Your search keyword '"ZHANG, Liang"' showing total 1,203 results

1. An Elastomeric Lithium‐Conducting Interlayer for High‐Performance LATP‐Based Lithium Metal Batteries.

Author

Geng, Zhisong, Sun, Yingqi, Zhang, Qing, Shen, Shao‐Peng, Zhang, Liang, Zheng, Jin‐Chi, Luo, Yuan, Shi, Yongzheng, and Chen, Zhe

Published

2024

2. Chemomechanics Engineering Promotes the Catalytic Activity of Spinel Oxides for Sulfur Redox Reaction.

Author

Wang, Lei, Li, Hongtai, Yan, Tianran, Yuan, Cheng, Liu, Genlin, Zhao, Gang, Zeng, Pan, and Zhang, Liang

Subjects

CHEMICAL affinity, CATALYST structure, CATALYTIC activity, OXIDATION-reduction reaction, CHARGE transfer, LITHIUM sulfur batteries

Abstract

Cooperative catalysis is a promising approach to enhance the sluggish redox kinetics of lithium polysulfides (LiPSs) for practical lithium–sulfur (Li–S) batteries. However, the elusory synergistic effect among multiple active sites makes it challenging to accurately customize the electronic structure of catalysts. Herein, a strategy of precisely tailoring eg orbitals of spinel oxides through chemomechanics engineering is porposed to regulate LiPSs retention and catalysis. By manipulating the regulable cations in MnxCo3‐xO4, it is theoretically and experimentally revealed that the lattice strain induced by the Jahn–Teller active and high‐spin Mn3+ at octahedral (Oh) sites can increase the eg occupancy of low‐spin Co3+Oh, which effectively regulates the chemical affinity toward LiPSs and establishes an unblocked channel for intrinsic charge transfer. This leads to a volcano‐type correlation between the eg occupancy at Oh sites and sulfur redox activity. Benefitting from the cooperative catalysis of dual‐active sites, MnCo2O4 with an average eg occupancy of 0.45 affords the most appropriate adsorption strength and rapid redox kinetics toward LiPSs, leading to remarkable rate performance and capacity retention for the assembled Li–S batteries. This work demonstrates the promise of chemomechanics engineering for optimizing the eg occupancy to achieve efficient sulfur redox catalysts. [ABSTRACT FROM AUTHOR]

Published

2024

3. Study on precursory recognition and integrated warning modeling to fracture in flawed sandstone under uniaxial compression.

Author

Zhang, Liang, Meng, Xiangyu, Lei, Ruide, Zhou, Linsen, and Zhou, Jiankun

Abstract

To explore the precursory information and instability fracture of rocks, we conducted a series of uniaxial compression tests on flawed sandstone. An integrated warning modeling is developed to predict the fracture in flawed sandstone. The results show that both the peak strength and elastic modulus of flawed sandstone demonstrate an "inverted" Gaussian distribution relative to the ligament angle, reaching the minimum values at 60°. The elastic strain energy proportion shows a sharp drop‐off, whereas the proportion of dissipative energy increases in steps. The coalescence modes of flawed sandstone change from a mixed tensile‐shear failure approximately aligned with the axis to an oblique shear failure. An integrated warning model is developed by integrating a Multi‐Output Classifier (MOC) and Grid optimization (GO). The integrated warning model has an accuracy of 97.95%. Additionally, the sensitivity of the model is recorded at 99.26%, confirming its effectiveness in predicting the likelihood of fracturing. Highlights: The cracking process of flawed sandstone is classified based on energy characteristics.The elastic energy ratio and dissipative energy ratio of flawed sandstone are revealed.The precursory indicators are identified using b‐value, AE variance, and AE energy.An integrated warning model is developed in combination with RFA and MOC. [ABSTRACT FROM AUTHOR]

Published

2024

4. Deletion of Tgm2 suppresses BMP‐mediated hepatocyte‐to‐cholangiocyte metaplasia in ductular reaction.

Author

Chen, Yaqing, Yan, Yi, Li, Yujing, Zhang, Liang, Luo, Tingting, Zhu, Xinlong, Qin, Dan, Chen, Ning, Huang, Wendong, Chen, Xiangmei, Wang, Liqiang, Zhu, Xianmin, and Zhang, Lisheng

Subjects

TISSUE expansion, PHENOTYPIC plasticity, TISSUE remodeling, LIVER cells, METAPLASIA, LIVER regeneration

Abstract

Transglutaminase 2 (Tgm2) plays an essential role in hepatic repair following prolonged toxic injury. During cholestatic liver injury, the intrahepatic cholangiocytes undergo dynamic tissue expansion and remodelling, referred to as ductular reaction (DR), which is crucial for liver regeneration. However, the molecular mechanisms governing the dynamics of active cells in DR are still largely unclear. Here, we generated Tgm2‐knockout mice (Tgm2−/−) and Tgm2‐CreERT2‐Rosa26‐mTmG flox/flox (Tgm2CreERT2‐R26T/Gf/f) mice and performed a three‐dimensional (3D) collagen gel culture of mouse hepatocytes to demonstrate how Tgm2 signalling is involved in DR to remodel intrahepatic cholangiocytes. Our results showed that the deletion of Tgm2 adversely affected the functionality and maturity of the proliferative cholangiocytes in DR, thus leading to more severe cholestasis during DDC‐induced liver injury. Additionally, Tgm2 hepatocytes played a crucial role in the regulation of DR through metaplasia. We unveiled that Tgm2 regulated H3K4me3Q5ser via serotonin to promote BMP signalling activation to participate in DR. Besides, we revealed that the activation or inhibition of BMP signalling could promote or suppress the development and maturation of cholangiocytes in DDC‐induced DR. Furthermore, our 3D collagen gel culture assay indicated that Tgm2 was vital for the development of cholangiocytes in vitro. Our results uncovered a considerable role of BMP signalling in controlling metaplasia of Tgm2 hepatocytes in DR and revealed the phenotypic plasticity of mature hepatocytes. [ABSTRACT FROM AUTHOR]

Published

2024

5. Synthesis of Heteromorphic Bi2WO6 Films With an Interpenetrate 1D/2D Network Structure for Efficient and Stable Photocatalytic Degradation of VOCs.

Author

Chen, Yuehui, Zhang, Liang, Chen, Shuo, Sun, Songmei, Cheng, Hui, Li, Shouzhu, Yu, Jianyong, Ding, Bin, and Yan, Jianhua

Published

2024

6. BAPID suppresses the inhibition of BRM on Di19‐PR module in response to drought.

Author

Liu, Nian, Hu, Zhiyong, Zhang, Liang, Yang, Qian, Deng, Linbin, Terzaghi, William, Hua, Wei, Yan, Mingli, Liu, Jing, and Zheng, Ming

Subjects

TRANSCRIPTION factors, PLANT chromatin, PLANT reproduction, GENETIC transcription, PLANT productivity, DROUGHT tolerance

Abstract

SUMMARY: Drought is one of the most important abiotic stresses, and seriously threatens plant development and productivity. Increasing evidence indicates that chromatin remodelers are pivotal for plant drought response. However, molecular mechanisms of chromatin remodelers‐mediated plant drought responses remain obscure. In this study, we found a novel interactor of BRM called BRM‐associated protein involved in drought response (BAPID), which interacted with SWI/SNF chromatin remodeler BRM and drought‐induced transcription factor Di19. Our findings demonstrated that BAPID acted as a positive drought regulator since drought tolerance was increased in BAPID‐overexpressing plants, but decreased in BAPID‐deficient plants, and physically bound to PR1, PR2, and PR5 promoters to mediate expression of PR genes to defend against dehydration stress. Genetic approaches demonstrated that BRM acted epistatically to BAPID and Di19 in drought response in Arabidopsis. Furthermore, the BAPID protein‐inhibited interaction between BRM and Di19, and suppressed the inhibition of BRM on the Di19‐PR module by mediating the H3K27me3 deposition at PR loci, thus changing nucleosome accessibility of Di19 and activating transcription of PR genes in response to drought. Our results shed light on the molecular mechanism whereby the BAPID‐BRM‐Di19‐PRs pathway mediates plant drought responses. We provide data improving our understanding of chromatin remodeler‐mediated plant drought regulation network. Significance Statement: Drought is an enormous threat to plant growth and reproduction, but the roles of chromatin remodelers in mediating plant drought responses remain indistinct so far. In this study, we illuminated the molecular mechanism of the BAPID‐BRM‐Di19‐PRs pathway in drought response in Arabidopsis, promoting our cognition on chromatin remodeler‐mediated plant drought regulation network. [ABSTRACT FROM AUTHOR]

Published

2024

7. Adaptive decentralized fixed‐time neural control for constrained strong interconnected nonlinear systems with input quantization.

Author

Wei, Fansen, Zhang, Liang, Niu, Ben, and Zong, Guangdeng

Subjects

*STABILITY theory, *NONLINEAR functions, *NONLINEAR systems, *LYAPUNOV stability, *GAUSSIAN function, *ARTIFICIAL satellite tracking

Abstract

This article investigates the problem of adaptive decentralized fixed‐time tracking control for strong interconnected nonlinear systems with full‐state constraints and input quantization. During the control design process, the assumption that the strong interconnection terms are bounded is removed via an inherent feature of the Gaussian function in neural networks. Unlike presvious nonlinear state‐dependent function (NSDF) that can only handle a single constraint, a novel form of NSDF is introduced to cope with more types of state constraints in this article. Meanwhile, the introduced NSDF is still available when the system states are unconstrained. Simultaneously, quantized input is directly handled by utilizing the intrinsic characteristics of the hysteresis quantizer. Then, based on the Lyapunov stability theory, all signals in the closed‐loop systems and tracking error are guaranteed to be bounded within fixed‐time. Finally, the feasibility of the proposed control scheme is illustrated by simulation results. [ABSTRACT FROM AUTHOR]

Published

2024

8. Cationic and Anionic Redox of Battery Cathodes Investigated by Advanced Synchrotron‐Based Mapping of Resonant Inelastic X‐ray Scattering.

