang, Muhammad Tahir Aleem, Wei Miao, and Wenchao Yan

Subjects
weaned piglets, Balantioides coli, metagenomic analysis, gut microbiota, diarrhea, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Balantioides coli plays an important role in the diarrhea of weaned piglets, but its pathogenic potential and interaction with gut microbes remain unclear. To investigate the impact of B. coli colonization on the gut bacterial structure and function of weaned piglets, a metagenomic analysis based on shotgun sequencing was performed on fresh fecal samples collected from ten B. coli-colonized piglets and eight B. coli-free ones in this study. The results showed that decreasing diversity and shifted composition and function of the bacterial community were detected in the weaned piglets infected by B. coli. In contrast to the B. coli-negative group, the relative abundances of some members of the Firmicutes phylum including Clostridium, Ruminococcus species, and Intestinimonas butyriciproducens, which produce short-chain fatty acids, were significantly reduced in the B. coli-positive group. Notably, some species of the Prevotella genus (such as Prevotella sp. CAG:604 and Prevotella stercorea) were significantly increased in abundance in the B. coli-positive piglets. A functional analysis of the gut microbiota demonstrated that the differential gene sets for the metabolism of carbohydrates and amino acids were abundant in both groups, and the more enriched pathways in B. coli-infected piglets were associated with the sugar-specific phosphotransferase system (PTS) and the two-component regulatory system, as well as lipopolysaccharide (LPS) biosynthesis. Furthermore, several species of Prevotella were significantly positively correlated to the synthesis of lipid A, leading to the exporting of endotoxins and, thereby, inducing inflammation in the intestines of weaned piglets. Taken together, these findings revealed that colonization by B. coli was distinctly associated with the dysbiosis of gut bacterial structure and function in weaned piglets. Lower relative abundances of Clostridiaceae and Ruminococcaceae and higher abundances of Prevotella species were biomarkers of B. coli infection in weaned piglets.

Published
2023
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10. Effects of climate change and human activities on net primary production of wetlands on the Zoige Plateau from 1990 to 2015

Author

Wenchao Yan, Yuanyun Wang, Pashupati Chaudhary, Peijun Ju, Qiuan Zhu, Xiaoming Kang, Huai Chen, and Yixin He

Subjects
Wetland, Climate change, NPP, Human activities, CASA, LPJ_WHyMe, Ecology, QH540-549.5
Abstract

Wetlands are vulnerable to climate change and human activities. However, the past changes caused by climate and human activities on net primary production (NPP) were unclear on the Zoige Plateau, which is on the Qinghai-Tibet Plateau. In this study, the impact of climatic and anthropogenic pressure on the NPP of wetlands on the Zoige Plateau from 1990 to 2015 was explored. We assessed and quantified the effects of climatic and anthropogenic factors on NPP using a simulated process model (LPJ_WHyMe) and a remote sensing model (CASA). Our simulations suggested that the annual average potential net primary production (NPPp) fluctuated during the study period and peaked in 2008 (347.37 g C m-2 year-1), while the total wetland NPPp peaked in 2000 (1.75 Tg C year-1). The results also showed that the annual average actual net primary production (NPPa) reached the lowest value of 206.04 g C m-2 year-1 in 2000. The total wetland NPPa ranged from 0.97 to 1.15 Tg C year-1 and continuously decreased over the study period. Our research revealed that human activities accounted for 22.37–36.45% of wetland NPP reduction over the study period. These results suggested that reducing human interventions can improve the NPP of wetlands. However, some of the negative effects of human activities have been offset by ecological restoration projects. These results provide a reference and scientific support for wetland protection and sustainable development.

Published
2022
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11. Comparative Genomic and Transcriptomic Profiling Revealed the Molecular Basis of Starch Promoting the Growth and Proliferation of Balantioides coli

Author

Lizhuo Zhao, Kai He, Chuanqi Jiang, Guangying Wang, Suhui Hu, Tianqi Wang, Weifeng Qian, Zhiguo Wei, Jie Xiong, Wei Miao, and Wenchao Yan

Subjects
Balantioides coli, trophozoites, starch, transcriptomic analysis, comparative genomic analysis, proliferation, Veterinary medicine, SF600-1100, Zoology, QL1-991
Abstract

Carbohydrates are the main source of nutrition for B. coli, supplying energy for cell growth and development. The research aimed at investigating the mechanism of starch on the growth and replication of B. coli. Single-cell separation was used to isolate single trophozoites of B. coli under a stereomicroscope, transcriptomic profiling was conducted based on the SMART-seq2 single-cell RNA-seq method. Comparative genomic analysis was performed on B. coli and eight other ciliates to obtain specific and expanded gene families of B. coli. GO and KEGG enrichment analysis were used to analyze the key genes of B. coli under the action of starch in the present study. The results of single-cell RNA-seq depicts starch affected the growth and replication of B. coli in two ways: (1) the cell cycle was positively promoted by the activation of the cAMP/PKA signaling pathway via glycolysis; (2) the cell autophagy was suppressed through the PI3K/AKT/mTOR pathway. Genes involved in endocytosis, carbohydrate utilization, and the cAMP/PKA signaling pathway were highly enriched in both specific and expanded gene families of B. coli. Starch can be ingested and hydrolyzed into glucose, in turn affecting various biological processes of B. coli. The molecular mechanism of the effect of starch on the growth and proliferation of B. coli by promoting cell cycle and inhibiting the autophagy of trophozoites has been elucidated in our study.

