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2. Overexpression of Wheat Selenium-Binding Protein Gene TaSBP-A Enhances Plant Growth and Grain Selenium Accumulation under Spraying Sodium Selenite

Author

Tongtong Xiao, Jian Qiang, Haocheng Sun, Fei Luo, Xiaohui Li, and Yueming Yan

Subjects
wheat, selenium-binding protein, selenium enrichment, molecular docking, transcriptome, biofor-tification, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Selenium (Se) is an essential trace element for humans. Low concentrations of Se can promote plant growth and development. Enhancing grain yield and crop Se content is significant, as major food crops generally have low Se content. Studies have shown that Se biofortification can significantly increase Se content in plant tissues. In this study, the genetic transformation of wheat was conducted to evaluate the agronomic traits of non-transgenic control and transgenic wheat before and after Se application. Se content, speciation, and transfer coefficients in wheat grains were detected. Molecular docking simulations and transcriptome data were utilized to explore the effects of selenium-binding protein-A TaSBP-A on wheat growth and grain Se accumulation and transport. The results showed that TaSBP-A gene overexpression significantly increased plant height (by 18.50%), number of spikelets (by 11.74%), and number of grains in a spike (by 35.66%) in wheat. Under normal growth conditions, Se content in transgenic wheat grains did not change significantly, but after applying sodium selenite, Se content in transgenic wheat grains significantly increased. Analysis of Se speciation revealed that organic forms of selenomethionine (SeMet) and selenocysteine (SeCys) predominated in both W48 and transgenic wheat grains. Moreover, TaSBP-A significantly increased the transfer coefficients of Se from solution to roots and from flag leaves to grains. Additionally, it was found that with the increase in TaSBP-A gene overexpression levels in transgenic wheat, the transfer coefficient of Se from flag leaves to grains also increased.

Published
2024
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3. Study on Spectrum Shifting and Pulse Splitting of Mode-Locked Fiber Lasers Based on NPR Technology

Author

Zhenhua Hao, Yu Hu, Siyu Zhou, Jinhui Liu, Xiaohui Li, Yishan Wang, and Cunxiao Gao

Subjects
mode-locked laser, nonlinear polarization rotation, spectrum shift, multi-pulse, Chemistry, QD1-999
Abstract

We conducted a systematic investigation into the spectral and pulse characteristics of C and L-band Nonlinear Polarization Rotation (NPR) mode-locked fiber lasers effectively employing nonlinear polarization rotation technology. In our experimental setup, we achieved a stable mode-locked state at 1560.076 nm, exhibiting a 3 dB spectral bandwidth of 9.1 nm. As the pump power increased, we observed spectral shifts accompanied by shifts in the first Kelly sideband and the generation of new Kelly sidebands. In this paper, the phenomenon of spectral deviation is elucidated through the interplay of self-phase modulation, group velocity drift, and polarization-dependent isolator (PD-ISO) filter effect, with an analysis of the formation and deviation of Kelly sidebands. Notably, spectral shift persisted even when the pump power exceeded 200 mW. However, continuous pump power escalation led to soliton splitting, resulting in the formation of new soliton beams. Based on the simultaneous generation of spectral shift and pulse splitting, our study contributes to an enhanced understanding of soliton dynamics in ultrafast fiber lasers and lays a foundation for the application of high-repetition-frequency harmonic mode-locked lasers with tunable wavelengths.

Published
2024
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4. Direct Conversion of Ethanol to Propylene over Zn-Modified HBeta Zeolite: Influence of Zinc Precursors

Author

Ting Bai, Xiaohui Li, Liang Ding, Jin Wang, Yong-Shan Xiao, and Bin Cao

Subjects
ethanol, propylene, HBeta zeolite, zinc precursors, acidity, coke deposition, Chemical technology, TP1-1185, Chemistry, QD1-999
Abstract

A series of Zn-modified HBeta (Zn/HBeta) catalysts were prepared via the wetness impregnation method with different zinc precursors such as ZnSO4·7H2O, ZnCl2, C4H6O4Zn·2H2O and Zn(NO3)2·6H2O, and their catalytic performance in the conversion of ethanol to propylene reaction was evaluated. Results indicate that the amount and strength distribution of the acid sites of the Zn/HBeta catalysts were easily tuned by employing different types of zinc precursors. More importantly, when the zinc species were introduced to the HBeta, the propylene yield was significantly enhanced, whereas the yields of ethylene and C2–C4 alkanes were remarkably suppressed. For the catalyst prepared by using the ZnCl2 precursor, a higher propylene yield of up to 43.4% for Zn/HBeta-C was achieved as a result of the moderate amount and strength distribution of acid sites. The average coking rate of the used Zn/HBeta catalysts strongly depended on the amount of total acid sites, especially the strong acid sites, i.e., the higher the amount of total acid sites of the catalyst, the greater the average coking rate. For the catalyst prepared by using the ZnSO4·7H2O precursor, Zn/HBeta-S exhibited a better stability even after depositing more coke, which was due to the higher amount of strong acid sites.

Published
2024
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5. Experimental Investigation on Effects of Water Injection on Rock Frictional Sliding and Its Implications for the Mechanism of Induced Earthquake

Author

Yuanmin Huang, Lei Zhang, Shengli Ma, and Xiaohui Li

Subjects
pressurized water injection, rock permeability, fault contact state, actual pore pressure, rate-and-state friction law, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

This study conducted water-induced fault slip experiments on saw-cut granite, sandstone, and limestone samples. Experimental results demonstrated that injecting 15 MPa pressurized water into the vicinity of a high-permeability sandstone fault could decrease the effective normal stress and induce fault slip but not significantly affect the stress of granite and limestone faults due to low permeability. When the pressurized water was injected into the fault plane, 1 MPa pressurized water could not significantly affect fault stress; however, the 15 MPa pressurized water caused a significant reduction in frictional strength and induced fault sliding. The actual pore pressure differed from the injection pressure and showed significant differences in three faults, resulting in the apparent difference in stress drop, slip duration, displacement, and sliding rate. Three faults showed velocity-strengthening properties at room temperature. The fault slip caused by 15 MPa pressurized water injection was a direct response of fault strength to the reduction in effective normal stress. The limestone fault was characterized by velocity-weakening behavior at 100 °C, and the sliding rate of the fault induced by the 15 MPa pressurized water injection was faster than that at room temperature. The experiment results suggest that high-pressure injection can dominate over velocity-dependent effects, inducing fault-unstable slips in velocity-strengthening faults, but is more likely to induce medium-strong earthquakes on the velocity-weakening fault.

Published
2023
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6. Removal of Taste and Odor Compounds from Water: Methods, Mechanism and Prospects

Author

Feng Wang, Xiaohui Li, Tingting Liu, Xiang Li, Yi Cui, Ling Xu, Shuhao Huo, Bin Zou, Jingya Qian, Anzhou Ma, and Guoqiang Zhuang

Subjects
taste and odor (T&O) compounds, drinking water, water treatment, removal technologies, degradation pathway, Chemical technology, TP1-1185, Chemistry, QD1-999
Abstract

In recent years, taste and odor (T&O) compounds in drinking water are becoming a serious problem, which has brought many challenges to drinking water treatment plants. Due to global concerns about the emergence of T&O compounds, researchers have proposed various water treatment technologies to ensure the quality of drinking water. In this paper, abiotic and biotic methods for the treatment of T&O compounds are reviewed, including process parameters, advantages and disadvantages, removal efficiency and mechanism. Geosmin (GSM) and 2-methylisoborneol (2-MIB) are the most common odorous substances with earthy and musty smells. The chemical and biological methods for the possible degradation pathways of these two compounds are summarized. Furthermore, suggestions and approaches are provided for efficient and safe strategies for T&O compound treatments and their future applications.

Published
2023
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7. Health risk assessment of heavy metals in soils and food crops from a coexist area of heavily industrialized and intensively cropping in the Chengdu Plain, Sichuan, China

Author

Qing Liu, Xiaohui Li, and Lei He

Subjects
heavy metals, food crops, health risk, daily intake, Chengdu Plain, Chemistry, QD1-999
Abstract

Environmental pollution caused by rapid industrial activities are becoming increasingly drastic, particularly its impact on soil and plant health. The present study was conducted to investigate the heavy metal (loid) (As, Cd, Cu, Hg, Pb, and Zn) concentrations in soils and food biomass crops and estimate the potential health risks of metals to humans via consumption of contaminated food biomass crops from Shifang, a periurban agricultural areas in the Chengdu Plain, Sichuan, China. Results revealed that the soils have been experiencing a substantial accumulation of heavy metals, especially for Cd, with a mean of 0.84 mg kg−1, about six times higher than the background values, of which 98% exceeded the pollution warning threshold of the China Soil Environmental Quality Standards. A total of 78% of all the grain part failed the national food standard for Cd. No significantly positive relationships between metal levels in food biomass crops and in the corresponding soils, indicated metals enrichment in soils were not entirely reflected to crops contaminant burdens. Estimated daily intake (EDI) of all the metals except for Pb, exceeded the oral reference dose (RfD) or the minimal risk levels recommended by USEPA and ATSDR. Target hazard quotients (THQs) of all the metals except for Cd was less than one indicated that potential health risk to the local inhabitant originated mainly from Cd exposure via cereals consumption. Mitigation strategies to curtail Cd-contaminated soils and crops Cd burdens need careful tailoring to meet the needs of health and safety in this region.