Author

Cheng, Chen, Zhuo, Zengqing, Chen, Shuyuan, Zhou, Xi, Yuan, Cheng, Zeng, Pan, Guo, Jinghua, and Zhang, Liang

Subjects

ELECTROCHEMICAL electrodes, INELASTIC scattering, STORAGE batteries, OXIDATION-reduction reaction, ENERGY density

Abstract

Redox reaction builds the foundation stone for the energy density of rechargeable battery cathodes. Probing and understanding the redox reaction behavior is crucial, but also extremely formidable, which requires individual and reliable detection of cationic and anionic redox states. Fortunately, the recently developed ultra‐high‐efficiency mapping of resonant inelastic X‐ray scattering (mRIXS) has emerged as a powerful tool to probe the battery chemistry states. Here, the latest advances of employing advanced mRIXS is summarized to investigate the cationic and anionic redox mechanism of battery cathodes during electrochemical operation. Owing to the new dimension of information along the emission energy and high sensitivity to valence 3d states, 3d transition‐metal L‐edge (TM‐L) mRIXS can eliminate the lineshape distortion in conventional 3d TM‐L fluorescence X‐ray absorption spectra and investigate the cationic redox quantitatively. Moreover, O‐K mRIXS could fingerprint the intrinsic oxidized lattice oxygen states and quantify the oxygen redox (OR) reversibility, thus demystifying the controversy in traditional wisdom. In addition, different modification strategies coupled with underlying mechanisms for regulating the activity and reversibility of OR utilizing mRIXS are also summarized. This review provides valuable guidance for further exploration of underlying reaction mechanisms of battery cathodes by mRIXS, along with both technological and scientific improvements. [ABSTRACT FROM AUTHOR]

Published

2024

9. Combination of circulating tumor cells and 18F‐FDG PET/CT for precision diagnosis in patients with non‐small cell lung cancer.

Author

Sun, Momo, Lu, Dongyan, Li, Xiaoping, Wang, Jin, Zhang, Liang, Yang, Pan, Yang, Yang, and Shen, Jie

Subjects

POSITRON emission tomography, LUNG diseases, COMPUTED tomography, LUNG cancer, NON-small-cell lung carcinoma

Abstract

Purpose: To investigate the value of 2‐deoxy‐18f‐fluorodeoxyglucose (18F‐FDG) positron emission tomography/computed tomography (PET/CT) and circulating tumor cells (CTCs) for the differential diagnosis of patients with benign lung diseases and those with NSCLC. To explore the phenotypic heterogeneity of CTCs and their correlation with FDG uptake in patients with Stage I–IV NSCLC. Methods: Blood specimens from patients with benign lung diseases and patients with primary NSCLC were collected for the detection of CTCs and their subtypes (epithelial, mixed, and mesenchymal) and analyzed for 18F‐FDG PET/CT tumor metabolic parameters, including the maximum standardized uptake value (SUVmax), standard uptake value (SUL), metabolic tumor volume of primary lesion (MTV), total lesion glycolysis of primary lesion (TLG). Clinical data including age, gender, smoking history, tumor size, TNM stage and pathology type were also collected. The value of the two method alone and in combination for the differential diagnosis of benign and malignant was comparatively analyzed. Finally, the differences in CTC and its subtypes in different stages of NSCLC were compared, and FDG metabolic parameters were correlated with CTC subtypes. Results: There were a total of 65 patients with pulmonary diseases, including 12 patients with benign pulmonary diseases and 53 patients with NSCLC. The mean age was 67 ± 10 (38–89 years), 27 were females and 38 were males. 31 (22 males and 9 females) had a long history of smoking. The mean size of the largest diameter of all single lesions was 36 ± 22 mm with a range of 10–108 mm. Seven out of 12 benign diseases were inflammatory granulomatous lesions and 5 were inflammatory pseudotumours. Twenty‐four out of 53 NSCLC were adenocarcinomas and 29 were squamous carcinomas. Twelve out of 53 patients with NSCLC were in Stage I, 10 were in Stage II, 17 were in Stage III and 14 were in Stage IV. SUVmax, SUL, MTV, TLG, total CTCs, epithelial CTCs, and mixed CTCs were all valuable in the differential diagnosis of benign and malignant. TLG combined with mixed CTCs was statistically different from all other diagnostic methods (p < 0.05) and higher than any other diagnostic criteria. In the differential diagnosis of benign and Stage I NSCLC, only total CTC (Z = −2.188 p = 0.039) and mixed CTCs (Z = −3.020 p = 0.014) had certain diagnostic efficacy, and there was no statistical difference between them (p = 0.480). Only mesenchymal CTCs differed in Stage I–IV NSCLC, with a higher number of those who developed distant metastases than those who had non‐distant metastases. Epithelial CTCs correlated with SUVmax (r = 0.333, p = 0.015) and SUL (r = 0.374, p = 0.006). Mmesenchymal CTCs correlated with MTV (r = 0.342, p = 0.018) and TLG (r = 0.319, p = 0.02). Further subgroup analyses revealed epithelial CTCs were correlated with SUVmax (r = 0.543, p = 0.009) and SUL (r = 0.552, p = 0.008), and the total CTCs was correlated with SUVmax (r = 0.622, p = 0.003), SUL (r = 0.652, p = 0.003), MTV (r = 0.460, p = 0.031), and TLG (r = 0.472, p = 0.027) in the early group (Stage I–II). Only mesenchymal CTCs was associated with MTV (r = 0.369, p = 0.041), and TLG (r = 0.415, p = 0.02) in the intermediate‐late group (Stage III–IV). Conclusion: Both FDG PET metabolic parameters and CTCs demonstrated diagnostic value for NSCLC, and combining TLG with mixed CTCs could enhance their diagnostic efficacy. The total CTCs and mixed CTCs showed greater diagnostic value than FDG PET in distinguishing benign lesions from Stage I NSCLC. In NSCLC patients, the epithelial CTCs exhibited a positive correlation with SUVmax and SUL, while mesenchymal CTCs correlated with MTV, and TLG. Besides, epithelial CTCs showed stronger correlations with SUVmax and SUL, and total CTCs showed stronger correlations with SUVmax, SUL, MTV, and TLG in Stage I–II NSCLC. Only mesenchymal CTCs in Stage III–IV NSCLC showed correlations with MTV and TLG. Stage IV NSCLC cases displayed a higher number of mesenchymal CTCs. [ABSTRACT FROM AUTHOR]

Published

2024

10. Fully 3D printed dielectric elastomer actuators based on silicone and its composites.

Author

Zhang, Ercong, Pang, Tianqi, Zhang, Yaxin, Huang, Fang, Gong, Min, Lin, Xiang, Wang, Dongrui, and Zhang, Liang

Subjects

CONDUCTING polymers, DIELECTRIC materials, SMART devices, DIELECTRIC properties, EXTRUSION process

Abstract

Dielectric elastomer actuator (DEA) is one of the most promising types of soft actuation technology, which has great potential in the fields of wearable devices and soft robotics. It consists of a dielectric elastomer layer, which is an electroactive polymer that can produce large deformation, and compliant electrodes to bring charges to certain locations. In this article, direct ink writing (DIW) technology, an emerging 3D printing method, was used to realize the preparation of the electrode‐elastomer‐electrode stack of the DEA. The dielectric and electrode materials were designed with suitable rheological properties to fulfill the need for the extrusion process. The formulated silicone material not only presented excellent dielectric and mechanical properties, but also good printability. Extrudable electrodes were prepared based on silicone composites with the characteristics of mechanical compliance and high conductivity. The fully printed DEA achieved a maximum actuation strain of 11.11%, a fast response time of 0.76 s and excellent electromechanical repeatability. DEA arrays were also achieved, possessing the ability to carry out on‐demand actuation, allowing each actuator to be activated singly or work in groups. Thanks to the design freedom of the DIW technology, this strategy is able to manufacture fine and complex structures with precise active zones, paving a way for the fabrication of next‐generation smart devices. Highlights: Printable silicone ink was formulated with good dielectric property and softness.Carbon black/silicone composites were obtained with high conductivity and compliant nature.The silicone composites were printed into thin films to act as electrodes.Fully 3D printed dielectric elastomer actuators (DEA) were achieved by direct ink writing.DEA arrays with on‐demand actuation were realized by well‐defined printing. [ABSTRACT FROM AUTHOR]

Published

2024

11. Optimized backstepping‐based finite‐time containment control for nonlinear multi‐agent systems with prescribed performance.

Author

Tang, Li, Zhang, Liang, and Xu, Ning

Subjects

MACHINE learning, REINFORCEMENT learning, NONLINEAR systems, CONVEX domains, LYAPUNOV stability

Abstract

In this article, a finite‐time optimal containment control method is proposed for nonlinear multi‐agent systems with prescribed performance. First, a neural network‐based reinforcement learning algorithm is developed under the optimized backstepping framework. The algorithm employs an identifier‐critic‐actor architecture, where the identifiers, critics and actors are used to estimate the unknown dynamics, evaluate the system performance, and optimize the system, respectively. Subsequently, in order to guarantee the transient performance of the tracking error, the original system is converted into an equivalent unconstrained system. Then, the tracking errors are allowed to converge to a prescribed set of residuals in finite time by combining prescribed performance control and finite‐time optimal control techniques. Furthermore, by using the Lyapunov stability theorem, it is verified that all signals are semi‐globally practical finite‐time stable, and all followers can converge to a convex region formed by multiple leaders. Finally, the effectiveness of the proposed scheme is demonstrated by a practical example. [ABSTRACT FROM AUTHOR]

Published

2024

12. Exploring the diagnostic potential of immunoglobulin A‐microbiota interplay in liver cirrhosis and spontaneous bacterial peritonitis.