Published
2023
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12. Plant Phenology and Its Anthropogenic and Natural Influencing Factors in Densely Populated Areas During the Economic Transition Period of China

Author

Peijun Ju, Wenchao Yan, Jianliang Liu, Xinwei Liu, Liangfeng Liu, Yixin He, and Huai Chen

Subjects
phenology, eastern China, climate change, urban, development, Environmental sciences, GE1-350
Abstract

As a sensitive, observable, and comprehensive indicator of climate change, plant phenology has become a vital topic of global change. Studies about plant phenology and its responses to climate change in natural ecosystems have drawn attention to the effects of human activities on phenology in/around urban regions. The key factors and mechanisms of phenological and human factors in the process of urbanization are still unclear. In this study, we analyzed variations in xylophyta phenology in densely populated cities during the fast urbanization period of China (from 1963 to 1988). We assessed the length of the growing season affected by the temperature and precipitation. Temperature increased the length of the growing season in most regions, while precipitation had the opposite effect. Moreover, the plant-growing season is more sensitive to preseason climate factors than to annual average climate factors. The increased population reduced the length of the growing season, while the growing GDP increased the length of the growing season in most regions (8 out of 13). By analyzing the impact of the industry ratio, we found that the correlation between the urban management of emerging cities (e.g., Chongqing, Zhejiang, and Guizhou) and the growing season is more significant, and the impact is substantial. In contrast, urban management in most areas with vigorously developed heavy industry (e.g., Heilongjiang, Liaoning, and Beijing) has a weak and insignificant effect on plant phenology. These results indicate that different urban development patterns can influence urban plant phenology. Our results provide some support and new thoughts for future research on urban plant phenology.

Published
2022
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13. Fractal-like photonic lattices and localized states arising from singular and nonsingular flatbands

Author

Yuqing Xie, Limin Song, Wenchao Yan, Shiqi Xia, Liqin Tang, Daohong Song, Jun-Won Rhim, and Zhigang Chen

Subjects
Applied optics. Photonics, TA1501-1820
Abstract

We experimentally realize fractal-like photonic lattices by use of the cw-laser-writing technique, thereby observing distinct compact localized states (CLSs) associated with different flatbands in the same lattice setting. Such triangle-shaped lattices, akin to the first generation Sierpinski lattices, possess a band structure where singular non-degenerate and nonsingular degenerate flatbands coexist. By proper phase modulation of an input excitation beam, we demonstrate not only the simplest CLSs but also their superimposition into other complex mode structures. Our experimental and numerical results are corroborated by theoretical analysis. Furthermore, we show by numerical simulation a dynamical oscillation of the flatband states due to beating of the CLSs that have different eigenenergies. These results may provide inspiration for exploring fundamental phenomena arising from the interplay of fractal structure, flatband singularity, and real-space topology.

Published
2021
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14. Cytosolic ME1 integrated with mitochondrial IDH2 supports tumor growth and metastasis

Author

Chang Shao, Wenjie Lu, Ye Du, Wenchao Yan, Qiuyu Bao, Yang Tian, Guangji Wang, Hui Ye, and Haiping Hao

Subjects
NADPH, ROS, ME1, IDH2, Reductive carboxylation, Metabolic adaptability, Medicine (General), R5-920, Biology (General), QH301-705.5
Abstract

NADPH is a pivotal cofactor that maintains redox homeostasis and lipogenesis in cancer cells and interference with NADPH production is a promising approach for treating cancer. However, how normal and cancer cells differentially exploit NADPH-producing pathways is unclear, and selective approaches to targeting NADPH are lacking. Here, we show that the assayed cancer cell lines preferentially depend on ME1-mediated NADPH production. ME1 knockdown increases intracellular ROS levels and impairs lipogenesis in cancer cells, leading to retarded proliferation and increased anoikis, while sparing normal cells. Notably, ME1 interference ultimately resulted in adaptive upregulation of mitochondrial IDH2 dependent of AMPK-FoxO1 activation to replenish the NADPH pool and mitigate cytosolic ROS. Combining ME1 ablation and IDH2 inhibition drastically reduces intracellular NADPH and prevents resistance to ME1 interference, resulting in increased apoptosis and impeded tumor growth and metastasis. This study demonstrates that cytosolic ME1 integrated with mitochondrial IDH2 is essential for tumor growth and metastasis, thereby highlighting the blockade of metabolic compensation by disrupting mitochondrial-cytosol NADPH transport as a promising approach to selectively targeting NADPH in cancer cells that rely on NADPH-driven antioxidant systems.

Published
2020
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15. Observation of quincunx-shaped and dipole-like flatband states in photonic rhombic lattices without band-touching

Author

Shiqiang Xia, Carlo Danieli, Wenchao Yan, Denghui Li, Shiqi Xia, Jina Ma, Hai Lu, Daohong Song, Liqin Tang, Sergej Flach, and Zhigang Chen

Subjects
Applied optics. Photonics, TA1501-1820
Abstract

We demonstrate experimentally the existence of compact localized states (CLSs) in a quasi-one-dimensional photonic rhombic lattice in the presence of two distinct refractive-index gradients (i.e., a driven lattice ribbon) acting as external electric fields. Such a lattice is composed of an array of periodically arranged evanescently coupled waveguides, which hosts a perfect flatband that touches both remaining dispersive bands when it is not driven. The external driving is realized by modulating the relative writing beam intensity of adjacent waveguides. We find that a y-gradient set perpendicularly to the ribbon preserves the flatband while removing the band-touching. The undriven dipole-like CLS—which occupies two lattice sites over one unit cell—turns into a quincunx-shaped CLS spanned over two unit cells. Instead, an x-gradient acting parallel to the ribbon yields a Stark ladder of the CLS whose spatial profile is unchanged with respect to the undriven case. We notably find that their superposition leads to Bloch-like oscillations in momentum space.