Published
2022
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10. Secure and Efficient Federated Gradient Boosting Decision Trees

Author

Xue Zhao, Xiaohui Li, Shuang Sun, and Xu Jia

Subjects
horizontal federated learning, data security, gradient boosting decision tree, privacy protection, LSH, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

In recent years, federated GBDTs have gradually replaced traditional GBDTs, and become the focus of academic research. They are used to solve the task of structured data mining. Aiming at the problems of information leakage, insufficient model accuracy and high communication cost in the existing schemes of horizontal federated GBDTs, this paper proposes an algorithm of gradient boosting decision trees based on horizontal federated learning, that is, secure and efficient FL for GBDTs (SeFB). The algorithm uses locality sensitive hashing (LSH) to build a tree by collecting similar information of instances without exposing the original data of participants. In the stage of updating the tree, the algorithm aggregates the local gradients of all data participants and calculates the global leaf weights, so as to improve the accuracy of the model and reduce the communication cost. Finally, the experimental analysis shows that the algorithm can protect the privacy of the original data, and the communication cost is low. At the same time, the performance of the unbalanced binary data set is evaluated. The results show that SeFB algorithm compared with the existing schemes of horizontal federated GBDTs, the accuracy is improved by 2.53% on average.

Published
2023
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11. Molecular Beam Epitaxy Growth of Quantum Wires and Quantum Dots

Author

Xiaohui Li, Qian Xu, and Ziyang Zhang

Subjects
n/a, Chemistry, QD1-999
Abstract

Molecular beam epitaxy technology has a significant advantage in semiconductor technology due to its strong controllability, especially for the preparation of materials such as quantum wires and quantum dots [...]

Published
2023
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13. Mechanism and Equivalence of Single Event Effects Induced by 14 MeV Neutrons in High-Speed QDR SRAM

Author

Shaohua Yang, Zhangang Zhang, Zhifeng Lei, Teng Tong, Xiaohui Li, Kai Xi, and Fugen Wu

Subjects
SEE, SBU, MCU, QDR-SRAM, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Single-bit upset (SBU) and multiple-cell upset (MCU) features of high-speed QDR-SRAM are revealed under the 14 MeV neutron irradiation. By comparing with the high-altitude real atmosphere test results directly, the equivalence of 14 MeV neutrons for atmospheric neutron-induced single event effect (SEE) evaluation is investigated. It is found that, compared with the 65 nm planar device, the SBU cross-section of 14 nm FinFET SRAM decreases to 1/58 and the proportion of MCU shows little difference, which results from the narrow channel between fin and substrate caused by shallow channel isolation in 14 nm FinFET process, and the charge sharing effect between fins is weakened. The SBU and MCU cross-sections under the 14 MeV neutron irradiation are underestimated by 22.8% and 85.7%, respectively. Besides, the probability and maximum size of MCU are both smaller than those in the real atmosphere. The MCU shape tends to be vertical, resulting from the smaller vertical spacing of sensitive volumes (about 100 nm). Further Monte-Carlo simulation shows that the total yield of secondary ions produced by atmospheric neutrons is higher than that produced by 14 MeV neutrons. Major Components of the “useful” products are p, Si, α, etc., which are the main cause of SBU events. Besides, compared with 14 MeV neutrons, atmospheric neutrons generate more kinds of secondary ions in the SV within the scope from p to W, and the diverse high-Z elements, such as W, Ta, Hf, etc., are the main cause of MCU events. Moreover, the maximum LET of secondary ions can reach 31.5 MeV·cm2/mg. The equivalence of using 14 MeV neutrons for atmospheric neutron-induced SEE evaluation is closely related to the critical charge of the device under test.

Published
2022
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14. Influence of Coupling Effects between Gravel Soil Porosity and Cement Grout Weight on Diffusion Laws and Morphologies of Penetration Grouting

Author

Zhiquan Yang, Yuqing Liu, Mao Chen, Xiangpeng Wang, Changwen Ye, Xiaohui Li, Wentao Chen, Yi Yang, Bojun Wang, Chengjin Li, and Juntao Wang

Subjects
gravel soil porosity, cement grout weight, coupling effect, space diffusion morphology of ellipsoid, morphological deviation rate, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The practice and theory of grouting engineering show that both injected medium porosity and grouting fluid weight play an important influence on the diffusion law and morphology of penetration grouting. However, the effects have not been well studied in the context of existing penetration grouting mechanisms. In this paper, the actual diffusion law and morphology of cement grout into the gravel soil are studied on the basis of indoor experiments, mathematical statistics, and theoretical analyses. Then, the three-dimensional space diffusion trajectory equation was quantitatively characterized. The influence of the coupling effect between gravel soil porosity and cement grout weight on diffusion morphologies of penetration grouting was discussed by the definition of the morphological deviation rate. Results show that actual penetration diffusion dimensions of cement grout into the gravel soil differ from that of theoretical values calculated by the penetration grouting mechanism, and its spatial diffusion morphology is approximated as ellipsoid. The coupling effect between gravel soil porosity and cement grout weight have a relatively significant effect on the diffusion morphologies of penetration grouting except for gravel soil with porosity 0.5. The research results can provide theoretical support and technical references for the practical grouting engineering of gravel soil.

Published
2022
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15. Double Perovskite Ba2LaTaO6 for Ultrafast Fiber Lasers in Anomalous and Normal Net Dispersion Regime

Author

Yiqing Shu, Mingqi An, Penglai Guo, Xun Yuan, Leiming Wu, Zhitao Lin, Weicheng Chen, Xiaohui Li, and Jianqing Li

Subjects
double perovskite oxide, Ba2LaTaO6, nonlinear optical response, anomalous and normal dispersion region, ultrafast fiber laser, Chemistry, QD1-999
Abstract

Double perovskites (DPs) have been attracting attention in an assortment of optoelectronic applications, for they hold advantages such as high quantum efficiency, long carrier migration distance and strong linear and nonlinear absorptions. As specific kinds of perovskites (PVKs), DPs are gifted with orthorhombic crystal structures which provide rich conversion combinations and broaden the space for research and application. However, few works have been reported about DPs in ultrafast photonics applications. In this article, a DP with chemical formula of Ba2LaTaO6 (BLT) was successfully synthesized by high-temperature solid phase method. The microstructures and morphologies were observed, and the linear and nonlinear absorption were characterized. By first using BLT as a novel saturable absorber in both normal and anomalous dispersion region fiber lasers, dual-wavelength soliton and dissipative soliton were successfully operated at C-band. This study affirms BLT’s nonlinear optical properties, lays the foundation for optical research on BLT, and meanwhile provides a meaningful reference for future development of pulsed lasers based on DPs.

Published
2022
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16. Broadband Quantum Dot Superluminescent Diode with Simultaneous Three-State Emission

Author

Cheng Jiang, Hongpei Wang, Hongmei Chen, Hao Dai, Ziyang Zhang, Xiaohui Li, and Zhonghui Yao

Subjects
molecular beam epitaxy, quantum dots, superluminescent light-emitting diodes, optical coherence tomography, excited states, Chemistry, QD1-999
Abstract

Semiconductor superluminescent light-emitting diodes (SLEDs) have emerged as ideal and vital broadband light sources with extensive applications, such as optical fiber-based sensors, biomedical sensing/imaging, wavelength-division multiplexing system testing and optoelectronic systems, etc. Self-assembled quantum dots (SAQDs) are very promising candidates for the realization of broadband SLED due to their intrinsic large inhomogeneous spectral broadening. Introducing excited states (ESs) emission could further increase the spectral bandwidth. However, almost all QD-based SLEDs are limited to the ground state (GS) or GS and first excited state (ES1) emission. In this work, multiple five-QD-layer structures with large dot size inhomogeneous distribution were grown by optimizing the molecular beam epitaxy (MBE) growth conditions. Based on that, with the assistance of a carefully designed mirror-coating process to accurately control the cavity mirror loss of GS and ESs, respectively, a broadband QD-SLED with three simultaneous states of GS, ES1 and second excited-state (ES2) emission has been realized, exhibiting a large spectral width of 91 nm with a small spectral dip of 1.3 dB and a high continuous wave (CW) output power of 40 mW. These results pave the way for a new fabrication technique for high-performance QD-based low-coherent light sources.