Author

Zhang, Liang‐Jie, Huang, Wen‐Qi, Zhang, Yuan, Zhou, You‐Lian, Xu, Hao‐Ming, Zhao, Chong, and Nie, Yu‐Qiang

Subjects

GUT microbiome, HUMAN microbiota, CIRRHOSIS of the liver, LIVER cancer, IMMUNOGLOBULIN A

Abstract

The human gut microbiota significantly impacts health, including liver conditions like liver cirrhosis (LC) and spontaneous bacterial peritonitis (SBP). Immunoglobulin A (IgA) plays a central role in maintaining gut microbial balance. Understanding IgA's interplay with gut microbiota and liver health is crucial. This study explores the relationship between fecal IgA levels, gut microbiota, and liver injury severity. A total of 69 LC patients and 30 healthy controls were studied. Fecal IgA levels were measured using ELISA, and IgA‐coated bacteria were quantified via flow cytometry. Microbiota diversity and composition were assessed through 16S rRNA sequencing. Liver injury severity was graded using the Child–Pugh score. Statistical analyses determined correlations. LC patients had higher fecal IgA levels than controls, correlating positively with liver injury severity. Microbiota diversity decreased with severity, accompanied by shifts in composition favoring pro‐inflammatory species. Ralstonia abundance positively correlated with liver injury, whereas Faecalibacterium showed a negative correlation. Specific microbial markers for SBP were identified. Functional profiling revealed altered microbial functionalities in LC and SBP. Elevated fecal IgA levels, coupled with microbiota alterations, correlate with liver injury severity in LC patients. Modulating gut microbiota could be a promising strategy for managing liver‐related conditions. Further research is needed to understand underlying mechanisms and translate findings into clinical practice, potentially improving patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

13. CO2 absorption mechanism and kinetic modeling of mixed amines with ionic liquid activation.

Author

Jia, Rui‐Qi, Wu, Qing, Zhang, Liang‐Liang, Zhang, Bo, Chu, Guang‐Wen, and Chen, Jian‐Feng

Subjects

CARBON sequestration, HYDROGEN bonding interactions, DENSITY functional theory, ACTIVATION energy, ENERGY consumption

Abstract

Ionic liquid (IL) can not only serve as solvents to reduce carbon capture energy consumption, but also may activate the CO2 absorption of amine solutions. Here, the absorption mechanism and kinetic modeling of IL‐activated single and mixed amines were studied in wetted wall column. N‐(2‐aminoethyl) ethanolamine (AEEA) and N,N‐diethylethanolamine (DEEA) were used as representatives to evaluate the IL activation effects on primary and tertiary amines. It was found that IL activated the reaction process of primary amine, but had no activation effect on tertiary amine. The activation energy of AEEA‐IL‐CO2 was 22.2 kJ/mol, which was 21.0% lower than AEEA‐CO2. Kinetic modeling of IL‐activated AEEA and mixed amines was established. Besides, the density functional theory calculations showed that IL can form hydrogen bonding and other interactions with AEEA and CO2 to activate the absorption reaction, which can reduce 29.3% activation energy during the zwitterion formation stage. [ABSTRACT FROM AUTHOR]

Published

2024

14. Biphase‐to‐monophase structure evolution of Na0.766+xLixNi0.33−xMn0.5Fe0.1Ti0.07O2 toward ultradurable Na‐ion batteries.

Author

Liu, Mengting, Cheng, Zhiwei, Zhu, Xu, Dong, Haojie, Yan, Tianran, Zhang, Liang, Zheng, Lu, Yao, Hu‐Rong, Wang, Xian‐Zuo, Yu, Lianzheng, Xiao, Bing, Xiao, Yao, and Wang, Peng‐Fei

Subjects

PHASE transitions, HIGH voltages, COMPOSITE materials, ELECTROCHEMISTRY, CATHODES

Abstract

Layered composite oxide materials with O3/P2 biphasic crystallographic structure typically demonstrate a combination of high capacities of the O3 phase and high operation voltages of the P2 phase. However, their practical applications are seriously obstructed by difficulties in thermodynamic phase regulation, complicated electrochemical phase transition, and unsatisfactory cycling life. Herein, we propose an efficient structural evolution strategy from biphase to monophase of Na0.766+xLixNi0.33−xMn0.5Fe0.1Ti0.07O2 through Li+ substitution. The role of Li+ substitution not only simplifies the unfavorable phase transition by altering the local coordination of transition metal (TM) cations but also stabilizes the cathode–electrolyte interphase to prevent the degradation of TM cations during battery cycling. As a result, the thermodynamically robust O3‐Na0.826Li0.06Ni0.27Mn0.5Fe0.1Ti0.07O2 cathode delivers a high capacity of 139.4 mAh g−1 at 0.1 C and shows prolonged cycling life at high rates, with capacity retention of 81.6% at 5 C over 500 cycles. This work establishes a solid relationship between the thermodynamic structure evolution and electrochemistry of layered cathode materials, contributing to the development of long‐life sodium‐ion batteries. [ABSTRACT FROM AUTHOR]

Published

2024

15. High‐Lying Triplet Excitons Utilization of Silole Derivatives Enables their Efficiency Breakthrough in OLEDs.

Author

Zhang, Liang, Wang, Linzhong, Samedov, Kerim, Chen, Mingxing, Chen, Dongcheng, and Cai, Yuanjing

Subjects

*EXCITON theory, *ELECTRON donors, *QUANTUM efficiency, *MOLECULAR structure, *ELECTROPHILES

Abstract

Siloles are routinely studied in the application of organic light‐emitting diodes (OLEDs) due to their high performances of solid‐state fluorescence property and carrier mobility. The structures of siloles used in electroluminescence device reported so far can only utilize singlet excitons, limiting the device efficiency and commercialization. Seeking to build appliable molecular structures to achieve triplet excitons utilization in silole‐core emitters, two derivatives are designed, Silole‐1DPA‐TRZ and Silole‐1Cz‐TRZ, in which electron acceptor of triazine (TRZ) together with electron donors of diphenylamine (DPA) and carbazole (Cz) modified at 1‐position of silole unit form silole‐D‐A structures. This special molecular design, for the first time, enables triplet excitons harvest via high‐lying reverse intersystem crossing (hRISC) process in silole derivatives with hybridized local and charge‐transfer (HLCT) characteristics. Experimental and theoretical studies show that relative to a stronger charge transfer state of Silole‐1Cz‐TRZ, a more equal local excitation/charge transfer distribution in the HLCT state of Silole‐1DPA‐TRZ is realized, making its application in silole‐based OLED with an efficiency breakthrough of ≈9.1% maximum external quantum efficiency (EQEmax). [ABSTRACT FROM AUTHOR]

Published

2024

16. Extracellular Vesicle Preparation and Analysis: A State‐of‐the‐Art Review.

Author

Wang, Zesheng, Zhou, Xiaoyu, Kong, Qinglong, He, Huimin, Sun, Jiayu, Qiu, Wenting, Zhang, Liang, and Yang, Mengsu

Subjects

EXTRACELLULAR vesicles, ELECTROCHEMICAL sensors, ARTIFICIAL intelligence, DISEASE progression, RESEARCH personnel

Abstract

In recent decades, research on Extracellular Vesicles (EVs) has gained prominence in the life sciences due to their critical roles in both health and disease states, offering promising applications in disease diagnosis, drug delivery, and therapy. However, their inherent heterogeneity and complex origins pose significant challenges to their preparation, analysis, and subsequent clinical application. This review is structured to provide an overview of the biogenesis, composition, and various sources of EVs, thereby laying the groundwork for a detailed discussion of contemporary techniques for their preparation and analysis. Particular focus is given to state‐of‐the‐art technologies that employ both microfluidic and non‐microfluidic platforms for EV processing. Furthermore, this discourse extends into innovative approaches that incorporate artificial intelligence and cutting‐edge electrochemical sensors, with a particular emphasis on single EV analysis. This review proposes current challenges and outlines prospective avenues for future research. The objective is to motivate researchers to innovate and expand methods for the preparation and analysis of EVs, fully unlocking their biomedical potential. [ABSTRACT FROM AUTHOR]

Published

2024

17. Multistimuli‐Responsive Luminescent Porous Organic Polymers with Chiroptical Properties and Acid‐Induced Degradation.