Published
2020
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16. Collimated gamma rays from laser wakefield accelerated electrons

Author

Minghua Li, Liming Chen, Dazhang Li, Kai Huang, Yifei Li, Yong Ma, Wenchao Yan, Mengze Tao, Junhao Tan, Zhengming Sheng, and Jie Zhang

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

Betatron radiation from laser wakefield accelerated electrons and X-rays scattered off a counter-propagating relativistic electron bunch are collimated and hold the potential to extend the energy range to hard X-ray or gamma ray band. The peak brightness of these incoherent radiations could reach the level of the brightest synchrotron light sources in the world due to their femtosecond pulse duration and source size down to a few micrometers. In this article, the principle and properties of these radiation sources are briefly reviewed and compared. Then we present our recent progress in betatron radiation enhancement in the perspective of both photon energy and photon number. The enhancement is triggered by using a clustering gas target, arousing a second injection of a fiercely oscillating electron bunch with large charge or stimulating a resonantly enhanced oscillation of the ionization injected electrons. By adopting these methods, bright photon source with energy over 100 keV is generated which would greatly impact applications such as nuclear physics, diagnostic radiology, laboratory astrophysics and high-energy density science.

Published
2018
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17. The Effects of a Mixed Precipitant on the Morphology and Electrochemical Performance of LiNi0.5Mn1.5O4 Cathode Materials

Author

Yang Shu, Wenchao Yan, Haisong Wang, Jicheng Jiang, Deye Sun, Xiaodi Ma, and Yongcheng Jin

Subjects
rapid precipitation, hydrothermal treatment, mixed precipitants, spherical morphology, Crystallography, QD901-999
Abstract

A series of LiNi0.5Mn1.5O4 (LNMO) samples were synthesized by adjusting the molar ratio of (NH4)2CO3 to Na2CO3 in a mixed precipitant for evaluating the effects of ammonia from (NH4)2CO3 as a complexing agent and Na2CO3 as a precipitant on the morphology and electrochemical performances of LNMO. In this research, a rapid precipitation method followed by hydrothermal treatment was used to prepare the precursors of LNMO, and different molar ratios (0:1, 1:2, 1:1, 2:1, 1:0) of (NH4)2CO3 to Na2CO3 were used for mixed precipitants. The test results revealed that the cathode material exhibits the best electrochemical performance when the molar ratio of (NH4)2CO3 to Na2CO3 is set at 1:2, displaying a specific discharge capacity of 129.4 mA h g−1 at 0.5 C and a capacity retention of 82.3% after 200 charge–discharge cycles. In addition, it still shows a high rate performance with a discharge capacity of 112.7 mA h g−1 at 10 C and 98.8 mA h g−1 at 20 C, which is attributed to an accurate Ni/Mn ratio, smaller primary particle sizes and a porous spherical morphology.

Published
2017
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18. piggyBac transposon-mediated transgenesis in the apicomplexan parasite Eimeria tenella.

Author

Huali Su, Xianyong Liu, Wenchao Yan, Tuanyuan Shi, Xinxin Zhao, Damer P Blake, Fiona M Tomley, and Xun Suo

Subjects
Medicine, Science
Abstract

piggyBac, a type II transposon that is useful for efficient transgenesis and insertional mutagenesis, has been used for effective and stable transfection in a wide variety of organisms. In this study we investigate the potential use of the piggyBac transposon system for forward genetics studies in the apicomplexan parasite Eimeria tenella. Using the restriction enzyme-mediated integration (REMI) method, E. tenella sporozoites were electroporated with a donor plasmid containing the enhanced yellow fluorescent protein (EYFP) gene flanked by piggyBac inverted terminal repeats (ITRs), an Asc I-linearized helper plasmid containing the transposase gene and the restriction enzyme Asc I. Subsequently, electroporated sporozoites were inoculated into chickens via the cloacal route and transfected progeny oocysts expressing EYFP were sorted by flow cytometry. A transgenic E. tenella population was selected by successive in vivo passage. Southern-blotting analysis showed that exogenous DNA containing the EYFP gene was integrated into the parasite genome at a limited number of integration sites and that the inserted part of the donor plasmid was the fragment located between the 5' and 3' ITRs as indicated by primer-specific PCR screening. Genome walking revealed that the insertion sites were TTAA-specific, which is consistent with the transposition characteristics of piggyBac.

Published
2012
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20. 4f → 3d sensitization: a luminescent EuII–MnII heteronuclear complex with a near-unity quantum yield

Author

Gang Yu, Huanyu Liu, Wenchao Yan, Ruoyao Guo, Aoben Wu, Zifeng Zhao, Zhiwei Liu, and Zuqiang Bian

Subjects
Mechanics of Materials, Process Chemistry and Technology, General Materials Science, Electrical and Electronic Engineering
Abstract

A new heteronuclear EuII–MnII complex with high photoluminescence quantum yield is designed and synthesized, which represents the first example of f → d molecular sensitization.