Published
2022
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18. Enhanced Electrochemical Performance of LiNi0.5Mn1.5O4 Composite Cathodes for Lithium-Ion Batteries by Selective Doping of K+/Cl− and K+/F−

Author

Aijia Wei, Jinping Mu, Rui He, Xue Bai, Xiaohui Li, Lihui Zhang, Yanji Wang, Zhenfa Liu, and Suning Wang

Subjects
LiNi0.5Mn1.5O4, K+/Cl− co-doping, K+/F− co-doping, rate capability, cycling stability, Chemistry, QD1-999
Abstract

K+/Cl− and K+/F− co-doped LiNi0.5Mn1.5O4 (LNMO) materials were successfully synthesized via a solid-state method. Structural characterization revealed that both K+/Cl− and K+/F− co-doping reduced the LixNi1−xO impurities and enlarged the lattice parameters compared to those of pure LNMO. Besides this, the K+/F− co-doping decreased the Mn3+ ion content, which could inhibit the Jahn–Teller distortion and was beneficial to the cycling performance. Furthermore, both the K+/Cl− and the K+/F− co-doping reduced the particle size and made the particles more uniform. The K+/Cl− co-doped particles possessed a similar octahedral structure to that of pure LNMO. In contrast, as the K+/F− co-doping amount increased, the crystal structure became a truncated octahedral shape. The Li+ diffusion coefficient calculated from the CV tests showed that both K+/Cl− and K+/F− co-doping facilitated Li+ diffusion in the LNMO. The impedance tests showed that the charge transfer resistances were reduced by the co-doping. These results indicated that both the K+/Cl− and the K+/F− co-doping stabilized the crystal structures, facilitated Li+ diffusion, modified the particle morphologies, and increased the electrochemical kinetics. Benefiting from the unique advantages of the co-doping, the K+/Cl− and K+/F− co-doped samples exhibited improved rate and cycling performances. The K+/Cl− co-doped Li0.97K0.03Ni0.5Mn1.5O3.97Cl0.03 (LNMO-KCl0.03) exhibited the best rate capability with discharge capacities of 116.1, 109.3, and 93.9 mAh g−1 at high C-rates of 5C, 7C, and 10C, respectively. Moreover, the K+/F− co-doped Li0.98K0.02Ni0.5Mn1.5O3.98F0.02 (LNMO-KF0.02) delivered excellent cycling stability, maintaining 85.8% of its initial discharge capacity after circulation for 500 cycles at 5C. Therefore, the K+/Cl− or K+/F− co-doping strategy proposed herein will play a significant role in the further construction of other high-voltage cathodes for high-energy LIBs.

Published
2021
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19. Gold Nanorods as Saturable Absorber for Harmonic Soliton Molecules Generation

Author

Yiqing Shu, Penglai Guo, Xiaohui Li, Guian Li, Peng Wang, Ge Shen, and Jianqing Li

Subjects
gold nanorods, non-linear optical properties, ultrafast photonics, mode-locked fiber laser, harmonic soliton molecules, Chemistry, QD1-999
Abstract

Gold nanorods (GNRs) has been investigated in the field of chemistry, optoelectronics, and medicine for their tenability, compatibility, electromagnetics, and excellent photonics properties. Especially, GNRs, used to generate ultrashort pulse, have been studied recently. However, multiple pulses evolution based on GNRs needs to be further explored. In this article, GNRs are synthesized by seed-mediated growth method, characterized systematically and been chosen as saturable absorber (SA) to apply in ultrafast photonics. The GNRs SA presents a saturable intensity of 266 MW/cm2, modulation depth of 0.6%, and non-saturable loss of 51%. Furthermore, a passively mode-locked erbium-doped fiber laser based on GNRs SA with femtosecond pulse is demonstrated. Thanks to the excellent properties of GNRs, by adjusting the cavity polarization direction with the proposed GNRs SA, soliton molecules operation with spectrum modulation period of 3.3 nm and pulse modulation interval of 2.238 ps is directly obtained. For the most important, 9th-order harmonic soliton molecules have been generated in the laser cavity for the first time. It is demonstrated that GNRs can be a novel type of non-linear optical (NLO) device and have potential applications in the field of ultrafast photonics.

Published
2019
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20. A Novel Maneuver-Based Driving Envelope Generation Approach for Driving Safety Assessment

Author

Bohan Jiang, Xiaohui Li, Yujun Zeng, and Daxue Liu

Subjects
advanced driver assistance systems, human-vehicle interaction, human-in-the-loop, driving envelope, collision avoidance, safety assessment, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

It is of utmost importance for advanced driver assistance systems to evaluate the risk of the current situation and make continuous decisions about what kind of evasive maneuver can be initiated. The purpose of this paper is to establish efficient indicators to evaluate the risk of candidate driving maneuvers for a human-in-the-loop vehicle. A novel safe driving envelope generation method is proposed, which takes various constraints into consideration, including the human operation, vehicle motion limits, and collision avoidance with road boundary and obstacles. The efficiency of the proposed method is validated by simulation experiments and real vehicle tests. The results show that the feasibility of candidate driving maneuvers can be efficiently determined by computing the driving envelope, and the proposed driving envelope method can be easily implemented for real-time applications.

Published
2021
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21. Fabrication and Magneto-Optical Property of (Dy0.7Y0.25La0.05)2O3 Transparent Ceramics by PLSH Technology

Author

Ding Zhou, Xiaohui Li, Tun Wang, Jiayue Xu, Zhanyong Wang, Ying Shi, Dmitry Permin, and Stanislav S. Balabanov

Subjects
(Dy0.7Y0.25La0.05)2O3, transparent ceramics, magneto-optical property, rare earth sesquioxide, Chemistry, QD1-999
Abstract

(Dy0.7Y0.25La0.05)2O3 magneto-optical transparent ceramics were successfully fabricated by pressureless sintering in reductive H2 atmosphere (PLSH). The raw powder of (Dy0.7Y0.25La0.05)2O3 was synthesized by a modified self-propagating high-temperature synthesis (SHS) and sintered to transparent ceramics at 1400–1600 °C in a flowing H2 atmosphere, showing good sinterability of the as-synthesized raw powder. The magneto-optical Verdet constant of (Dy0.7Y0.25La0.05)2O3 transparent ceramics was measured to be −191.57 rad/(T·m) at a wavelength of 632.8 nm. In this magneto-optical material of (Dy0.7Y0.25La0.05)2O3, relative cheaper Dy and Y were used to replace Tb, and the low cost and good magneto-optical property showed the advantage of application on Faraday isolators (FIs) and Faraday rotators (FRs).

Published
2020
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22. Correction:Chlamydia psittaci PmpD-N Modulated Chicken Macrophage Function by Triggering Th2 Polarization and the TLR2/MyD88/NF-κB Signaling Pathway

Author

Jun Chu, Xiaohui Li, Guanggang Qu, Yihui Wang, Qiang Li, Yongxia Guo, Lei Hou, Jue Liu, Francis O. Eko, and Cheng He

Subjects
n/a, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The authors would like to make the following corrections to their paper, published in the International Journal of Molecular Sciences [...]

Published
2020
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23. Chlamydia psittaci PmpD-N Exacerbated Chicken Macrophage Function by Triggering Th2 Polarization and the TLR2/MyD88/NF-κB Signaling Pathway

Author

Jun Chu, Xiaohui Li, Guanggang Qu, Yihui Wang, Qiang Li, Yongxia Guo, Lei Hou, Jue Liu, Francis O. Eko, and Cheng He

Subjects
chlamydia psittaci, hd11 macrophage, pmpd-n, signaling pathway, th2 immune response, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The polymorphic membrane protein D (PmpD) is a highly conserved outer membrane protein which plays an important role in pathogenesis during Chlamydia psittaci infection. In this study, we evaluated the ability of the N-terminus of PmpD (PmpD-N) to modulate the functions of chicken macrophages and the signaling pathway(s) involved in PmpD-N-induced Toll-like receptors (TLRs), as well as interleukin (IL)-6 and IL-10 cytokine secretions. Thus, HD11 macrophages were treated with exogenous and intracellular PmpD-N of C. psittaci. The chlamydial growth was evaluated by enumeration of chlamydial loads in the infected macrophages. The phagocytic function of macrophages following PmpD-N treatment was detected by fluorescein-labeled Escherichia coli (E. coli). The concentration of nitric oxide (NO) secreted by HD11 macrophages was measured by the amount of NO2- in the culture supernatant using the Griess method. The cytokine secretions were assessed using multiplex cytokine ELISA kits. Expression levels of TLRs, myeloid differentiation factor 88 (MyD88), and nuclear factor kappa B (NF-κB) were analyzed by a Western blotting assay, as well as a luciferase assay, while NF-κB p65 nuclear translocation was assessed by confocal microscopy. The nuclear translocation of the transcription factor NF-κB was confirmed by evaluating its ability to combine with the corresponding promoter using the electrophoretic mobility shift assay (EMSA). After treatment with exogenous or endogenous PmpD-N, chlamydial loads and phagocytic functions were reduced significantly compared with those of the plasmid vector group, while NO secretions were reduced significantly compared with those of the lipopolysaccharide (LPS) treatment. Stimulation of HD11 cells with PmpD-N provoked the secretion of the Th2 cytokines, IL-6, and IL-10 and upregulated the expression of TLR2, TLR4, MyD88, and NF-κB. Furthermore, inhibition of TLR2, MyD88, and NF-κB in HD11 cells significantly decreased IL-6 and IL-10 cytokine levels, while NO production and phagocytosis increased significantly, strongly suggesting their involvement in PmpD-N-induced Th2 cytokine secretion and macrophage dysfunction. Our data indicate that C. psittaci PmpD-N inhibited macrophage functions by activating the Th2 immune response and the TLR2/MyD88/NF-κB signaling pathway.