Author

He, Youling, Fan, Dongyang, Zhang, Liang, Wang, Dong, Han, Ting, Hu, Rongrong, and Tang, Ben Zhong

Subjects

ENANTIOSELECTIVE catalysis, POROUS polymers, CIRCULAR dichroism, SCHIFF bases, POLYCONDENSATION, POLYMER structure, LUMINESCENCE, HYDROLYSIS

Abstract

Comprehensive Summary: Porous organic polymers (POPs) have attracted great attention in past decades. Although diverse functional POPs have been developed, multistimuli‐responsive POPs with excellent aggregate‐state luminescence together with good chiroptical properties have rarely been reported. Herein, two pairs of Salen‐type enantiomeric POPs with multistimuli‐responsive luminescence and chiral features were designed and synthesized by facile polycondensation reactions between polyfunctional aggregation‐induced emission luminogen (AIEgen)‐containing salicylaldehyde derivatives and chiral diamines. With Salen units in polymer backbones as tetradentate ligands, a series of POP‐metal complexes were further prepared. The obtained POPs and metal complexes show good porosity, high thermal stability, and obvious circular dichroism signals. Moreover, benefiting from the coexistence of AIEgen and Salen units in polymer structures, these POPs exhibit excellent luminescence performance in aggregate states and tunable fluorescence behaviors in response to external stimuli of Zn2+ ion, mechanical forces, organic solvent, and acids. Due to the dynamic feature of Schiff base C=N bonds, the present POPs can efficiently undergo hydrolysis reactions under strong acidic conditions to reproduce the AIEgen‐ containing monomers, and such an acid‐induced degradation process can be directly visualized and dynamically monitored via fluorescence variation. These properties collectively make the POPs candidate materials for applications in heterogeneous asymmetric catalysis, fluorescence sensing, biomedicine, etc. [ABSTRACT FROM AUTHOR]

Published

2024

18. Environmental regulations in developing countries and the span of firms' production stages: Evidence from China.

Author

Peng, Shuijun, Wu, Lamei, and Zhang, Liang

Subjects

GLOBAL value chains, ENVIRONMENTAL regulations, EMISSIONS (Air pollution), ENVIRONMENTAL policy, ENVIRONMENTAL protection

Abstract

Despite the well‐established tradeoff between economic development and environmental protection, research on the economic costs of alleviating pollution, especially from the perspective of global value chain upgradation, is scarce. In 2006, in its Eleventh Five‐Year Plan, the Chinese government implemented strict environmental regulations against air pollution. We examine the causal effect of these environmental regulations – which were stricter for higher pollution emission provinces compared with lower pollution emission provinces – on Chinese firms' span of production stages after the policy shock. A difference‐in‐difference‐in‐differences estimation reveals that, first, environmental regulations have a significantly negative effect on firms' span of production stages that robustness checks corroborate; second, the negative effects of environmental regulations on firms' span of production stages are realised through the simultaneous decline in import upstreamness and increase in export upstreamness. Heterogeneity tests indicate that the effects are more significant for firms in eastern China, and foreign‐owned firms; finally, the negative effects are manifested through the emission‐related input and output, productivity, and innovation mechanisms. Meanwhile, there are significant emission reduction effects. These results have implications on environmental policies in developing countries in terms of reiterating the need to achieve the dual objectives of environmental protection and global value chain upgradation. [ABSTRACT FROM AUTHOR]

Published

2024

19. Exploring the mechanism of Sendeng‐4 against rheumacid arthritis through integrated serum pharmacochemistry, transcriptomics, and network pharmacology.

Author

Pei, Chenyue, Yu, Jiuwang, Wang, Guanglong, Jia, Yan Ru, Shi, Xinran, and Zhang, Liang

Abstract

Mongolian medicine Sendeng‐4 (SD‐4) has demonstrated satisfactory clinical treatment outcomes for rheumatoid arthritis (RA); nevertheless, its bioactive components and the related mechanisms have not yet been clearly elucidated. To explore the bioactive chemical components of SD‐4 in the treatment of RA and its possible mechanisms, an High Performance Liquid Chromatography–tandem mass spectrometry (HPLC–MS/MS) method was established to simultaneously quantify the main components in SD‐4, and ultraperformance LC‐Q‐Exactive‐MS/MS (UPLC‐Q‐Exactive‐MS/MS) was used to identify the phytochemicals absorbed in the serum. Then, using network pharmacology methods, these components were constructed into a compound–target network of RA to predict possible biological targets of SD‐4 as well as potential signaling pathways. Transcriptomics analysis and molecular docking were used to validate the results of network pharmacology. Subsequently, we established a complete Freund's adjuvant–induced RA rat model and observed the anti‐RA effects of SD‐4 through assessments of foot swelling, ankle diameter, arthritis score, morphology, serum inflammatory factors, and histopathological analysis of synovial tissue. Specifically, reverse transcription‐quantitative polymerase chain reaction, Western blot, and immunohistochemical analysis were used in animal experiments to validate the pathways of serum phytochemistry, network pharmacology, and transcriptomics. Tannic acid, gallic acid, corilagin, crocin I, gardenoside, ferulic acid, quercetin, limonin, rutin, chlorogenic acid, verbascoside, catechin, epicatechin, myricetin, and dihydromyricetin in SD‐4 showed good linearity within their respective concentration ranges (r ≥ 0.9991); the average recovery rate was 93.77%–109.17% (relative standard deviation < 2%). A total of 37 compounds were identified in serum samples. Based on this, network pharmacology methods collected 739 genes related to these identified compounds in SD‐4 and 3807 genes related to RA. Network pharmacology and transcriptomic analysis demonstrated that the phosphatidylinositol 3‐kinase (PI3K)–protein kinase B (Akt) signaling pathway is the most relevant pathway affected by SD‐4 in RA. In the experiments, SD‐4 treatment reduced ankle swelling and arthritis scores in RA rats, improved symptoms, and reduced the production of inflammatory factors. Compared with the RA model group, SD‐4 treatment significantly reduced the expression of PI3K–Akt pathway–related messenger RNA and proteins. In addition, immunohistochemical analysis confirmed these results. This study combined serum phytochemistry, network pharmacology, and transcriptomics to demonstrate that SD‐4 can alleviate RA by regulating the PI3K–Akt signaling pathway. This research provides a theoretical basis for the clinical application of SD‐4 and offers an effective strategy for the identification of bioactive substances in traditional Chinese medicine formulas and the study of their potential mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

20. The moderating role of catastrophizing in day‐to‐day dynamic stress and depressive symptoms.

Author

Zhan, Lei, Lin, Li, Wang, Xiaoyu, Sun, Xianghong, Huang, Zheng, and Zhang, Liang

Subjects

MENTAL depression risk factors, EMOTION regulation, RISK assessment, HEALTH status indicators, MENTAL health, RESEARCH funding, PSYCHOLOGICAL adaptation, EXPERIENCE, PSYCHOLOGICAL stress, RESEARCH, CONVALESCENCE, PAIN catastrophizing, COLLEGE students, WELL-being

Abstract

The way individuals handle daily stressors can significantly influence their mental health. Those who struggle with emotion regulation are especially vulnerable to the negative effects of stress. This study explored the role of catastrophizing, a maladaptive emotion regulation strategy, in shaping the relationships between daily stress responses and depressive symptoms. A total of 75 healthy college students participated in the study. We adopted an Ecological Momentary Assessment protocol over 14 consecutive days to capture the day‐to‐day dynamics of stress reactivity and recovery. Our findings indicate that individuals with higher levels of catastrophizing exhibited increased daily stress reactivity and delayed daily stress recovery, consequently raising their likelihood of experiencing amplified depressive symptoms. In contrast, those with lower levels of catastrophizing did not experience the same negative effects of increased daily stress reactivity on their mental health. These results enhance understanding of how real‐life stressors contribute to the development of mental health issues and underscore the importance of adaptive emotion regulation for improved overall health and well‐being. [ABSTRACT FROM AUTHOR]

Published

2024

21. Mechanism and kinetics study of the chemically initiated oxidative polymerization of hexafluoropropylene.

Author

Chen, Xin‐Tuo, Zhang, Liang‐Liang, Zhou, Li‐Yang, Wang, Shu‐Hua, and Chen, Jian‐Feng

Subjects

COMPUTATIONAL chemistry, CHEMICAL kinetics, DENSITY functional theory, CHEMICAL yield, MOLECULAR weights

Abstract

Chemically initiated oxidative polymerization stands out as the most suitable method for the large‐scale and controllable synthesis of perfluoropolyether (PFPE). However, the mechanism and related reaction kinetics of this synthesis reaction remain elusive. In this study, PFPE was synthesized through the copolymerization of hexafluoropropylene and oxygen, initiated by fluorine. Subsequently, the synthesis mechanism of this chemically initiated oxidative polymerization was first explored using density functional theory. Simulation results yielded a comprehensive reaction network of the synthesis process, including chain initiation, propagation, decomposition, transfer, and termination. Meanwhile, a detailed kinetic model was constructed based on theoretical reaction rates of relevant elementary reactions. The effects of reaction operating conditions on the molecular weight of PFPE were experimentally investigated, with results in good agreement with the kinetic model. This work stablishes a solid foundation for optimizing and controlling the PFPE synthesis process. [ABSTRACT FROM AUTHOR]

Published

2024

22. Tuning Adsorbate‐Mediated Strong Metal‐Support Interaction by Oxygen Vacancy: A Case Study in Ru/TiO2.

Author

Li, Juan, Zhang, Lin, An, Xingda, Feng, Kai, Wang, Xuchun, He, Jiari, Huang, Yang, Liu, Jingjing, Zhang, Liang, Yan, Binhang, Li, Chaoran, and He, Le

Subjects

METAL catalysts, HETEROGENEOUS catalysis, OXYGEN vacancy

Abstract

The adsorbate‐mediated strong metal‐support interaction (A‐SMSI) offers a reversible means of altering the selectivity of supported metal catalysts, thereby providing a powerful tool for facile modulation of catalytic performance. However, the fundamental understanding of A‐SMSI remains inadequate and methods for tuning A‐SMSI are still in their nascent stages, impeding its stabilization under reaction conditions. Here, we report that the initial concentration of oxygen vacancy in oxide supports plays a key role in tuning the A‐SMSI between Ru nanoparticles and defected titania (TiO2‐x). Based on this new understanding, we demonstrate the in situ formation of A‐SMSI under reaction conditions, obviating the typically required CO2‐rich pretreatment. The as‐formed A‐SMSI layer exhibits remarkable stability at various temperatures, enabling excellent activity, selectivity and long‐term stability in catalyzing the reverse water gas‐shift reaction. This study deepens the understanding of the A‐SMSI and the ability to stabilize A‐SMSI under reaction conditions represents a key step for practical catalytic applications. [ABSTRACT FROM AUTHOR]