Published
2023

21. Europium(<scp>ii</scp>) complexes with substituted triethylenetetramine: new emitters to construct efficient deep blue organic light emitting diodes by spin coating

Author

Hao Qi, Tianming Zhong, Peihao Huo, Jiayin Zheng, Zifeng Zhao, Wenchao Yan, Zuqiang Bian, and Zhiwei Liu

Subjects
Materials Chemistry, General Chemistry
Abstract

We synthesized three efficient blue emitting Eu(ii) complexes with narrow full width at half maximums and fabricated the first deep blue OLEDs based on an Eu(ii) complex.

Published
2023

25. Ginkgo biloba extract ameliorates atherosclerosis via rebalancing gut flora and microbial metabolism

Author

Yun Wang, Yuanyuan Xu, Xiaowei Xu, Hong Wang, Dong Wang, Wenchao Yan, Jiaying Zhu, Haiping Hao, Guangji Wang, Lijuan Cao, and Jun Zhang

Subjects
Inflammation, Pharmacology, Mice, Plant Extracts, RNA, Ribosomal, 16S, Animals, Ginkgo biloba, Atherosclerosis, Gastrointestinal Microbiome
Abstract

The Ginkgo biloba leave extract (GbE) is widely applied in the prevention and treatment of atherosclerotic cardiovascular diseases in clinical practice. However, its mechanism of actions has not been totally elucidated. In this study, we confirmed the beneficial effects of GbE in alleviating hypercholesterolemia, inflammation and atherosclerosis in Ldlr

Published
2022

26. Microtwinning mechanism revealed by its orientation dependence and tension-compression asymmetry in γ′ precipitate-strengthened Ni-based superalloys

Author

Pengfei Qu, Wenchao Yang, Qiang Wang, Chen Liu, Jiarun Qin, Jun Zhang, and Lin Liu

Subjects
Ni-based superalloys, microtwinning, orientation dependence, tension-compression asymmetry, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Microtwinning is observed as an important mechanism in γ′ precipitate-strengthened Ni-based superalloys during service at intermediate temperatures. Here, the effect of crystal orientation and stress direction on microtwinning was investigated. The result indicates that the formation of microtwins exhibits orientation dependence and tension-compression asymmetry. Based on the analysis of slip and twinning competition behavior under different conditions, it is deemed that the a/2〈110〉 matrix dislocations would dissociate into a/6〈112〉 Shockley partials in the γ matrix and then a Shockley partial sheared γ’ phase and formed microtwins.

Published
2024
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27. 4f → 3d sensitization: a luminescent Eu

Author

Gang, Yu, Huanyu, Liu, Wenchao, Yan, Ruoyao, Guo, Aoben, Wu, Zifeng, Zhao, Zhiwei, Liu, and Zuqiang, Bian

Abstract

A new heteronuclear Eu

Published
2022

28. New insights into pyrite-hydrogen peroxide interactions during froth flotation: experimental and DFT study

Author

Qinbo Cao, Wenchao Yan, Dianwen Liu, Shuming Wen, and YanJun LI

Subjects
General Medicine
Abstract

Hydrogen peroxide (H2O2) is an efficient depressant for pyrite (FeS2) flotation. However, the depressing mechanism of H2O2 is not fully understood. In this paper, the depressing capacity of H2O2 for pyrite was examined by flotation tests. Results revealed that pyrite flotation could be inhibited by H2O2 at pH 6.4. The pyrite powder in H2O2 solution enhanced the release of O2 from H2O2. However, the O2 concentration in the solution was less than that of H2O2; thus, H2O2 is the major oxidant in the solution. Moreover, density functional theory calculations were performed to study the interactions between H2O2 and hydrated pyrite (100) surface. The H2O2 molecule tended to react with the pyrite surface to generate one S=O bond and an H2O molecule. The possible binding models of O2 molecules on the pyrite (100) surface were also studied for comparison. The O2 dissociation on the pyrite surface was more favorable than the adsorption of O2 as a whole. In addition, the orbital interaction in the S=O bond raised from the reaction of H2O2/O2 with the pyrite surface was also investigated by the density states analysis. These results provide some insights into the oxidizing effect of H2O2 in pyrite flotation.

Published
2022

29. Highly Efficient Heteroleptic Cerium(III) Complexes with a Substituted Pyrazole Ancillary Ligand and Their Application in Blue Organic Light-Emitting Diodes

Author

Hao Qi, Liding Wang, Peiyu Fang, Wenchao Yan, Ge Zhan, Zuqiang Bian, and Zhiwei Liu

Subjects
Photoluminescence, Chemistry, Ligand, Quantum yield, chemistry.chemical_element, Pyrazole, Inorganic Chemistry, chemistry.chemical_compound, Cerium, OLED, Physical chemistry, Quantum efficiency, Physical and Theoretical Chemistry, Luminescence
Abstract

Compared with red and green organic light-emitting diodes (OLEDs), blue is the bottleneck that restricts the wide development of OLEDs from being the next-generation technology for displays and lighting. As a new type of emitter, a Ce(III) complex shows many satisfactory advantages, such as a short excited-state lifetime, 100% theoretical exciton utilization efficiency, and tunable emission color. Herein we synthesized three heteroleptic Ce(III) complexes Ce(TpMe2)2(dtfpz), Ce(TpMe2)2(dmpz), and Ce(TpMe2)2(dppz) with the hydrotris(3,5-dimethylpyrazolyl)borate (TpMe2) main ligand and different substituted pyrazole ancillary ligands, namely, 3,5-di(trifluomethyl)pyrazolyl (dtfpz), 3,5-dimethylpyrazolyl (dmpz), and 3,5-diphenylpyrazolyl (dppz), and studied their structures and luminescence properties. All the Ce(III) complexes exhibited a near-unity photoluminescence quantum yield both in solution and as a powder with maximum emission wavelengths in the range of 450-486 nm. The OLED employing Ce(TpMe2)2(dppz) as the emitter showed the best performance, including a turn-on voltage, maximum luminance, and external quantum efficiency of 3.2 V, 29 200 cd m-2, and 12.5%, respectively.