Published
2020
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24. Game-Based Resource Allocation Mechanism in B5G HetNets with Incomplete Information

Author

Weijia Feng and Xiaohui Li

Subjects
5g and beyond (b5g) heterogeneous networks (hetnets), resource allocation, game theory, incomplete information, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Ultra-dense and highly heterogeneous network (HetNet) deployments make the allocation of limited wireless resources among ubiquitous Internet of Things (IoT) devices an unprecedented challenge in 5G and beyond (B5G) networks. The interactions among mobile users and HetNets remain to be analyzed, where mobile users choose optimal networks to access and the HetNets adopt proper methods for allocating their own network resource. Existing works always need complete information among mobile users and HetNets. However, it is not practical in a realistic situation where important individual information is protected and will not be public to others. This paper proposes a distributed pricing and resource allocation scheme based on a Stackelberg game with incomplete information. The proposed model proves to be more practical by solving the problem that important information of either mobile users or HetNets is difficult to acquire during the resource allocation process. Considering the unknowability of channel gain information, the follower game among users is modeled as an incomplete information game, and channel gain is regarded as the type of each player. Given the pricing strategies of networks, users will adjust their bandwidth requesting strategies to maximize their expected utility. While based on the sub-equilibrium obtained in the follower game, networks will correspondingly update their pricing strategies to be optimal. The existence and uniqueness of Bayesian Nash equilibrium is proved. A probabilistic prediction method realizes the feasibility of the incomplete information game, and a reverse deduction method is utilized to obtain the game equilibrium. Simulation results show the superior performance of the proposed method.

Published
2020
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25. SVND Enhanced Metaheuristic for Plug-In Hybrid Electric Vehicle Routing Problem

Author

Xiaohui Li, Xuemin Shi, Yi Zhao, Huagang Liang, and Yuan Dong

Subjects
hybrid vehicle routing problem, memetic algorithm, sequential variable neighborhood descent, plug-in hybrid electric vehicle, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Plug-in Hybrid Electric Vehicles (PHEVs), as a new type of environmental-friendly low cost transportation, have attracted growing interests for logistics. The path-planning optimization for PHEV has become a major challenge. In fact, PHEV-based routing optimization is a type of hybrid vehicle routing problem (HVRP). Compared with the traditional Traveling Salesman Problem (TSP) and Vehicle Routing Problem (VRP), the PHEV routing problem should consider more constraints, such as time limits, capacity constraints (including fuel tank capacity and battery capacity), electric stations, fuel stations and so forth. In this paper, a Mixed Integer Linear Programming formulation is presented and a novel hybrid metaheuristic approach (HMA_SVND) is proposed. Our method is a combination of memetic algorithm (MA), sequential variable neighborhood descent (SVND) and a revised 2_opt method. Comparative studies show that our proposed method outperformed previous works.

Published
2020
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26. Ion-Exchange Chromatography Coupled With Dynamic Coating Capillary Electrophoresis for Simultaneous Determination of Tropomyosin and Arginine Kinase in Shellfish

Author

Linglin Fu, Jinru Zhou, Chong Wang, Xiaohui Li, Lei Zheng, and Yanbo Wang

Subjects
capillary electrophoresis, tropomyosin, arginine kinase, allergen, shellfish, food safety, Chemistry, QD1-999
Abstract

Tropomyosin (TM) and arginine kinase (AK) are known as two major allergens in seafood. For the first time, we demonstrate a newly developed ion-exchange chromatography coupled with dynamic coating capillary electrophoresis (IEC-DCCE) method to simultaneously analyze the TM and AK in shellfish. First, we have optimized the procedure of IEC for simple enrichment of TM and AK crude extract. By using 30 mM borate-borax at pH 9.0 with 0.3% (v/v) Tween-20 as a dynamic coating modifier for capillary electrophoresis (CE) separation, the migration time, separation efficiency and electrophoretic resolution greatly improved. The limits of detection (LOD) were 1.2 μg mL−1 for AK and 1.1 μg mL−1 for TM (S/N = 3), and the limits of quantification (LOQ) were 4.0 μg mL−1 for AK and 3.7 μg mL−1 for TM (S/N = 10). The recovery of AK ranged from 91.5 to 106.1%, while that of TM ranged from 94.0 to 109.5%. We also found that only when the concentrations of AK and TM were above LOD reported here, these proteins can stimulate human mast cell (LAD2) degranulation. Finally, the use of IEC-DCCE to analyze fresh shellfish samples highlights the applicability of this method for the simultaneous detection of these allergens in complex food systems.

Published
2018
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27. Prenatal Exposure to Lipopolysaccharide Results in Myocardial Fibrosis in Rat Offspring

Author

Xin Chen, Yujie Tang, Meng Gao, Shugang Qin, Jianzhi Zhou, and Xiaohui Li

Subjects
myocardial fibrosis, lipopolysaccharide, pyrrolidine dithiocarbamic acid, pregnant, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The epigenetic plasticity hypothesis indicates that exposure during pregnancy may cause adult-onset disorders, including hypertension, myocardial infarction and heart failure. Moreover, myocardial fibrosis coincides with hypertension, myocardial infarction and heart failure. This study was designed to investigate the effects of prenatal exposure to lipopolysaccharide (LPS) on myocardial fibrosis. The result showed that at six and 16 weeks of age, the LPS-treated offspring exhibited increased collagen synthesis, an elevated cardiac index (CI), higher mRNA levels of TIMP-2 and TGFβ and a reduced mRNA level of MMP2. The protein levels corresponded to the mRNA levels. The offspring that were prenatally treated with pyrrolidine dithiocarbamic acid (PDTC), an inhibitor of NF-κB, displayed improvements in the CI and in collagen synthesis. Moreover, PDTC ameliorated the expression of cytokines and proteins associated with myocardial fibrosis. The results showed that maternal inflammation can induce myocardial fibrosis in offspring during aging accompanied by an imbalance of TIMP-2/MMP2 and TGFβ expression.

Published
2015
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28. Compound K Attenuates the Development of Atherosclerosis in ApoE−/− Mice via LXRα Activation

Author

Li Zhou, Yu Zheng, Zhuoying Li, Lingxia Bao, Yin Dou, Yuan Tang, Jianxiang Zhang, Jianzhi Zhou, Ya Liu, Yi Jia, and Xiaohui Li

Subjects
atherosclerosis, compound K, reverse cholesterol transport, inflammasome, LXRα, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

Background: Atherosclerosis is a fundamental pathological process responded to some serious cardiovascular events. Although the cholesterol-lowering drugs are widely prescribed for atherosclerosis therapy, it is still the leading cause of death in the developed world. Here we measured the effects of compound K in atherosclerosis formation and investigated the probably mechanisms of the anti-antherosclerosis roles of compound K. Methods: We treated the atherosclerotic model animals (apoE−/− mice on western diet) with compound K and measured the size of atherosclerotic lesions, inflammatory cytokine levels and serum lipid profile. Peritoneal macrophages were collected in vitro for the foam cell and inflammasome experiments. Results: Our results show that treatment with compound K dose-dependently attenuates the formation of atherosclerotic plaques by 55% through activation of reverse cholesterol transport pathway, reduction of systemic inflammatory cytokines and inhibition of local inflammasome activity. Compound K increases the cholesterol efflux of macrophage-derived foam cells, and reduces the inflammasome activity in cholesterol crystal stimulated macrophages. The activation of LXRα may contribute to the athero-protective effects of compound K. Conclusion: These observations provide evidence for an athero-protective effect of compound K via LXRα activation, and support its further evaluation as a potential effective modulator for the prevention and treatment of atherosclerosis.