Published

2024

23. Tuning Adsorbate‐Mediated Strong Metal‐Support Interaction by Oxygen Vacancy: A Case Study in Ru/TiO2.

Author

Li, Juan, Zhang, Lin, An, Xingda, Feng, Kai, Wang, Xuchun, He, Jiari, Huang, Yang, Liu, Jingjing, Zhang, Liang, Yan, Binhang, Li, Chaoran, and He, Le

Subjects

METAL catalysts, HETEROGENEOUS catalysis, OXYGEN vacancy

Abstract

The adsorbate‐mediated strong metal‐support interaction (A‐SMSI) offers a reversible means of altering the selectivity of supported metal catalysts, thereby providing a powerful tool for facile modulation of catalytic performance. However, the fundamental understanding of A‐SMSI remains inadequate and methods for tuning A‐SMSI are still in their nascent stages, impeding its stabilization under reaction conditions. Here, we report that the initial concentration of oxygen vacancy in oxide supports plays a key role in tuning the A‐SMSI between Ru nanoparticles and defected titania (TiO2‐x). Based on this new understanding, we demonstrate the in situ formation of A‐SMSI under reaction conditions, obviating the typically required CO2‐rich pretreatment. The as‐formed A‐SMSI layer exhibits remarkable stability at various temperatures, enabling excellent activity, selectivity and long‐term stability in catalyzing the reverse water gas‐shift reaction. This study deepens the understanding of the A‐SMSI and the ability to stabilize A‐SMSI under reaction conditions represents a key step for practical catalytic applications. [ABSTRACT FROM AUTHOR]

Published

2024

24. Labile carbon content and nutrient availability determines microbial composition in topsoil and subsoil following land‐use change in subtropical China.

Author

Xiao, Huacui, Sheng, Hao, Zhang, Liang, Liang, Wandong, Wei, Liang, and Zhou, Ping

Subjects

SUBSOILS, TOPSOIL, FATTY acid analysis, FOREST conversion, SOIL ripping

Abstract

Evaluating the impact of land‐use intensification on soil microbial communities is essential for recognizing the implications on microbiome stability and ecosystem function. The microbial biomass and enzyme activity in the topsoil have been found to decrease as a consequence of natural forest conversion; however, the impact of land‐use conversion on the microbes in subsoil remains largely unclear. Here, we examined the effect of primary forest conversion to plantations and cultivated lands on microbial communities at three sites with similar soil, climate, and landform. The forest conversion was set as the experimental treatment, and the primary forest as the control. A linear mixed‐effect model was applied to investigate the role of environmental parameters in shaping the soil microbial biomass and community determined by the phospholipid fatty acids analysis in both the topsoil (0–20 cm) and subsoil (20–40 cm). Compared to the primary forest, the total microbial biomass, β‐1,4‐N‐acetylglucosaminidase, leucine aminopeptidase, acid phosphatase activities, and labile organic C fraction contents in both topsoil and subsoil were reduced in cultivated lands. The ratios of gram‐positive bacteria to gram‐negative bacteria and arbuscular mycorrhizal fungi to saprotrophic fungi in subsoil decreased by 45%–53% and increased by 29%–151%, respectively, following the primary forest conversion to cultivated lands. The response ratio (the percentage of microbial and enzyme indicator response to the primary forest conversion) ranged from −80% to 140% depending on the soil depth, specific microbial group, and converted land‐use type. Microbial biomass and enzyme activity are primarily controlled by the labile organic C content and nutrients availability in both topsoil and subsoil. This study suggests that the primary forest conversion exerts an adverse effect on the microbial biomass, enzyme activity, and substrate availability in both topsoil and subsoil, highlighting the degradation of subsoil health in subtropical China. [ABSTRACT FROM AUTHOR]

Published

2024

25. Nature‐Inspired Molecular‐Crowding Enabling Wide‐Humidity Range Applicable, Anti‐Freezing, and Robust Zwitterionic Hydrogels for On‐Skin Electronics.

Author

Gong, Min, Wang, Xiaobo, Wu, Zhen, Yue, Liancong, Chen, Qiuji, Li, Hejian, Lin, Xiang, Zhang, Liang, and Wang, Dongrui

Published

2024

26. Achieving a Deeply Desodiated Stabilized Cathode Material by the High Entropy Strategy for Sodium‐ion Batteries.

Author

Liu, Zhaoguo, Liu, Rixin, Xu, Sheng, Tian, Jiaming, Li, Jingchang, Li, Haoyu, Yu, Tao, Chu, Shiyong, M. D'Angelo, Anita, Pang, Wei Kong, Zhang, Liang, Guo, Shaohua, and Zhou, Haoshen

Subjects

CATHODES, PHASE transitions, LATTICE constants, STRUCTURAL stability, OXIDATION-reduction reaction, ELECTRIC batteries, SODIUM ions

Abstract

Manganese‐based layered oxides are currently of significant interest as cathode materials for sodium‐ion batteries due to their low toxicity and high specific capacity. However, the practical applications are impeded by sluggish intrinsic Na+ migration and poor structure stability as a result of Jahn–Teller distortion and complicated phase transition. In this study, a high‐entropy strategy is proposed to enhance the high‐voltage capacity and cycling stability. The designed P2‐Na0.67Mn0.6Cu0.08Ni0.09Fe0.18Ti0.05O2 achieves a deeply desodiation and delivers charging capacity of 158.1 mAh g−1 corresponding to 0.61 Na with a high initial Coulombic efficiency of 98.2 %. The charge compensation is attributed to the cationic and anionic redox reactions conjunctively. Moreover, the crystal structure is effectively stabilized, leading to a slight variation of lattice parameters. This research carries implications for the expedited development of low‐cost, high‐energy‐density cathode materials for sodium‐ion batteries. [ABSTRACT FROM AUTHOR]

Published

2024

27. Challenges and Strategies for Synthesizing High Performance Micro and Nanoscale High Entropy Oxide Materials.

Author

Zhang, Liang, Jia, Jiru, and Yan, Jianhua

Published

2024

28. Formation of 2D Amorphous Lithium Sulfide Enabled by Mo2C Clusters Loaded Carbon Scaffold for High‐Performance Lithium Sulfur Batteries.

Author

Yuan, Huadong, Zheng, Jianhui, Lu, Gongxun, Zhang, Liang, Yan, Tianran, Luo, Jianmin, Wang, Yao, Liu, Yujing, Guo, Tianqi, Wang, Zhongchang, Nai, Jianwei, and Tao, Xinyong

Published

2024

29. Single‐Cell RNA‐Sequencing‐Aided Covalent Organic Frameworks‐Based Microneedle Design Targeting Phototherapy Resistant Tumor Cell.

Author

Zhang, Boxin, Zhang, Liang, Wang, Wuyin, Yang, Enli, Song, An, Xiong, Dian, Yang, Qi‐Chao, Li, Hao, Deng, Hexiang, and Sun, Zhi‐Jun

Subjects

*PHOTOTHERAPY, *NEOVASCULARIZATION inhibitors, *CANCER relapse, *LIGHT absorption, *METASTASIS, *BIOCOMPATIBILITY

Abstract

Covalent organic frameworks (COFs) exhibit immense potential for phototherapy due to their exceptional light absorption, photostability, and biocompatibility. Nevertheless, tumor cells can develop resistance to phototherapy after an initial response, posing a significant challenge for complete eradication. In this study, a COF‐based photosensitizer, TCN‐PPDA‐COF, is designed with outstanding photothermal properties and delivered to tumors using microneedles (MN) to enhance cancer phototherapy. Single‐cell RNA‐sequencing (scRNA‐seq) technology is then utilized to explore the mechanisms underlying tumor cell adaptation to COF‐mediated phototherapy. The scRNA‐seq analysis revealed that phototherapy‐resistant tumor cells displayed elevated expression of HIF‐1α and VEGF signaling pathways, fostering intratumoral angiogenesis and facilitating their continued survival during phototherapy. In response to this phenomenon, a unique CA‐microneedle (MN) patch is developed, tailored for co‐delivering TCN‐PPDA‐COF and angiogenesis inhibitors AL3818 to the tumor site. The CA‐MN patches can effectively inhibit angiogenesis in tumors while mediating phototherapy, thereby obliterating the phototherapy‐resistant tumor cells. In 4T1 tumor‐bearing mouse model, the CA‐MN patches achieved nearly complete regression of tumor grafts and activated host anti‐tumor immunity, thereby enhancing the response rate of αPD‐1 and effectively restraining tumor metastasis and recurrence. This study underscored an ingenious approach to modify COF‐MN patches through scRNA‐seq technology. [ABSTRACT FROM AUTHOR]

Published

2024

30. Water‐Assisted Synthesis of Layer‐Controlled CsPbBr3 Nanoplates Spontaneously Encapsulated in PbBr(OH).

Author

Lian, Zhen‐Dong, Wang, Bo, Wu, Zhi‐Sheng, Lin, Hao, Ding, Ting, Wang, Jin‐Xiao, Zhang, Liang‐Xing, Xu, Jin‐Cheng, Xiao, Peng, Xu, Hua, Wang, Shuang‐Peng, and Ng, Kar Wei