Published
2021

30. Realization of Second-Order Photonic Square-Root Topological Insulators

Author

Wenchao Yan, Zhigang Chen, Daohong Song, Junfang Xie, Jingjun Xu, Shiqi Xia, and Liqin Tang

Subjects
Physics, business.industry, Order (ring theory), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Lattice (module), Theoretical physics, Square root, Topological insulator, Electrical and Electronic Engineering, Photonics, business, Realization (systems), Hamiltonian (control theory), Biotechnology
Abstract

Square-root higher-order topological insulators (HOTIs) are recently discovered new topological phases, with intriguing topological properties inherited from a parent lattice Hamiltonian. Different...

Published
2021

31. Lanthanide Cerium(III) Tris(pyrazolyl)borate Complexes: Efficient Blue Emitters for Doublet Organic Light-Emitting Diodes

Author

Zuqiang Bian, Ao Ying, Gang Yu, Lian Duan, Chunhui Huang, Zhiwei Liu, Wenchao Yan, Yuewei Zhang, Liding Wang, Ge Zhan, Shaolong Gong, Zifeng Zhao, Yanyi Huang, Peihao Huo, and Peiyu Fang

Subjects
Lanthanide, Photoluminescence, Materials science, Physics::Instrumentation and Detectors, Exciton, chemistry.chemical_element, Electroluminescence, Photochemistry, Cerium, chemistry, OLED, Electronic effect, General Materials Science, Quantum efficiency
Abstract

Organic light-emitting diodes (OLEDs) have had commercial success in displays and lighting. Compared to red and green OLEDs, blue OLEDs are still the bottleneck because the high-energy and long-lived triplet exciton in traditional blue OLEDs causes the short operational lifetime of the device. As a new type emitter, lanthanide complexes with a 5d-4f transition could have short excited-state lifetimes on the order of nanoseconds. To achieve a high-efficiency 5d-4f transition, we systematically tuned the steric and electronic effects of tripodal tris(pyrazolyl)borate ligands and drew a full picture of their Ce(III) complexes. Intriguingly, all of these complexes show bright blue emission with high photoluminescence quantum yields exceeding 95% and short decay lifetimes of 35-73 ns both in the solid powder and in dichloromethane solutions. Using the Ce(III) complex emitter, we show a blue OLED with a maximum external quantum efficiency of 14.1% and a maximum luminance of 33,160 cd m-2, and the specific electroluminescence mechanism of direct exciton formation on the Ce(III) ion with a near-unity exciton utilization efficiency is also confirmed. The discovered photoluminescence and electroluminescence property-structure relationships may shed new light on the rational design of highly efficient lanthanide-based blue emitters and their optoelectronic devices such as OLEDs.

Published
2021

32. Living Cell-Target Responsive Accessibility Profiling Reveals Silibinin Targeting ACSL4 for Combating Ferroptosis

Author

Wenchao Yan, Dexiang Wang, Ning Wan, Shun Wang, Chang Shao, Hanqing Zhang, Zhou Zhao, Wenjie Lu, Yang Tian, Hui Ye, and Haiping Hao

Subjects
Arachidonic Acid, Silybin, Coenzyme A Ligases, Humans, Ferroptosis, Hep G2 Cells, Ligands, Analytical Chemistry
Abstract

We report a living cell-target responsive accessibility profiling (LC-TRAP) approach to identify the targetome of silibinin (SIL), a well-established hepatoprotective natural product (NP), in HepG2 cells. Proteins showing accessibility changes, probed by covalent lysine labeling reagents and leveraged by multiplexed quantitative proteomics, following the administration of SIL to the living cells were assigned as potential targets. Among the assigned targetome, ACSL4, an enzyme essential for ferroptosis induction, might be involved in the hepatoprotective effects of SIL and hence was intensively validated. We first demonstrated that SIL protected HepG2 cells from ferroptosis dependent on ACSL4. Then, we used biophysical assays and a SIL-derivatized chemical probe to corroborate that SIL can bind to ACSL4. The ensuing enzymatic assays showed that SIL inhibited ACSL4 enzymatic activity, thereby mitigating the ACSL4-mediated ferroptosis. As such, we revealed that ACSL4 inhibition, using SIL as a model compound, represents a promising hepatoprotective strategy. Further, since TRAP probes the accessibility changes of reactive proteinaceous lysines, it can pinpoint the proximal regions where the ligand engagement may occur. Thus, the LC-TRAP analysis of SIL, the newly discovered ligand of ACSL4, and arachidonic acid (AA), the substrate, intriguingly showed that SIL and AA both affected the conformation of the K536-proximal region of ACSL4, albeit through distinct binding patterns. Collectively, we describe a straightforward LC-TRAP workflow that does not involve ligand-derived probe synthesis and is widely applicable to target discovery of NPs.