Published
2016
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29. Ti3C2 MXene with pillared structure for hybrid magnesium-lithium batteries cathode material with long cycle life and high rate capability

Author

Yanna Nuli, Yue Zhang, Yakun Tang, Xiaohui Li, Lang Liu, and Rui Sheng

Subjects
Materials science, Intercalation (chemistry), chemistry.chemical_element, Electrolyte, Cathode, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Biomaterials, Electronegativity, Colloid and Surface Chemistry, Chemical engineering, chemistry, Electrical resistivity and conductivity, law, Electrode, Lithium, Charge carrier
Abstract

Cationic surfactants (CS) pillared Ti3C2 composites (Ti3C2/CS) were prepared by a facile electrostatic assembly method, which have large interlayer spacing and slight N-doping. In hybrid magnesium-lithium batteries (HMLBs), the Ti3C2/CS composites exhibit excellent performance by utilizing both Li+ and Mg2+ as charge carriers. Among these composites, the Ti3C2/CTAB (CTC) electrode displays a reversible capacity of 115.9 and 60 mAh g-1 in APC/LiCl (APCL) and APC electrolytes at 0.1 A g-1, and it also exhibits excellent high rate performance and ultralong cycle performance. It is verified that CS is vital to significantly improve the diffusion kinetics of Mg2+ on the electrode surface. The CS can act as the conductive “bridge” which connects different Ti3C2 layers and the interlayer pillar which expands the interlayer distance. In addition, the N element in CS is effective in neutralizing electronegativity and enhancing electrical conductivity for the CTC electrode. The electrode design strategy can adapt to the synthesis of cathode materials with high rate capability in HMLBs.

Published
2022

30. Enhancing the performance of n-i-p perovskite solar cells by introducing hydroxyethylpiperazine ethane sulfonic acid for interfacial adjustment

Author

Putao Zhang, Xiaohui Li, Meiyue Liu, Yiming Chen, Shenghan Wu, and Shengjun Li

Subjects
chemistry.chemical_classification, Photocurrent, Photoactive layer, Materials science, chemistry, Passivation, Chemical engineering, Energy conversion efficiency, General Materials Science, Sulfonic acid, Surface energy, Perovskite (structure), Dielectric spectroscopy
Abstract

Although the power conversion efficiency (PCE) of perovskite solar cells (PSCs) has improved greatly in recent years, the challenges of efficiency and stability still need to be overcome before these solar cells can be used in commercial applications. Here, a weak acid buffer, hydroxyethyl piperazine ethane sulfonic acid (HEPES), is used to passivate the interface of an SnO2 electron transport layer (ETL) and a photoactive layer in n-i-p solar cells. The device efficiency based on a SnO2/HEPES ETL reaches 20.22%, which is 9.7% higher than that of the control (18.43%), and the device stability is also significantly improved. The improvement in the device performance is mainly due to the introduction of the HEPES interface layer to adjust the interface energy level, which also improves the crystallinity of the perovskite film and reduces the interface defects. Electrochemical impedance spectroscopy and transient photovoltage/photocurrent results show that the HEPES-modified PSCs have lower charge transfer resistance, weaker leakage current intensity and improved interfacial charge separation and transport.

Published
2022

31. Deep-blue-emitting nanoaggregates from carbazole-based dyes in water

Author

Xin Zhang, Qi Zhang, and Xiaohui Li

Subjects
Diffraction, Materials science, Carbazole, Metals and Alloys, Stacking, General Chemistry, Nuclear magnetic resonance spectroscopy, Antiparallel (biochemistry), Fluorescence, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Crystallography, chemistry, Transmission electron microscopy, Materials Chemistry, Ceramics and Composites, Single crystal
Abstract

New amphiphilic carbazole-based dyes assemble in water into deep-blue-emitting, highly fluorescent helical aggregates as observed by transmission electron microscopy and atomic force microscopy. Single crystal X-ray diffraction and NMR spectroscopy reveal that self-complementary, antiparallel H-bonding and π-π stacking interactions are the driving forces for the formation of these dye aggregates.

Published
2022

32. Enhanced cycling performance of Li ion batteries based on Ni-rich cathode materials with LaPO4/Li3PO4 co-modification

Author

Xiaohui Li, Xi Zhang, Jinping Mu, Aijia Wei, Jianmin Ge, Rui He, Lihui Zhang, Zhenfa Liu, and Xue Bai

Subjects
Fabrication, Materials science, Process Chemistry and Technology, Electrolyte, engineering.material, Ammonium dihydrogen phosphate, Cathode, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Ion, chemistry.chemical_compound, Coating, chemistry, Chemical engineering, law, Materials Chemistry, Ceramics and Composites, engineering, Thermal stability, Layer (electronics)
Abstract

The recent development of Li-ion batteries based on Ni-rich cathodes with high specific capacity has generated considerable interest. However, cathodes with a sufficiently high Ni concentration suffer from rapid capacity decay and poor thermal stability during charge/discharge cycling, which represents a substantial challenge toward commercialization. While the application of a coating layer has been demonstrated to be an effective means of solving this issue, this typically increases the complexity and expense of cathode material fabrication. The present work addresses this issue by applying a LaPO4/Li3PO4 (LP) layer on the surface of LiNi0.83Co0.11Mn0.06O2 cathode materials using a facile in situ coating method. This simple method functions concurrently with the high-temperature solid-state method employed for fabricating the cathode materials using Ni0.83Co0.11Mn0.06(OH)2 as a precursor with added ammonium dihydrogen phosphate (NH4H2PO4) and lanthanum nitrate (La(NO3)3). The modified cathode material reacts with residual Li, and forms a LP layer on the Ni-rich cathode surface, while a proportion of the La3+ diffuses into the layered LiNi0.83Co0.11Mn0.06O2 structure during the modification process. Experimental investigation indicates that the LP layer not only eliminates the residual Li, but also deters the formation of microcracks, and thereby inhibits reactions with the electrolyte during charge/discharge cycling. The LP-modified LiNi0.83Co0.11Mn0.06O2 sample is demonstrated to attain a capacity retention of 94% and 79.8% after 100 and 500 charge/discharge cycles conducted at 1C, respectively.

Published
2021

33. Immune correlates of NF-κB and TNFα promoter DNA methylation in Japanese flounder (Paralichthys olivaceus) muscle and immune parameters change response to vibrio anguillarum infection

Author

Xiaohui Li, Binghua Liu, Haishen Wen, Yun Li, Feng He, Jun Yang, Guangling Li, and Xin Qi

Subjects
Vibrio anguillarum, animal diseases, Flounder, In situ hybridization, Aquatic Science, Biology, Fish Diseases, chemistry.chemical_compound, Immune system, Animals, Environmental Chemistry, Luciferases, Vibrio, Tumor Necrosis Factor-alpha, Muscles, NF-kappa B, Promoter, NF-κB, General Medicine, Methylation, DNA Methylation, biology.organism_classification, Molecular biology, Olive flounder, chemistry, Vibrio Infections, DNA methylation
Abstract

Vibrio anguillarum infection can activate NF-κB/TNFα pathway in the immune organs of fish. Fish muscle is also an important immune organ, but the research on its immune function is few. Our aim was to study regulating mechanism of NF-κB and TNFα gene expressions in the muscle of Japanese flounder (Paralichthys olivaceus) which was under Vibrio anguillarum infection (0, 24, 48, 72 and 96 h). The results showed that the expressions of NF-κB and TNFα increased significantly at 48 h, and there was a significant positive correlation between them. In situ hybridization confirmed the co-existence of NF-κB and TNFα genes in Japanese flounder muscle. Interestingly, the expression of the TNFα gene was regulated by the DNA methylation and its methylation level was negatively correlated with the expression. The lowest methylation level of TNFα occurred at 48 h under Vibrio anguillarum infection (P 0.05). And more, when the fragment (-2122 ∼ -730) was deleted on TNFα gene promoter, double luciferase activity was the highest, indicating that fragment (-730-0) was the transcription factor binding region. The site (-78 ~ -69) on the fragment (-730-0) binding NF-κB was mutated, and double luciferase activity decreased significantly. The results confirmed that the site (-78 ~ -69) was indeed an important binding site for NF-κB. In addition, the activity of TNFα in the serum of Japanese flounder changed with the prolongation of vibrio anguillarum infection, and the concentration of other immune factors such as ALP, ALT, AST and LDH also changed in the muscle under vibrio anguillarum infection. They all showed a trend of first increasing and then decreasing. Above studies implied that Japanese flounder responded to Vibrio anguillarum infection at the immune level with the change of its methylation status and the activation of transcription factor. By studying the mechanism of immune pathways, understanding the response to immune stress is great significant to the research of fish breeding for disease resistance.