Subjects

OPTOELECTRONIC devices, POLAR solvents, LUMINESCENCE, PEROVSKITE

Abstract

CsPbBr3 nanoplates (NPs) have shown great potential in diverse optoelectronic applications. Despite the wonderful luminescence properties, the inherent instability of these NPs hinders their use in practical situations. Herein, a facile water‐assisted strategy is reported to synthesize highly stable blue emission CsPbBr3 NPs encapsulated in PbBr(OH). The introduction of water directly into the reaction mixture is pivotal, as it triggers the transformation of bulk CsPbBr3 nanocubes into 2‐D CsPbBr3 NPs within the PbBr(OH) matrix, resulting in the formation of CsPbBr3@PbBr(OH) microbricks. Remarkably, the water content in the reaction mixture allows the control of the number of perovskite layers in the NPs, thus enabling the emission color to be tuned from deep blue to green. The unconventional approach presented herein not only offers a cost‐effective pathway to synthesize blue‐emitting perovskites which are highly stable in a wide variety of polar and non‐polar solvents, but also holds immense potential for propelling the advancement of high‐performance LEDs and other optoelectronic devices. The findings underscore the significance of water in dictating the growth dynamics and emission characteristics of perovskite NPs, paving the way for their practical application. [ABSTRACT FROM AUTHOR]

Published

2024

31. KIF11 UFMylation Maintains Photoreceptor Cilium Integrity and Retinal Homeostasis.

Author

Ran, Jie, Guo, Guizhi, Zhang, Sai, Zhang, Yufei, Zhang, Liang, Li, Dengwen, Wu, Shian, Cong, Yusheng, Wang, Xiaohong, Xie, Songbo, Zhao, Huijie, Liu, Hongbin, Ou, Guangshuo, Zhu, Xueliang, Zhou, Jun, and Liu, Min

Subjects

CILIA & ciliary motion, PHOTORECEPTORS, HOMEOSTASIS, UBIQUITINATION, KINESIN

Abstract

The photoreceptor cilium is vital for maintaining the structure and function of the retina. However, the molecular mechanisms underlying the photoreceptor cilium integrity and retinal homeostasis are largely unknown. Herein, it is shown that kinesin family member 11 (KIF11) localizes at the transition zone (connecting cilium) of the photoreceptor and plays a crucial role in orchestrating the cilium integrity. KIF11 depletion causes malformations of both the photoreceptor ciliary axoneme and membranous discs, resulting in photoreceptor degeneration and the accumulation of drusen‐like deposits throughout the retina. Mechanistic studies show that the stability of KIF11 is regulated by an interplay between its UFMylation and ubiquitination; UFMylation of KIF11 at lysine 953 inhibits its ubiquitination by synoviolin 1 and thereby prevents its proteasomal degradation. The lysine 953‐to‐arginine mutant of KIF11 is more stable than wild‐type KIF11 and also more effective in reversing the ciliary and retinal defects induced by KIF11 depletion. These findings identify a critical role for KIF11 UFMylation in the maintenance of photoreceptor cilium integrity and retinal homeostasis. [ABSTRACT FROM AUTHOR]

Published

2024

32. Red pandas with different diets and environments exhibit different gut microbial functional composition and capacity.

Author

LU, Yunwei, ZHANG, Liang, LIU, Xu, LAN, Yue, WU, Lixia, WANG, Jiao, WU, Kongju, YANG, Chaojie, LV, Ruiqing, YI, Dejiao, ZHUO, Guifu, LI, Yan, SHEN, Fujun, HOU, Rong, YUE, Bisong, and FAN, Zhenxin

Subjects

*RED panda, *GUT microbiome, *MUCUS, *MICROBIAL diversity, *ANIMAL health, *DIET, *GASTROINTESTINAL diseases

Abstract

The red panda (Ailurus fulgens) is a distinctive mammal known for its reliance on a diet primarily consisting of bamboo. The gut microbiota and overall health of animals are strongly influenced by diets and environments. Therefore, conducting research to explore the taxonomical and functional variances within the gut microbiota of red pandas exposed to various dietary and environmental conditions could shed light on the dynamic complexities of their microbial communities. In this study, normal fecal samples were obtained from red pandas residing in captive and semi‐free environments under different dietary regimes and used for metabolomic, 16S rRNA, and metagenomic sequencing analysis, with the pandas classified into four distinct cohorts according to diet and environment. In addition, metagenomic sequencing was conducted on mucus fecal samples to elucidate potential etiological agents of disease. Results revealed an increased risk of gastrointestinal diseases in red pandas consuming bamboo shoots due to the heightened presence of pathogenic bacteria, although an increased presence of microbiota‐derived tryptophan metabolites appeared to facilitate intestinal balance. The red pandas fed bamboo leaves also exhibited a decrease in gut microbial diversity, which may be attributed to the antibacterial flavonoids and lower protein levels in leaves. Notably, red pandas residing in semi‐free environments demonstrated an enriched gut microbial diversity. Moreover, the occurrence of mucus secretion may be due to an increased presence of species associated with diarrhea and a reduced level of microbiota‐derived tryptophan metabolites. In summary, our findings substantiate the influential role of diet and environment in modulating the gut microbiota of red pandas, offering potential implications for improved captive breeding practices. [ABSTRACT FROM AUTHOR]

Published

2024

33. Regional difference and prevention strategy of farmland erosion induced by extreme rainstorms in the Loess area and Rocky mountain area of Northern China.

Author

Zhang, Liang, Liu, Yihang, Dong, Yunyun, Liu, Yuanhao, Jidai, Jingqi, Jiao, Juying, Liu, Baoyuan, Chen, Hao, and Han, Jianqiao

Subjects

RAINSTORMS, REGIONAL differences, EROSION, SOIL erosion, LOESS, CLIMATE extremes, EXTREME environments

Abstract

Elucidating the mechanism of soil erosion caused by extreme rainstorms could improve agroecosystems' resilience to the extreme climate. However, less attention has been paid to the regional difference of soil erosion during extreme rainstorms through multiple field investigations. Using six field surveys of extreme rainstorms, soil erosion and its driving mechanism were investigated on farmland in the Loess area and the Rocky mountain area. Conclusions are as follows: (1) Farmland was severely eroded in comparison with abandoned land and forest–grass land. The erosion modulus of farmland in the Loess area (51 606.51 t/km2) was greater than that in the Rocky mountain area (2582.75 t/km2). (2) In both the Loess area and the Rocky mountain area, the main erosion types on sloped cropland and terraced land were rills/gullies and embankment failure, respectively. Terracing is an appropriate measure that can effectively control farmland erosion in rainstorm events. (3) Concentrated flow is a major driver of soil erosion, with nearly all rills/gullies occurring in the flow paths. Drainage measures can prevent the formation of concentrated flow, weakening rills/gullies erosion in farmland. (4) Building bio‐embankment, planting high‐coverage crops, and implementing local protection measures could reduce the farmland erosion influenced by extremely heavy rainfall. Combining drainage and agronomic measures is the common strategy to combat extreme rainstorm events for reducing farmland erosion in the two regions. These results can be applied to improve the ability of agricultural systems to cope with extreme rainstorms. [ABSTRACT FROM AUTHOR]

Published

2024

34. Recent Progress in Anti‐Tumor Nanodrugs Based on Tumor Microenvironment Redox Regulation.

Author

Yao, Lan, Zhu, Xiang, Shan, Yunyi, Zhang, Liang, Yao, Jing, and Xiong, Hui

Published

2024

35. In Situ Biosynthesis of FeS Nanoparticles Boosts Current Generation in Bioelectrochemical Systems Through Efficient Electron Transfer.

Author

He, Yuting, Fu, Qian, Li, Jun, Zhang, Liang, Zhu, Xun, and Liao, Qiang

Published

2024

36. Fast Na+ Kinetics and Suppressed Voltage Hysteresis Enabled by a High‐Entropy Strategy for Sodium Oxide Cathodes.

Author

Wang, Xian‐Zuo, Zuo, Yuting, Qin, Yuanbin, Zhu, Xu, Xu, Shao‐Wen, Guo, Yu‐Jie, Yan, Tianran, Zhang, Liang, Gao, Zhibin, Yu, Lianzheng, Liu, Mengting, Yin, Ya‐Xia, Cheng, Yonghong, Wang, Peng‐Fei, and Guo, Yu‐Guo

Published

2024

37. Thermodynamic description of the FeO–Fe2O3–MgO system and its extrapolation to the X–MgO–FeO–Fe2O3 (X = CaO and SiO2) systems.

Author

Zhang, Liang, Liu, Yuling, Gao, Fengyang, Tan, Jing, Yang, Lianfeng, Deng, Tengfei, Chen, Wei, Ouyang, Yifang, and Du, Yong

Subjects

*THERMODYNAMICS, *WASTE recycling, *SOLID waste, *PHASE equilibrium, *THERMODYNAMIC equilibrium, *IRON oxides

Abstract

The content of iron oxides has a large impact on the properties of magnesium refractories, knowledge about the thermodynamic equilibria of the FeO–Fe2O3–MgO system is important for the design of refractory materials and resource utilization of solid wastes. The phase equilibria and thermodynamic data of the FeO–Fe2O3–MgO system have been critically evaluated and re‐optimized using the CALPHAD method. The ionic two‐sublattice model (Fe+2, Mg+2)P(O−2, Va, FeO1.5)Q was used to describe the liquid phase. A set of self‐consistent thermodynamic model parameters is presented to describe the phase equilibrium of the FeO–Fe2O3–MgO system. The calculated phase diagrams and thermodynamic properties, employing the optimized model parameters, exhibit excellent agreement with the experimental data. Moreover, the results demonstrate improved consistency when extrapolated to the multicomponent system, such as CaO–MgO–FeO–Fe2O3 and SiO2–MgO–FeO–Fe2O3 systems. The present thermodynamic modeling is useful to construct multicomponent oxide thermodynamic database and to guide the utilization of solid waste resources. [ABSTRACT FROM AUTHOR]

Published

2024

38. Historical trends of breast cancer burden attributable to metabolic factors among Chinese women, 1990–2019: A population‐based epidemiological study.