Published
2022

35. Topological edge states in photonic decorated trimer lattices

Author

Wenchao Yan, Weizhao Cheng, Weijie Liu, and Feng Chen

Subjects
Atomic and Molecular Physics, and Optics
Abstract

In recent years, topological insulators have been extensively studied in one-dimensional periodic systems, such as Su–Schrieffer–Heeger and trimer lattices. The remarkable feature of these one-dimensional models is that they support topological edge states, which are protected by lattice symmetry. To further study the role of lattice symmetry in one-dimensional topological insulators, here we design a modified version of the conventional trimer lattices, i.e., decorated trimer lattices. Using the femtosecond laser writing technique, we experimentally establish a series of one-dimensional photonic decorated trimer lattices with and without inversion symmetry, thereby directly observing three kinds of topological edge state. Interestingly, we demonstrate that the additional vertical intracell coupling strength in our model can change the energy band spectrum, thereby generating unconventional topological edge states with a longer localization length in another boundary. This work offers novel insight into topological insulators in one-dimensional photonic lattices.

Published
2023

38. Virtual screening for the discovery of lawsone derivatives as PS Ⅱ inhibitors

Author

Qingqing Wang, Wei Zhang, Fangping Zhong, Wenchao Yang, and Xiuhai Gan

Subjects
Virtual screening, Photosystem II D1 protein, Lawsone, Herbicidal activity, Molecular docking, Chemistry, QD1-999
Abstract

Photosynthesis system Ⅱ (PS Ⅱ) inhibitors can block electron transport and disrupt plant photosynthesis and are used as herbicides. In order to develop new and effective PS II inhibitors, the lead structure lawsone was first found with remarkable herbicidal activity based on a virtual screening strategy, and its derivatives were designed and synthesized. The results of herbicidal activity evaluation showed that most of the compounds could achieve more than 80 % inhibitory effect on roots and stems of Portulaca oleracea at a dose of 100 μg/mL. Meanwhile, compound 4d showed more than 90 % inhibition on the stem of P. oleracea and on the root of Echinochloa crusgalli, which were superior to lawsone (64.9 and 67.6 %) and atrazine (63.6 and 65.9 %), respectively. Interestingly, 4d exhibited 100 % post-emergence herbicidal activity to Amaranthus retroflexus and Abutilon theophrasti at a dosage of 300 g a.i./ha, which was similar to atrazine but superior to lawsone. In addition, compound 4d can affect the efficiency of the photochemical process and strong bind PS II D1 protein. It revealed that compound 4d can be used as a promising PS II D1 inhibitor. This study provides a promising lead compound for developing new PS II inhibitors.

Published
2024
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39. Prevalence and molecular identification of Balantioides coli isolates from pet guinea pigs in Central China

Author

Chaochao Lv, Min Zhang, Kai He, Chenyang Sun, Weifeng Qian, Han Lifang, Tianqi Wang, Zhiguo Wei, and Wenchao Yan

Subjects
China, medicine.medical_specialty, Veterinary medicine, Sequence analysis, Guinea Pigs, 030231 tropical medicine, DNA, Ribosomal, 030308 mycology & parasitology, Rodent Diseases, Guinea pig, Feces, 03 medical and health sciences, 0302 clinical medicine, Medical microbiology, Prevalence, medicine, Animals, Balantidiasis, 18s rdna, Phylogeny, Molecular identification, Ciliate, 0303 health sciences, General Veterinary, Molecular epidemiology, biology, Trichostomatina, Pets, General Medicine, DNA, Protozoan, biology.organism_classification, Infectious Diseases, Insect Science, Parasitology
Abstract

Balantioides coli is the only known zoonotic ciliate that can infect humans and is usually acquired from swine. It has, however, been reported in other mammals, including guinea pigs, where infection prevalence and molecular characterization are relatively unknown. In the present study, 32 guinea pigs from two different pet markets in Luoyang city of the Henan province in China were evaluated for ciliate-like trophozoites or cysts by direct fecal smear microscopy. Positive samples were further characterized using 18S rDNA and ITS1-5.8S rDNA-ITS2 sequence analysis. Microscopy indicated that ciliate-like cysts were observed in the fecal samples of several guinea pigs, were spherical in shape, and exhibited sizes of 40-65 μm in diameter. The average cyst-positive prevalence in guinea pigs was 62.5%. Sequence analysis indicated that the guinea pig-derived ciliate isolates belonged to B. coli and included two genetic variants (A and B), of which genetic variant A was more dominant among the guinea pig samples. To the best of our knowledge, the present study is the first molecular identification of B. coli in guinea pigs and provides some important information for investigating the molecular epidemiology of B. coli.