Published
2021

34. Effect of additives on iron recovery and dephosphorization by reduction roasting-magnetic separation of refractory high-phosphorus iron ore

Author

Tichang Sun, Shichao Wu, Jue Kou, Zheng-yao Li, and Xiaohui Li

Subjects
Chemistry, Scanning electron microscope, Mechanical Engineering, Phosphorus, Alloy, Metals and Alloys, Magnetic separation, chemistry.chemical_element, engineering.material, Apatite, Metal, Iron ore, Geochemistry and Petrology, Mechanics of Materials, visual_art, Materials Chemistry, engineering, visual_art.visual_art_medium, Roasting, Nuclear chemistry
Abstract

The effect of CaCO3, Na2CO3, and CaF2 on the reduction roasting and magnetic separation of high-phosphorus iron ore containing phosphorus in the form of Fe3PO7 and apatite was investigated. The results revealed that Na2CO3 had the most significant effect on iron recovery and dephosphorization, followed by CaCO3, the effect of CaF2 was negligible. The mechanisms of CaCO3, Na2CO3, and CaF2 were investigated using X-ray diffraction (XRD), scanning electron microscopy and energy dispersive spectrometry (SEM-EDS). Without additives, Fe3PO7 was reduced to elemental phosphorus and formed an iron-phosphorus alloy with metallic iron. The addition of CaCO3 reacted with Fe3PO7 to generate an enormous amount of Ca3(PO4)2 and promoted the reduction of iron oxides. However, the growth of iron particles was inhibited. With the addition of Na2CO3, the phosphorus in Fe3PO7 migrated to nepheline and Na2CO3 improved the reduction of iron oxides and growth of iron particles. Therefore, the recovery of iron and the separation of iron and phosphorus were the best. In contrast, CaF2 reacted with Fe3PO7 to form fine Ca3(PO4)2 particles scattered around the iron particles, making the separation of iron and phosphorus difficult.

Published
2021

35. Mechanistic Study of Tungsten Bipyridyl Tetracarbonyl Electrocatalysts for CO2 Fixation: Exploring the Roles of Explicit Proton Sources and Substituent Effects

Author

Xiaohui Li and Julien A. Panetier

Subjects
chemistry.chemical_compound, Bipyridine, chemistry, Yield (chemistry), Substituent, Physical chemistry, Density functional theory, Protonation, Reactivity (chemistry), General Chemistry, Catalysis, Dissociation (chemistry)
Abstract

Tungsten bipyridyl tetracarbonyl complexes were shown to reduce CO2 to CO in acetonitrile [Chem. Sci., 2014, 5, 1894–1900]. Here, we employ density functional theory (DFT) calculations to investigate the electronic structure and reactivity of a series of tungsten electrocatalysts, [W(bpy-R)(CO)4] (where R = H, CH3, tBu, OCH3, CF3, and CN), for the CO2 reduction reaction (CO2RR). Our proposed mechanism suggests that initial reduction of the starting material by two electrons is required to access the active catalyst upon CO dissociation, which is slightly endergonic, consistent with the slow product release observed experimentally. The doubly reduced species, which has a closed-shell singlet ground state, can bind CO2 via an η2-CO2 binding mode to yield the metallocarboxylate intermediate. Based on the energy span model, CO2 addition is the TOF-determining transition state (TDTS) in the presence of water as the proton source. Different substituents at the 4,4’-positions of the bipyridine ligand in [W(bpy-R)(CO)4] (R = H, CH3, tBu, OCH3, CF3, and CN) were considered to comprehend the substituent effects for CO2RR. DFT results show that electron-withdrawing substituents, such as CN and CF3, do not yield efficient CO2 reduction catalysts due to the necessity of forming high energy intermediates for the protonation steps, resulting in low TOFs and high overpotentials. Among electron-donating groups, the parent compound and tert-butyl substituted complex are the most active catalysts for CO2RR due to higher TOFs at low overpotentials. Overall, based on the energy span model and theoretical Tafel plots, our computational approach provides quantitative information for designing CO2 reduction electrocatalysts.

Published
2021

36. Metal-directed thiophene-carboxylate-based nickel(II) complexes as multifunctional electrochemical and fluorescent sensors for detecting different analytes

Author

Xiaohui Li, Yajun Mu, Guocheng Liu, Xiang-Xiang Liu, Jing Zhao, Pengpeng Shao, Yongqiang Chen, and Zhong Zhang

Subjects
Metal ions in aqueous solution, Metals and Alloys, Electrochemistry, Fluorescence, Inorganic Chemistry, Metal, chemistry.chemical_compound, chemistry, visual_art, Amide, Polymer chemistry, Materials Chemistry, visual_art.visual_art_medium, Thiophene, Carboxylate, Organometallic chemistry
Abstract

To investigate the effect of the sites of S-atoms in thiophene carboxylates on the structures of coordination polymers, two thiophene-mono-carboxylic acids (2-Htpc = thiophene-2-carboxylic acid and 3-Htpc = thiophene-3-carboxylic acid) and a fluorescent active semi-rigid amide [N,N′-bis(3-methyl pyridine-3-yl)-2,6-naphthalenediamide (L)] were selected to combine with electrochemically active metal ions of Ni(II), and two new coordination polymers (CPs), namely [Ni0.5(L)0.5(2-tpc)](H2O)]∙1.5H2O (1) and [Ni0.5(L)0.5(3-tpc)](H2O)]∙1.5H2O (2), were obtained through traditional hydrothermal methods. The single-crystal X-ray diffraction analyses of the two CPs show that there are similar zigzag chains with the crossed-stacking modes. The two CPs can act as multifunctional electrochemical sensors to detect NO2−, chloramphenicol, and L-ascorbic acid (AA) and fluorescent recognition of Fe3+ and Cr2O72−. The detection limits of 1 were 1.08 × 10−6, 1.18 × 10−4, and 1.06 × 10−4 for AA, Fe3+, and Cr2O72−. The corresponding values of 2 were 1.43 × 10−6, 2.06 × 10−4, and 2.06 × 10−4. Two Ni(II) coordination polymers showing the same crossed-stacking modes display electrochemical and fluorescent sensing properties for metal ions and anions.

Published
2021

38. Influence of Sodium Salts on Reduction Roasting of High-Phosphorus Oolitic Iron Ore

Author

Shichao Wu, Xiaohui Li, Zekun Chen, Tichang Sun, Jue Kou, and Chengyan Xu

Subjects
Reduction (complexity), Iron ore, Chemistry, Mechanical Engineering, High phosphorus, engineering, Economic Geology, General Chemistry, engineering.material, Geotechnical Engineering and Engineering Geology, Sodium salt, Roasting, Nuclear chemistry
Published
2021

40. Fabrication of Ni/ZnO/C hollow microspheres decorated graphene composites towards high-efficiency electromagnetic wave absorption in the Ku-band

Author

Ningning Li, Xiaohui Li, Yue Wu, and Ruiwen Shu

Subjects
Materials science, Fabrication, Graphene, Process Chemistry and Technology, Composite number, Reflection loss, Oxide, chemistry.chemical_element, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, Nickel, chemistry.chemical_compound, chemistry, law, Materials Chemistry, Ceramics and Composites, Composite material, Absorption (electromagnetic radiation), Bimetallic strip
Abstract

Developing light-weight, thin thickness and high-efficiency electromagnetic wave (EMW) absorbers is an effective strategy for dealing with the increasingly serious problem of electromagnetic radiation pollution. Herein, nickel/zinc oxide/carbon (Ni/ZnO/C) hollow microspheres decorated graphene composites were facilely prepared through the high-temperature pyrolysis of bimetallic NiZn metal-organic frameworks (MOFs) precursors. Morphological characterization results manifested that the Ni/ZnO/C microspheres with unique hollow structure were almost evenly anchored on the wrinkled surfaces of flake-like graphene. Moreover, the influences of additive amounts of graphene oxide (GO) in the MOFs precursors on the crystal structure, graphitization degree, micromorphology, magnetic properties, electromagnetic parameters and EMW absorption performance were investigated in detail. It was found that the superior EMW absorption performance could be achieved through facilely adjusting the additive amounts of GO in the precursors. As the additive amount of GO was equal to 60 mg, the obtained composite showed the comprehensive excellent EMW absorption performance. Notably, the optimal minimum reflection loss reached −57.5 dB at 16.5 GHz in the Ku-band under an ultrathin matching thickness of merely 1.34 mm, and the broadest effective absorption bandwidth achieved 5.6 GHz (from 12.4 to 18 GHz) when the thickness was 1.5 mm. Furthermore, the underlying EMW absorption mechanisms of as-prepared composites were revealed. It was believed that our results could be valuable for the structural design and EMW absorption performance modulation for MOFs derived magnetic carbon composites.