Author

Zhang, Liang‐Zi, Sun, Qi‐Cheng, Luan, Hang‐Hang, Yuan, Qian‐Qian, Deng, Tong, Luo, Li‐Sha, and Tan, Xiao‐Lin

Subjects

*QUALITY-adjusted life years, *RISK assessment, *BODY mass index, *BREAST tumors, *LIFE expectancy, *CANCER patients, *GLOBAL burden of disease, *POSTMENOPAUSE, *DISEASE prevalence, *DESCRIPTIVE statistics, *BLOOD sugar, *WOMEN'S health, *EPIDEMIOLOGICAL research, *FASTING, *PEOPLE with disabilities, *OBESITY

Abstract

Background: This study aims to analyze breast cancer burden attributable to high body mass index (BMI) and high fasting plasma glucose (FPG) in China from 1990 to 2019. Methods: Data were obtained from the Global Burden of Disease (GBD) study 2019. Deaths and disability‐adjusted life years (DALYs) were used for attributable burden, and age‐period‐cohort (APC) model was used to evaluate the independent effects of age, period and birth cohort. Results: In 2019, the age‐standardized mortality and DALY rates of breast cancer attributable to high BMI were 1.107 (95% UI: 0.311, 2.327) and 29.990 (8.384, 60.713) per 100 000, and mortality and DALY rates attributable to high FPG were 0.519 (0.095, 1.226) and 13.662 (2.482, 32.425) per 100 000. From 1990 to 2019, the age‐standardized mortality and DALY rates of breast cancer attributable to high BMI increased by 1.192% and 1.180%, and the trends of high FPG were not statistically significant. The APC results showed that the age effects of high BMI and high FPG‐mortality and DALY rates increased, with the highest rates in the age group over 80 years. The birth cohort effects of high BMI showed "inverted V" shapes, while high FPG showed downward trends. Conclusions: Age was the main reason for the increase of attributable burden, and postmenopausal women were the high‐risk groups. Therefore, targeted prevention measures should be developed to improve postmenopausal women's awareness and effectively reduce the prevalence of obesity and diabetes, thereby reducing the breast cancer burden caused by metabolic factors in China. [ABSTRACT FROM AUTHOR]

Published

2024

39. Outcomes after surgical and nonsurgical treatment of pediatric cerebral cavernous malformation.

Author

Zhang, Haohao, Yu, Qishuai, Mao, Zhiqi, Zhang, Liang, and Yu, Xinguang

Subjects

PEDIATRIC therapy, CHILD patients, EPILEPSY, SURGERY, HUMAN abnormalities, SURGICAL excision

Abstract

Importance: Pediatric cerebral cavernous malformation (CCM) is a rarely encountered vascular entity. Comparative study on surgical excision and nonsurgical management outcomes of CCM in pediatrics is limited. Objective: To determine the demographic characteristics, hemorrhage rate, and long‐term outcomes of pediatric patients with CCM. Methods: A retrospective study of pediatric patients with CCM in Chinese PLA General Hospital was conducted between January 2004 and January 2019. We compared the clinical characteristics, radiological features, and outcomes of the surgical and nonsurgical groups. Results: Seventy‐nine children were included, with 69.6% being boys, and the average age was 11.8 ± 5.5 years. The annual retrospective hemorrhagic rate was 5.7% per patient per year. Fifty‐six children (70.9%) underwent surgical excision, and they were more likely to present with seizure symptoms (P = 0.011), have a higher proportion of larger lesion size (P = 0.008), less likely to have durations ≤10 days (P = 0.048), and less likely to have supratentorial deep CCM (P = 0.014) compared to children who received nonsurgical management. Total resection was achieved in most surgical cases (55, 98.2%). During the 143.9 ± 50.8 months of follow‐up, 44 patients (78.6%) achieved improvement, 12 patients (17.8%) remained the same, and two (3.6%) experienced worsening. In the nonsurgical management group, 14 children (60.9%) experienced symptom improvement, eight (34.8%) remained the same, and one (4.3%) worsened, with a re‐hemorrhagic risk of 8.7%. Interpretation: Surgical removal of pediatric CCM can eliminate the risk of hemorrhage and lead to satisfactory outcomes. For children undergoing nonsurgical management, long‐term close monitoring is essential due to the life‐long risk of hemorrhage. [ABSTRACT FROM AUTHOR]

Published

2024

40. Tire tread rubber compound with high wet skid resistance and low rolling resistance.

Author

Hou, Xiaogeng, Hou, Hongbin, Wang, Yixiao, Qin, Bao, Zhang, Liang, and Wang, Qinggang

Subjects

POLYMER research, POLYMERIZATION, POLYMERS industry, SILICA nanoparticles, SKID resistance

Abstract

The preparation of four types of epoxidized iron‐based comb butadiene‐isoprene rubber (EBIR) with different epoxidation degrees (4.7%, 6.4%, 10.2%, and 12.3%) was investigated for the first time in this study. The modification involved the use of hydrogen peroxide and formic acid as raw materials for the epoxidation process. Following this, silica/EBIR composites were prepared by mixing EBIR with silica nanoparticles, without the use of a silane coupling agent (SCA). The objective was to investigate the influence of the epoxidation degree on the structure and properties of the resulting silica/EBIR nanocomposites. The results indicated that the introduction of epoxy groups had a positive effect on the interfacial interaction between the rubber and filler, leading to improved dispersion of the silica nanoparticles in the rubber matrix. Consequently, the tensile properties, wet skid resistance, and abrasion resistance of the silica/EBIR composites were found to be superior to those of the un‐epoxidized silica/BIR composites. Furthermore, comparing the silica/EBIR‐12.3 nanocomposites with silica/BIR‐Si69 nanocomposites, it was revealed that silica/EBIR‐12.3 showed a 69.4% enhancement in wet skid resistance and an 8.0% reduction in rolling resistance. These findings demonstrate the potential of silica/EBIR composites for high‐performance tire tread rubber applications, offering environmental benefits and improved properties. [ABSTRACT FROM AUTHOR]

Published

2024

41. Prediction of Operational Lifetime of Perovskite Light Emitting Diodes by Machine Learning.

Author

Zhang, Liang, Lu, Feiyue, Tao, Guanhong, Li, Mengmeng, Yang, Zhen, Wang, Airu, Zhu, Wei, Cao, Yu, Jin, Yizheng, Zhu, Lin, Huang, Wei, and Wang, Jianpu

Subjects

LIGHT emitting diodes, MACHINE learning, PEROVSKITE, DATA augmentation

Abstract

Perovskite light‐emitting diodes (LEDs) with advantages of high electroluminescence efficiency at high brightness, good color purity, and tunable bandgap, are believed to have potential applications in the next generation display and lighting technologies. Due to the complex degradation process, mathematic models to describe the degradation process of perovskite LEDs are absent. In this work, it is found that the mathematical fitting methods which have been widely used to describe the decay trend of organic LEDs and quantum‐dot LEDs, are unable to accurately predict the lifetime of perovskite LEDs. Then an ensemble machine learning model is developed, which utilizes data augmentation technique to predict T50 of perovskite LEDs based on features before T80, achieving an accuracy of 0.995. Furthermore, the model can also accurately predict the T90 lifetime of quantum‐dot LEDs (QLEDs) using features before T98, suggesting it is a useful tool to efficiently evaluate LED lifetimes. [ABSTRACT FROM AUTHOR]

Published

2024

42. P‐140: The Miniaturization of InGaN/GaN Micro‐LEDs for Micro‐Displays – Size Effects, Frequency Dispersion and Compact Modeling.

Author

Gong, Yujia, Zhang, Liang, Lin, Pujian, Yuan, Ze, Peng, Lian-Mao, and Kang, Jiahao

Subjects

PULSE frequency modulation, MIXED reality, INDIUM gallium nitride, ELECTRIC capacity, DIODES

Abstract

InGaN/GaN green micro‐light‐emitting diode (micro‐LED, μLED) arrays with varying device sizes down to 4 μm are fabricated and characterized. The size effects on current‐voltage and capacitance‐voltage characteristics are analyzed showing minimal sidewall effects only at low bias. The influence of pulse modulation frequency on luminance is also characterized and the effect of diode negative capacitance is discussed. Subsequently, a universal and comprehensive compact model for μLEDs are built based on these findings, which covers the capacitance frequency dispersion and size scaling effects. This work reveals the significance of frequency in the display driving strategy and provides design enablement for μLED micro‐display applications including augmented/mixed reality (AR/MR). [ABSTRACT FROM AUTHOR]

Published

2024

43. Superficial radiotherapy (SRT‐100) for refractory plantar warts: An alternative noninvasive treatment strategy.

Author

Song, Ying‐hua, Deng, Shuang, Cai, Wei‐na, and Zhang, Liang

Subjects

WARTS, MIDDLE-aged persons, RADIOTHERAPY, REFRACTORY materials, DISEASE relapse, THERAPEUTICS