Published
2020

40. Tuning the ratio of Al2O3 to LiAlO2 in the composite coating layer for high performance LiNi0.5Mn1.5O4 materials

Author

Yang Shu, Su Meng, Lan Xiang, Yongcheng Jin, Deye Sun, Wenchao Yan, and Yin Xie

Subjects
010302 applied physics, Materials science, Scanning electron microscope, Process Chemistry and Technology, 02 engineering and technology, Electrolyte, 021001 nanoscience & nanotechnology, Electrochemistry, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, X-ray photoelectron spectroscopy, Chemical engineering, Transmission electron microscopy, law, 0103 physical sciences, Electrode, Materials Chemistry, Ceramics and Composites, Calcination, 0210 nano-technology, Layer (electronics)
Abstract

A series of Al compound-coated LiNi0.5Mn1.5O4 materials is synthesized by a facile calcination process under different temperatures. The effect of calcination temperature on physicochemical properties and electrochemical performance of Al-coated LiNi0.5Mn1.5O4 materials are investigated by using the X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS). The electrochemical properties of as-prepared materials showed that the C-500 sample (calcined at 500 °C) has excellent cycling performance and rate capability. Meanwhile, even at high operation temperature (55 °C), the capacity retention is 88% after 50 cycles at a rate of 0.5 C. Moreover, the crystal structure and surface morphology of C-500 sample after 200 cycles are also studied. All the results indicated that the composite coating layer with Al2O3 and LiAlO2 can not only reduce the side reactions at the electrode and electrolyte interface, but also provide an effective channel for the diffusion of Li+ in the charge/discharge process.

Published
2020

41. Molecular Detection and Genotyping ofToxoplasma gondiiandNeospora caninumin Slaughtered Goats in Central China

Author

Zhiguo Wei, Min Zhang, Tianqi Wang, Rongzhen Bai, Chaochao Lv, Weifeng Qian, and Wenchao Yan

Subjects
0303 health sciences, biology, 030306 microbiology, 040301 veterinary sciences, fungi, food and beverages, Central china, Toxoplasma gondii, 04 agricultural and veterinary sciences, biology.organism_classification, medicine.disease, Applied Microbiology and Biotechnology, Microbiology, Virology, Neospora caninum, Toxoplasmosis, Reproductive failure, 0403 veterinary science, 03 medical and health sciences, parasitic diseases, medicine, Animal Science and Zoology, Genotyping, Food Science
Abstract

Toxoplasma gondii and Neospora caninum infections can cause reproductive failure in animals, including goats, and toxoplasmosis is one of the most important foodborne diseases. However, information...

Published
2020

42. Photonic flat-band lattices and unconventional light localization

Author

Jingjun Xu, Shiqiang Xia, Wenchao Yan, Shiqi Xia, Zhigang Chen, Jina Ma, Liqin Tang, Daniel Leykam, Daohong Song, and Yi Hu

Subjects
Physics, super-honeycomb lattices, real-space topology, business.industry, QC1-999, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Atomic and Molecular Physics, and Optics, kagome and lieb lattices, Electronic, Optical and Magnetic Materials, Nanomaterials, 0103 physical sciences, Optoelectronics, flat-band states, Flat band, Electrical and Electronic Engineering, Photonics, 010306 general physics, 0210 nano-technology, business, noncontractible loop states, Biotechnology, artificial dirac materials
Abstract

Flat-band systems have attracted considerable interest in different branches of physics in the past decades, providing a flexible platform for studying fundamental phenomena associated with completely dispersionless bands within the whole Brillouin zone. Engineered flat-band structures have now been realized in a variety of systems, in particular, in the field of photonics. Flat-band localization, as an important phenomenon in solid-state physics, is fundamentally interesting in the exploration of exotic ground-state properties of many-body systems. However, direct observation of some flat-band phenomena is highly nontrivial in conventional condensed-matter systems because of intrinsic limitations. In this article, we briefly review recent developments on flat-band localization and the associated phenomena in various photonic lattices, including compact localized states, unconventional line states, and noncontractible loop states. We show that the photonic lattices offer a convenient platform for probing the underlying physics of flat-band systems, which may provide inspiration for exploring the fundamentals and applications of flat-band physics in other structured media from metamaterials to nanophotonic materials.

Published
2020

43. Air stable and efficient rare earth Eu(<scp>ii</scp>) hydro-tris(pyrazolyl)borate complexes with tunable emission colors

Author

Zhiwei Liu, Ge Zhan, Liding Wang, Chengbo Wang, Zifeng Zhao, Hao Qi, Chunhui Huang, Boxun Sun, Wenchao Yan, and Zuqiang Bian

Subjects
Steric effects, Ligand field theory, Materials science, chemistry.chemical_element, Crystal structure, Ion, Inorganic Chemistry, chemistry.chemical_compound, chemistry, Phenyl group, Physical chemistry, Luminescence, Boron, Europium
Abstract

Luminescent rare earth Eu(II) complexes with a characteristic 5d–4f transition have shown potential in various applications. However, the exploration and further application of typical Eu(II) complexes are strongly impeded by their instability arising from the easily oxidation of Eu2+ ions. In this work, three new Eu(II) complexes bis(hydro-tris(3-phenyl-5-methylpyrazolyl)borate)europium(II) (Eu(TpPh,Me)2), bis(hydro-tris(3-phenylpyrazolyl)borate)europium(II) (Eu(TpPh)2), and bis(hydro-tris(3,5-diphenylpyrazolyl)borate)europium(II) (Eu(TpPh2)2) were designed and synthesized. Their crystal structures, photophysical properties and air stabilities were characterized and discussed. It is found that the introduction of the bulky phenyl group not only increases the air stability by sterically hindering the central Eu2+ ions, but also tunes the maximum emission wavelength by influencing the ligand field. This work provides rules for regulating the luminescence properties of Eu(II) complexes as well as design basis for achieving stable and efficient Eu(II) complexes.