Published
2021

41. MAFG-AS1/MAFG positive feedback loop contributes to cisplatin resistance in bladder urothelial carcinoma through antagonistic ferroptosis

Author

Yanhong Zhou, Jianye Liu, Xiaoming Liu, Qinghai Zeng, Yan Liu, Wei Xiong, Xiaohui Li, Dan Xie, Qun Zhang, Dong He, Hao Bo, Jianda Zhou, Ming Zhou, Minhua Deng, Mengqing Xiao, Yuxing Zhu, Ke Cao, and Liang Xiang

Subjects
Cisplatin, Histone Acetyltransferase p300, Multidisciplinary, biology, Chemistry, 010502 geochemistry & geophysics, 01 natural sciences, Antisense RNA, Histone, Ubiquitin, Transcription (biology), biology.protein, Cancer research, medicine, EP300, Transcription factor, 0105 earth and related environmental sciences, medicine.drug
Abstract

Though promoting ferroptosis can reduce cisplatin resistance in tumor cells, ferroptosis and cisplatin resistance in bladder urothelial carcinoma (BUC) following long non-coding RNAs (lncRNAs) is largely unknown. Here, we found the highly expressed lncRNA MAF transcription factor G antisense RNA 1 (MAFG-AS1) in BUC, and its inhibition increased the sensitivity of BUC cells to cisplatin by promoting ferroptosis. Mechanically, binding to iron chaperone poly(rC)-binding protein 2 (PCBP2) facilitated the recruitments of MAFG-AS1 to deubiquitinase ubiquitin carboxyl-terminal hydrolase isozyme L5 (UCHL5), thus stabilizing PCBP2 protein itself. Then PCBP2 was confirmed to interact with ferroportin 1 (FPN1), an iron export protein, leading to inhibition of ferroptosis. Moreover, the expression of MAFG-AS1 was regulated by the transcriptional factor MAFG. Interestingly, MAFG-AS1 stimulated MAFG transcription by recruiting histone acetyltransferase p300 (EP300) to promote the histone 3 at lysine 27 (H3K27ac) at genomic locus of MAFG, forming a MAFG-AS1/MAFG positive feedback loop. In patient samples, higher expression of MAFG-AS1 and MAFG in BUC tissues was significantly correlated with T status and N status, such that MAFG-AS1, MAFG, and the combination of the two were independent prognostic indicators and chemotherapy sensitivity predictive biomarkers for BUC patients. These findings suggest that inhibition of MAFG-AS1 and MAFG can increase the sensitivity of BUC cells to cisplatin through promoting ferroptosis, indicating the novel chemotherapy sensitivity biomarkers and therapeutic target for BUC.

Published
2021

42. Enhancing the Electrochemical Properties of Ti-Doped LiMn2O4 Spinel Cathode Materials Using a One-Step Hydrothermal Method

Author

Huixin Jin, Hongyan Xie, Wenlei Li, Luo Fenglan, Xiaohui Li, Qiang Zhang, Yaqing Zhang, Li Yezhu, Chenzhe Li, and Kaifeng Li

Subjects
Materials science, General Chemical Engineering, Diffusion, Doping, Spinel, General Chemistry, Internal resistance, engineering.material, Electrochemistry, Article, Cathode, Hydrothermal circulation, law.invention, Chemistry, Chemical engineering, law, engineering, Cyclic voltammetry, QD1-999
Abstract

In this study, LiMn2-x Ti x O4 cathode materials were synthesized by a simple one-step hydrothermal method, and the effects of Ti doping on the sample structure and electrochemical properties were examined. The results indicated that Ti doping did not affect the spinel structure of LiMn2O4, and no other hybrid phases were produced. Furthermore, appropriate doping with Ti improved the particle uniformity of the samples. The electrochemical performance results showed that LiMn1.97Ti0.03O4 exhibited much better cycling performance than the undoped sample. The discharge capacity of LiMn1.97Ti0.03O4 reached 136 mAh g-1 at 25 °C at 0.2C, and the specific capacity reached 106.2 mAh g-1 after 300 cycles, with a capacity retention rate of 78.09%. Additionally, the specific capacity of LiMn1.97Ti0.03O4 was 102.3 mAh g-1 after 100 cycles at 55 °C, with a capacity retention rate of 75.44%. The Ti-doped samples thus exhibited an impressive high-rate performance. The discharge capacity of LiMn2O4 was only 31.3 mAh g-1 at 10C, while the discharge-specific capacity of LiMn1.97Ti0.03O4 reached 73.4 mAh g-1. Furthermore, to assess the higher Li+ diffusion coefficient and lower internal resistance of the Ti-doped samples, cyclic voltammetry and impedance spectra data were obtained. Our results showed that Ti doping enhanced the crystal structure of LiMn2O4 and improved Li+ diffusion, resulting in significant improvements in the cycling and rate performance of Ti-doped samples.

Published
2021

43. The association of carotid artery atherosclerosis with the estimated excretion levels of urinary sodium and potassium and their ratio in Chinese adults

Author

Lu Yin, Jiangang Wang, Shuang Peng, Yaguang Peng, Xiaohui Li, Yaqin Wang, Xia Cao, Yuanming Xiao, Pingting Yang, Ying Li, and Lin Yang

Subjects
Adult, Carotid Artery Diseases, China, medicine.medical_specialty, RC620-627, Sodium, Potassium, Medicine (miscellaneous), chemistry.chemical_element, Clinical nutrition, 030204 cardiovascular system & hematology, Carotid Intima-Media Thickness, Gastroenterology, Excretion, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, Humans, TX341-641, 030212 general & internal medicine, Risk factor, Nutritional diseases. Deficiency diseases, Creatinine, Nutrition and Dietetics, Urinary sodium, business.industry, Nutrition. Foods and food supply, Research, Sodium, Dietary, Atherosclerosis, medicine.disease, Carotid plaque, Carotid Arteries, Cross-Sectional Studies, chemistry, Intima-media thickness (IMT), Arterial stiffness, Estimated urinary sodium excretion (eUNaE), Female, Estimated urinary potassium excretion (eUKE), business
Abstract

Background Arterial stiffness is an independent cardiovascular risk factor. However, the association between sodium/potassium intake and vascular stiffness was inconsistent. Therefore, a large community-based cross-sectional study was performed to try and achieve more definitive conclusion. Methods Urinary sodium, potassium, and creatinine levels were tested in spot urine samples during physical examinations of each recruited participant. The 24-h estimated urinary sodium excretion (eUNaE) and estimated urinary potassium excretion (eUKE) levels were determined using the Kawasaki formula (used as a surrogate for intake). Carotid intima-media thickness (IMT) and plaques were measured using ultrasound. Results In 13,523 subjects aged 18–80 years, the relationships between carotid plaques and IMT with eUNaE, eUKE and their ratios were analyzed. Overall, 30.2% of participants were diagnosed with carotid artery plaques. The ratio of estimated sodium vs. potassium excretion (Na/K ratio) of the individuals with carotid artery plaques was significantly higher than that of participants without plaque (2.14 ± 0.73 vs. 2.09 ± 0.61, P P P interaction Conclusions In this study, in which sodium intake was estimated on the basis of measured urinary excretion, high estimated excretion levels of urinary sodium and/or low estimated excretion levels of urinary potassium might be associated with an increased presence of carotid atherosclerosis in Chinese individuals.

Published
2021

44. Integrative analysis of miRNAs and mRNAs revealed regulation of lipid metabolism in dairy cattle

Author

Xianzhong Yu, Haibin Yu, Xibi Fang, Xiang Yu, Lixin Xia, Juan Liu, Xiaohui Li, Ping Jiang, Runjun Yang, Chunyan Lu, and Zhihui Zhao

Subjects
0106 biological sciences, 0301 basic medicine, Candidate gene, Triglyceride, Lipid metabolism, General Medicine, Metabolism, Biology, 01 natural sciences, Cell biology, Transcriptome, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, chemistry, microRNA, Genetics, Gene, Dairy cattle, 010606 plant biology & botany
Abstract

Lipid metabolism in bovine mammary epithelial cells has been the primary focus of the research of milk fat percentage of dairy cattle. Functional microRNAs can affect lipid metabolism by regulating the expression of candidate genes. The purpose of the study was to screen and identify differentially expressed miRNAs, candidate genes, and co-regulatory pathways related to the metabolism of milk fat. To achieve this aim, we used miRNA and transcriptome data from the mammary epithelial cells of dairy cattle with high (H, 4.85%) and low milk fat percentages (L, 3.41%) during mid-lactation. One hundred ninety differentially expressed genes and 33 differentially expressed miRNAs were significantly enriched in related regulatory networks, of which 27 candidate genes regulated by 18 differentially expressed miRNAs significantly enriched in pathways related to lipid metabolism (p

Published
2021

45. Fabrication of hexagonal cerium oxide nanoparticles decorated nitrogen-doped reduced graphene oxide hybrid nanocomposite as high-performance microwave absorbers in the Ku band

Author

Ruiwen Shu, Xiaohui Li, Jiabin Zhang, Zongli Wan, and Yue Wu

Subjects
010302 applied physics, Cerium oxide, Materials science, Nanocomposite, Graphene, Process Chemistry and Technology, Reflection loss, Oxide, Nanoparticle, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, law.invention, chemistry.chemical_compound, Chemical engineering, chemistry, law, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, 0210 nano-technology, Absorption (electromagnetic radiation), Microwave
Abstract

With the aim to obtain microwave absorbers simultaneously possessing broad absorption bandwidth, strong absorption intensity and thin matching thickness, nitrogen-doped reduced graphene oxide decorated by cerium oxide particles (NRGO/CeO2) hybrid nanocomposite was prepared through a hydrothermal and calcination two-step route. Results of micromorphology analysis showed that numerous hexagonal CeO2 nanoparticles were evenly anchored on the crumpled surfaces of NRGO. Moreover, both nitrogen doping and hybridization with RGO could notably strengthen the microwave absorption capacity of CeO2. Remarkably, the NRGO/CeO2 hybrid nanocomposite exhibited the minimum reflection loss of −57.2 dB at 13.4 GHz (Ku band) under a matching thickness of 1.66 mm and maximum absorption bandwidth of 4.6 GHz (from 13.2 to 17.8 GHz) at an ultrathin thickness of only 1.5 mm. Meanwhile, the hybrid nanocomposites displayed strong absorption intensity (≤-20 dB, 99% absorption) in almost the whole measured thicknesses range. Furthermore, the relationship between absorption intensity and filler loadings was uncovered. The potential microwave absorption mechanisms were further revealed. Therefore, this work opened a novel idea for designing RGO-based hybrid nanocomposites as high-performance microwave absorbers.