Abstract

Background: Verrucas that occur on the soles of the feet are called plantar warts, most of which can recur repeatedly and are difficult to eradicate. Hypertrophic and refractory plantar warts are often accompanied by pain and discomfort, which cause many inconveniences in patients' daily lives. Aim: This study aimed to analyze the therapeutic effect of superficial radiotherapy (SRT‐100) on refractory plantar warts and further create favorable conditions for the subsequent treatment of this disease with a high recurrence rate. Methods: A retrospective analysis was conducted for refractory plantar warts treated with superficial radiotherapy in our outpatient department from January to June 2023. Results: A total of 30 patients were included in our study (median age, 33 years). The female‐to‐male ratio was 1:3.29. Two to six months after radiotherapy, all of the warts subsided in 23 (76.67%) patients, most of the warts subsided in 4 (13.33%) patients, 3 (10%) patients did not respond to treatment, and 7 (23.33%) patients had recurrent or new warts after their warts subsided. Conclusions: Most patients with refractory plantar warts improved after superficial radiotherapy. Our study presented that men are more susceptible to plantar warts than women, and young and middle‐aged people are the main population affected by the disease. Superficial radiotherapy is an effective treatment for refractory plantar warts, which can quickly remove the warts in a short period. It is safe and noninvasive, with minimal adverse reactions. Some patients relapse after the lesion is clear, and superficial radiotherapy can create favorable conditions for the subsequent treatment of viral warts in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

44. High maneuverability of the falcon flying robot.

Author

Zhang, Liang, He, Xiuyu, He, Wei, Zhang, Sujie, Zhao, Min, and Zhao, Hongxue

Subjects

FLIGHT testing, ROBOTS, AEROFOILS, POLYPROPYLENE

Abstract

This paper presents a highly maneuverable flapping‐wing flying robot (FWFR) capable of achieving high speeds and large roll angles. The airfoil of the wing is designed based on lift and drag generation mechanisms, and the wing is manufactured using the expanded polypropylene injection method. Drawing inspiration from the tail fin of natural falcons, the tail is designed and an aerodynamic model is established to guide the tail control surface's variation range. During the flight test, the FWFR demonstrates outstanding maneuverability. It achieves a rapid roll angle of 120∘ $12{0}^{\circ }$ within 1 s. Moreover, it exhibits a rapid descent, reaching a descent rate of 15 m in 2 s. Additionally, the FWFR attains a maximum speed of 20 m/s. The FWFR successfully executes several dive and turn maneuvers, thereby showcasing its exceptional maneuverability. [ABSTRACT FROM AUTHOR]

Published

2024

45. Leukotriene B4‐induced neutrophil extracellular traps impede the clearance of Pneumocystis.

Author

Zhou, Yanxi, Deng, Shuwei, Du, Chunjing, Zhang, Liang, Li, Lan, Liu, Yujia, Wang, Yijie, Zhang, Yue, and Zhu, Liuluan

Subjects

PNEUMOCYSTIS pneumonia, NEUTROPHILS, PNEUMOCYSTIS jiroveci, MYCOSES, LUNG injuries, LUNG diseases

Abstract

Pneumocystis pneumonia (PCP) is a fungal pulmonary disease with high mortality in immunocompromised patients. Neutrophils are essential in defending against fungal infections; however, their role in PCP is controversial. Here we aim to investigate the effects of neutrophil extracellular traps (NETs) on Pneumocystis clearance and lung injury using a mouse model of PCP. Intriguingly, although neutrophils play a fundamental role in defending against fungal infections, NETs failed to eliminate Pneumocystis, but instead impaired the killing of Pneumocystis. Mechanically, Pneumocystis triggered Leukotriene B4 (LTB4)‐dependent neutrophil swarming, leading to agglutinative NET formation. Blocking Leukotriene B4 with its receptor antagonist Etalocib significantly reduced the accumulation and NET release of neutrophils in vitro and in vivo, enhanced the killing ability of neutrophils against Pneumocystis, and alleviated lung injury in PCP mice. This study identifies the deleterious role of agglutinative NETs in Pneumocystis infection and reveals a new way to prevent NET formation, which provides new insights into the pathogenesis of PCP. [ABSTRACT FROM AUTHOR]

Published

2024

46. A series‐fed frequency scanning antenna for millimeter wave wireless communication.

Author

Liu, Lu, Luo, Feixiang, Zhang, Liang, and Wang, Yan

Abstract

In the realms of 5G and the upcoming 6G communications, the millimeter‐wave bands offer substantially greater bandwidth. However, due to their propagation characteristics, aligning antennas becomes a challenging issue, particularly at the node side in industrial and vehicular network applications. Angle‐scanning antennas can significantly enhance communication reliability or provide new possibilities for spatial multiplexing. Previous studies have predominantly concentrated on frequency‐scanning antennas characterized by either low‐gain individual units or expensive digital arrays. Consequently, there has been a scarcity of solutions that are both cost‐effective and high‐gain. In this study, a method is proposed for achieving frequency scanning by extending the feed lines between elements. Based on this approach, a millimeter‐wave high‐gain serial‐feed frequency‐scanning antenna is developed. This antenna operates within the 60–64 GHz millimeter‐wave ISM (Industrial, Scientific, and Medical) band and is capable of performing a 10∘$^\circ$ scan in the E‐plane. Moreover, the antenna maintains a width of less than half a wavelength, allowing for the assembly of multiple antennas into a MIMO array.In this study, we propose a cost‐effective method for achieving frequency scanning by extending the feed lines between elements, resulting in a high‐gain millimeter‐wave serial‐feed frequency‐scanning antenna. Operating within the 60–64 GHz ISM band, this antenna achieves a 10∘$^\circ$ scan in the E‐plane and maintains a width of less than half a wavelength, facilitating MIMO array integration. [ABSTRACT FROM AUTHOR]

Published

2024

47. Ligand‐Selective Targeting of Macrophage Hydrogel Elicits Bone Immune‐Stem Cell Endogenous Self‐Healing Program to Promote Bone Regeneration.

Author

Wang, Jiahao, Zhang, Liang, Wang, Lingjun, Tang, Jincheng, Wang, Wei, Xu, Yichang, Li, Ziang, Ding, Zhouye, Jiang, Xinzhao, Xi, Kun, Chen, Liang, and Gu, Yong

Published

2024

48. Changing Liquid Crystal Helical Pitch with a Reversible Rotaxane Switch.

Author

Chen, Sujun, Katsonis, Nathalie, Leigh, David A., Patanapongpibul, Manee, Ryabchun, Alexander, and Zhang, Liang

Subjects

LIQUID crystals, ROTAXANES, LIQUID crystal states, CHOLESTERIC liquid crystals, NEMATIC liquid crystals, CHIRALITY

Abstract

The transmission of chiral information between the molecular, meso and microscopic scales is a facet of biology that remains challenging to understand mechanistically and to mimic with artificial systems. Here we demonstrate that the dynamic change in the expression of the chirality of a rotaxane can be transduced into a change in pitch of a soft matter system. Shuttling the position of the macrocycle from far‐away‐from to close‐to a point‐chiral center on the rotaxane axle changes the expression of the chiral information that is transmitted across length scales; from nanometer scale constitutional chirality that affects the conformation of the macrocycle, to the centimeter scale chirality of the liquid crystal phase, significantly changing the pitch length of the chiral nematic structure. [ABSTRACT FROM AUTHOR]

Published

2024

49. Kinetic study on the reaction between CO2 and tertiary amine catalyzed by zinc(II) aza‐macrocyclic complexes.

Author

Du, Meng‐Meng, Sun, Bao‐Chang, Wang, Bei‐Bei, Luo, Yong, Zhang, Liang‐Liang, Chu, Guang‐Wen, Zou, Hai‐Kui, and Chen, Jian‐Feng

Subjects

TERTIARY amines, ZINC, CATALYTIC activity, CHEMICAL kinetics, ACTIVATION energy, DIETHANOLAMINE

Abstract

In this work, the kinetics study on the reaction between CO2 and tertiary amine catalyzed by zinc(II)‐1,4,8,11‐tetraazacyclotetradecane complexes (CM) and zinc(II)‐1,4,7,10‐tetraazacyclododecane complexes (CN) was carried out in a stopped‐flow device. The effects of the catalyst concentration, type of tertiary amines, and temperature on the reaction rate (ν) and catalytic activity (φ) were studied. It was found that the catalyst concentration, tertiary amine with higher pKa, and temperature had positive effects on ν. ν in N‐methyl diethanolamine solution with 10.0 mol m−3 CM and CN were 16.62 and 26.05 folds than the uncatalyzed ν at 298 K, respectively. φ increased with increasing catalyst concentration, decreasing temperature and tertiary amine's pKa. In addition, the kinetics behavior of tertiary amine‐CM/CN‐CO2 systems conformed to the Michaelis–Menten model. The activation energies in catalytic systems were 4%–15% lower than that in the non‐catalytic systems. [ABSTRACT FROM AUTHOR]

Published

2024

50. Micro‐feeding of nanoparticles under ultrasonic vibration.

Author

Lu, Haifeng, Zhang, Liang, Du, Hui, Zhu, Lizhuo, Guo, Xiaolei, and Liu, Haifeng

Subjects

NANOPARTICLES, ULTRASONICS, EXPONENTIAL functions, IMAGE processing

Abstract

Understanding the collective flow of nanoparticles is important for handling the storing, dosing, and conveying of nanoparticles. We experimentally studied the discharge characteristics of nanoparticles from the hopper through a microchannel under ultrasonic vibration. Results show that ultrasonic vibration can effectively trigger the flow of jammed nanoparticles, which flows in the form of aggregates at a controllable discharge rate as low as 0.1 mg/s. The aggregate properties were obtained from high‐speed image processing technology. The multi‐stage flow mechanism was revealed: particle re‐arrangement at low amplitude and wall slip at high amplitude. Given this, the discharge rate model was developed by introducing an exponential function G(Fr) into the traditional Beverloo equation. The modified model describes both the self‐organized behavior at low amplitudes and velocity scaling caused by acceleration at high amplitudes, successfully predicting the discharge rate within ± 10% errors. [ABSTRACT FROM AUTHOR]

Published

2024