Published
2020

44. Deep-blue emitting cerium(III) complexes with tris(pyrazolyl)borate and triflate ligands

Author

Wenchao Yan, Zelun Cai, Hao Qi, Ruoyao Guo, Zhiwei Liu, and Zuqiang Bian

Subjects
Inorganic Chemistry
Abstract

Red, green and blue emitting materials, the three primary colors, are very important in lighting and display. Red-emitting Eu(III) complexes and green-emitting Tb(III) complexes exhibit high color purity and photoluminescence (PL) efficiency. However, it is difficult to realize efficient blue emission based on f-f transition. Alternatively, Ce

Published
2022

45. Realization of nontrivial higher-order topological corner states in photonic graphene

Author

Yuqing Xie, Wenchao Yan, Shiqi Xia, Yongsheng Liang, Liqin Tang, Daohong Song, Jingjun Xu, and Zhigang Chen

Abstract

We demonstrate nontrivial higher-order topology in photonic honeycomb lattices with different corner/edge geometries established by cw-laser-writing technique, unveiling two distinct corner states that are expected to represent features of higher-order topological Dirac semimetal.

Published
2022

46. Micro-size picosecond-duration fast neutron source driven by a laser–plasma wakefield electron accelerator

Author

Yaojun Li, Jie Feng, Wenzhao Wang, Junhao Tan, Xulei Ge, Feng Liu, Wenchao Yan, Guoqiang Zhang, Changbo Fu, and Liming Chen

Subjects
Nuclear and High Energy Physics, Nuclear Energy and Engineering, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials
Abstract

A pulsed fast neutron source is critical for applications of fast neutron resonance radiography and fast neutron absorption spectroscopy. However, due to the large transversal source size (of the order of mm) and long pulse duration (of the order of ns) of traditional pulsed fast neutron sources, it is difficult to realize high-contrast neutron imaging with high spatial resolution and a fine absorption spectrum. Here, we experimentally present a micro-size ultra-short pulsed neutron source by a table-top laser–plasma wakefield electron accelerator driving a photofission reaction in a thin metal converter. A fast neutron source with source size of approximately 500 μm and duration of approximately 36 ps has been driven by a tens of MeV, collimated, micro-size electron beam via a hundred TW laser facility. This micro-size ultra-short pulsed neutron source has the potential to improve the energy resolution of a fast neutron absorption spectrum dozens of times to, for example, approximately 100 eV at 1.65 MeV, which could be of benefit for high-quality fast neutron imaging and deep understanding of the theoretical model of neutron physics.

Published
2022

47. Orientation control of multiple single crystal blades using a novel high-throughput mold via seeding-grain selection technique

Author

Jiarun Qin, Wenchao Yang, Qiang Wang, Yuhan Zhou, Haitao Fu, Jun Zhang, and Lin Liu

Subjects
Directional solidification, Single crystal, Orientation control, High-throughput mold, Seeding-grain selection technique, Mining engineering. Metallurgy, TN1-997
Abstract

As the increasing demand for high temperature performance of the Ni-based single crystal blades, the orientation consistency of the blades has become more and more important. In this work, a novel high-throughput mold capable of producing four single crystal blades with exactly the same orientation was proposed. The effects of the two important parameters as connector height and blade placement angle on single crystal growth were investigated by ProCAST simulation. The results showed that the 90° connector with a height of 50 mm could obtain the most appropriate temperature gradient for the production of single crystal blades, and when the blades were placed at 120° and 270°, the flattest liquid isotherm could be obtained. However, due to the difference in the distance of the nucleation points from the mold center and the direction where the thin edge of the blade platform faced, the blade placed at 120° had a larger platform area occupied by the stray grains. Therefore, the structure of this mold was determined by using a 90° connector and placing blades at 270°. At last, using this mold, four single crystal blades with the same three-dimensional orientation and no stray grains were successfully produced. These results fully demonstrated the feasibility of this novel mold and also provided ideas for using simulation methods to guide the design of the new mold structure.

Published
2024
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48. New insights into pyrite-hydrogen peroxide interactions during froth flotation: experimental and DFT study.

Author

Qinbo Cao, Wenchao Yan, Shuming Wen, Dianwen Liu, and Yanjun Li

Subjects
ORBITAL interaction, DENSITY functional theory, HYDROGEN peroxide, PEROXIDES, DENSITY of states
Abstract

Hydrogen peroxide (H2O2) is an efficient depressant for pyrite (FeS2) flotation. However, the depressing mechanism of H2O2 is not fully understood. In this paper, the depressing capacity of H2O2 for pyrite was examined by flotation tests. Results revealed that pyrite flotation could be inhibited by H2O2 at pH 6.4. The pyrite powder in H2O2 solution enhanced the release of O2 from H2O2. However, the O2 concentration in the solution was less than that of H2O2; thus, H2O2 is the major oxidant in the solution. Moreover, density functional theory calculations were performed to study the interactions between H2O2 and hydrated pyrite (100) surface. The H2O2 molecule tended to react with the pyrite surface to generate one S=O bond and an H2O molecule. The possible binding models of O2 molecules on the pyrite (100) surface were also studied for comparison. The O2 dissociation on the pyrite surface was more favorable than the adsorption of O2 as a whole. In addition, the orbital interaction in the S=O bond raised from the reaction of H2O2/O2 with the pyrite surface was also investigated by the density states analysis. These results provide some insights into the oxidizing effect of H2O2 in pyrite flotation. [ABSTRACT FROM AUTHOR]

Published
2023
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