Published
2021

46. Endosidin20‐1 is more potent than endosidin20 in inhibiting plant cellulose biosynthesis and molecular docking analysis of cellulose biosynthesis inhibitors on modeled cellulose synthase structure

Author

Chunhua Zhang, Xiaohui Li, and Lei Huang

Subjects
Models, Molecular, 0106 biological sciences, 0301 basic medicine, Protein Conformation, Mutant, Arabidopsis, Mutation, Missense, Plant Science, Bacterial growth, Plant Roots, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, symbols.namesake, Bacterial Proteins, Gene Expression Regulation, Plant, Genetics, Secretion, Enzyme Inhibitors, Cellulose, biology, ATP synthase, Arabidopsis Proteins, Gluconacetobacter xylinus, Cell Biology, Golgi apparatus, biology.organism_classification, Transmembrane protein, Molecular Docking Simulation, 030104 developmental biology, chemistry, Biochemistry, Glucosyltransferases, Benzamides, biology.protein, symbols, Bacteria, 010606 plant biology & botany
Abstract

Endosidin20 (ES20) is a recently identified cellulose biosynthesis inhibitor (CBI) that targets the catalytic site of plant cellulose synthase (CESA). Here, we screened over 600 ES20 analogs and identified nine active analogs named ES20-1 to ES20-9. Among these, endosidin20-1 (ES20-1) had stronger inhibitory effects on plant growth and cellulose biosynthesis than ES20. At the biochemical level, we demonstrated that ES20-1, like ES20, directly interacts with CESA6. At the cellular level, this molecule, like ES20, induced the accumulation of cellulose synthase complexes at the Golgi apparatus and inhibited their secretion to the plasma membrane. Like ES20, ES20-1 likely targets the catalytic site of CESA. However, through molecular docking analysis using a modeled structure of full-length CESA6, we found that both ES20 and ES20-1 might have another target site at the transmembrane regions of CESA6. Besides ES20, other CBIs such as isoxaben, C17, and flupoxam are widely used tools to dissect the mechanism of cellulose biosynthesis and are also valuable resources for the development of herbicides. Here, based on mutant genetic analysis and molecular docking analysis, we have identified the potential target sites of these CBIs on a modeled CESA structure. Some bacteria also produce cellulose, and both ES20 and ES20-1 inhibited bacterial cellulose biosynthesis. Therefore, we conclude that ES20-1 is a more potent analog of ES20 that inhibits intrinsic cellulose biosynthesis in plants, and both ES20 and ES20-1 show an inhibitory effect on bacterial growth and cellulose synthesis, making them excellent tools for exploring the mechanisms of cellulose biosynthesis across kingdoms.

Published
2021

48. A New Multi-Copper-Substituted Tetramer Tungstoantimonate: Synthesis, Photocatalytic and Electrochemical Properties

Author

Na Xu, Lin Yang, Zhong Zhang, and Xiaohui Li

Subjects
Thermogravimetric analysis, Chemistry, Infrared spectroscopy, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electrochemistry, 01 natural sciences, Biochemistry, 0104 chemical sciences, Catalysis, Tetramer, Photocatalysis, General Materials Science, 0210 nano-technology, Photodegradation, Powder diffraction, Nuclear chemistry
Abstract

Under hydrothermal conditions, a new “S”-shaped Cu-substituted tetramer tungstoantimonate, HKNa2(H2en)6[Cu(en)(H2O)]2[KNaCu3(H2O)7(B-a-SbW9O33)2]2⋅16H2O (1, en = 1,2-ethylenediamine) was synthesized in reactions of the Na9[SbW9O33]·19.5H2O precursor with CuCl2⋅2H2O and potassium acetate in the presence of en and characterized by IR spectrum, thermogravimetric analysis (TGA), powder X-ray diffraction (PXRD) and single-crystal X-ray diffraction, respectively. Polyoxoanion 1 consists of two asymmetric sandwich-type polyanions {KNaCu3(H2O)7(B-a-SbW9O33)2} linked by two structurally equivalent [Cu4(en)(H2O)]2+ bridges. The electrochemical properties and photocatalytic activities have been investigated, displaying outstanding photocatalytic and electrocatalytic activities for the photodegradation of MB and H2O2/NO2−/BrO3− reduction.

Published
2021

49. Expression and regulation of genes involved in the reserve starch biosynthesis pathway in hexaploid wheat (Triticum aestivum L.)

Author

Lin Chen, Yaxuan Li, Yueming Yan, Shichen Han, Yunsong Gu, Xiaohui Li, Junyi Mu, and Luning Duan

Subjects
0106 biological sciences, 0301 basic medicine, Starch, Reserve starch, Plant Science, Biology, Biosynthesis, 01 natural sciences, Endosperm, lcsh:Agriculture, 03 medical and health sciences, chemistry.chemical_compound, Amyloplast, RNA-Seq, lcsh:Agriculture (General), Gene, Transcription factor, Subcellular localization, lcsh:S, food and beverages, Promoter, Carbohydrate, lcsh:S1-972, Metabolic pathway, 030104 developmental biology, Biochemistry, chemistry, Wheat, Agronomy and Crop Science, 010606 plant biology & botany
Abstract

Reserve starch of cereal crop accounts for about 70% of grain endosperm and acts as an important human carbohydrate resource worldwide. Wheat reserve starch is synthesized by enzymatic machinery in endosperm cells. To identify genes involved in starch biosynthesis, we constructed 30 RNA-Seq libraries of 10 endosperm-development periods and performed expression and localization analyses. Of 166 endosperm-expressed homologs of starch biosynthesis-related genes, 74 showed expression correlated with reserve starch accumulation, including 26 with expected subcellular distribution and higher expression than their isoforms. The key proteins SUS3, UGP1, cAGPase, and Bt1-3 formed the main metabolic pathway and contributed the major substrates for starch processing in amyloplasts. Important isoforms, key pathway proteins, and the main carbon flux toward starch formation in the reserve starch biosynthesis pathway were identified. Based on a co-expression analysis, a library of 425 transcription factors was produced to screen for common regulators. TaMYB44 had features of transcription factors and bound to TaSUT1, TaSSIIIa, TaBEIIa, TaISA1, and TaBEIIb promoters in yeast, suggesting that the gene is a pathway regulator. This study sheds light on understanding the mechanism of reserve starch biosynthesis and will be helpful for increasing starch content in wheat endosperm via biotechnological strategies.

Published
2021

50. Multi-dimensional ZnO@MWCNTs assembly derived from MOF-5 heterojunction as highly efficient microwave absorber

Author

Xiao Li, Xiaohui Li, Jie Zhang, Lei Wang, Renchao Che, and Min Wang

Subjects
Materials science, Scattering, business.industry, Reflection loss, chemistry.chemical_element, Heterojunction, 02 engineering and technology, General Chemistry, Carbon nanotube, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry, law, Optoelectronics, General Materials Science, 0210 nano-technology, business, Absorption (electromagnetic radiation), Carbon, Electrical conductor, Microwave
Abstract

Metal-organic framework (MOF) derivatives have been arousing great attention in microwave absorption (MA) applications because of the adaptable morphological and component variance. However, it is still a huge challenge to construct multi-dimensional assembly with special heterostructure based on MOF and conductive carbon materials for excellent MA performance. Here, we successfully synthesized the cube-like assembly of multi-walled carbon nanotubes (MWCNTs) and ZnO (ZnO@MWCNTs) with unique multi-dimensional architecture via controlling the pyrolysis time of MOF-5 wrapped by MWCNTs. The ZnO@MWCNTs-4h are composed of zero-dimensional ZnO nanoparticles, one-dimensional MWCNTs, and three-dimensional micro-scale porous carbon framework. These various dimensional components confined within the cube space lead to the strong reflection loss (RL) at different frequencies, thus resulting in exceptional MA performance. The ZnO@MWCNTs-4h can reach a RL peak of −34.4 dB at only 1.5 mm thickness. More importantly, the maximum RL can achieve −47.4 dB at 2.7 mm with a mass loading as low as 20%. The optimized MA performance can be ascribed to high-density polarized sites, tightly interwoven MWCNTs conductive network, and strong multiple scattering that all induced by the multi-dimensional structures and components. Therefore, novel ZnO@MWCNTs composites are promising as a lightweight and highly efficient microwave absorber.

Published
2021

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