Your search keyword '"Liu Kun"' showing total 18,151 results

1. Radiation preparation of nano-oxide@microcrystalline cellulose and its adsorption and removal of trichloroacetic acid

Author

FU Lili, WANG Zhijun, LIU Kun, TANG Dongxu, YANG Jinyu, CHEN Huangqin, and LI Yuesheng

Subjects

microcrystalline cellulose, glycidyl methacrylate, trichloroacetic acid, pre-radiation grafting, embedding, adsorption, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Trichloroacetic acid is a common nonvolatile byproduct of drinking water disinfection and poses carcinogenic risks to the human body. In this study, four types of nano-oxide@microcrystalline-cellulose-based adsorbents (P25@microcrystalline cellulose, SiO₂@microcrystalline cellulose (MCC-g-GMA@SiO2), Fe3O4@microcrystalline cellulose, and Fe2O3@microcrystalline cellulose) were successfully prepared by the pre-radiation grafting-embedding method. Subsequently, their ability to remove trichloroacetic acid from drinking water was investigated. The micro zonation morphology and surface properties of the materials were characterized and tested using Fourier transform infrared spectroscopy (FTIR), X-ray diffraction spectroscopy (XRD), Thermogravimetric (TG) analysis, and Scanning electron microscopy (SEM) characterization methods. The effects of monomer concentration, embedding concentration, and absorbed dose on the weight gain rate were systematically investigated. A complete static adsorption equilibrium curve was obtained on the basis of the results of adsorption experiments of four buried nano-oxides. The performance of SiO2@microcrystalline cellulose was found to be significantly higher than that of the other three adsorbents. When the volum percentage of monomer concentration was 30%, the mass percentage of embedding concentration was 4%, and the absorbed dose was 60 kGy, the removal rate of trichloroacetic acid in drinking water reached 83.27%. This series of adsorbent materials present significant potential for practical application in drinking water purification.

Published

2024

2. Radiation construction and display performance of a thioglycollic acid-modified cadmium sulfide quantum dots/polyvinyl acetate gel fingerprint film

Author

ZHANG Jin, ZHANG Yanglin, LIU Kun, ZHOU Shizhong, LI Yuesheng, and CHEN Huangqin

Subjects

radiation, quantum dots, pvac gel, fingerprint film, display performance, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Fingerprints are an important trace material evidence for police to identify criminal. Cadmium sulfide quantum dots (CdS QDs) are fluorescent-labeled nanomaterials that can be used to improve the clarity and resolution of fingerprints. In this study, thioglycollic acid (TGA) was successfully modified to CdS QDs using the in-situ radiation reduction method, and synthetic TGA-CdS QDs were combined with polyvinyl acetate (PVAc) to form a TGA-CdS QDs/PVAc gel fingerprint film for fingerprint development. The structure and properties of the TGA-CdS QDs were characterized and tested using Fourier transform infrared (FTIR) spectroscopy, fluorescence spectrum, X-ray diffraction (XRD), and scanning electron microscopy (SEM). The effects of temperature, concentration of TGA-CdS QDs, pH, and mass fraction of the PVAc gel fingerprint film on fingerprint development were investigated. The results showed that a combination of 6 mg/mL TGA-CdS QDs solution with 20% PVAc gel fingerprint film at room temperature (25 ℃) and pH of 9.0 resulted in the clearest, most complete, and high-resolution fingerprint patterns of fluorescence display. The carboxylic acid group formed by TGA-CdS QDs in an alkaline solution completely combined with the amino acids, proteins, fats, urea, and other components of the fingerprint residue attached to the PVAc gel film. Under ultraviolet irradiation, the fingerprint lines were clearly displayed in the form of fluorescence. The fingerprint display method can be effectively used in criminal investigation.

Published

2024

3. Multimodal imaging in predicting left ventricular remodeling after PPCI in patients with acute ST-segment elevation myocardial infarction

Author

CHEN Si, CHEN Yun'an, ZHANG Jie, ZHOU Ying, LI Mingzhu, and LIU Kun

Subjects

acute st-segment elevation myocardial infarction, left ventricular remodeling, three-dimensional speckle tracking echocardiography, myocardial work, cardiac magnetic resonance, late gadolinium enhancement, Medicine

Abstract

Objective To investigate the predictive value of three-dimensional speckle tracking echocardiography (3D-STE), myocardial work (MW), and late gadolinium enhancement cardiac magnetic resonance (CMR-LGE) in left ventricular remodeling (LVR) after acute ST-segment elevation myocardial infarction (STEMI). Methods A total of 77 patients with STEMI who underwent primary percutaneous coronary intervention (PPCI) from August 2022 to August 2023 in Lianyungang First People's Hospital were enrolled. All patients underwent routine transthoracic echocardiography (TTE), 3D-STE, and MW within 24 hours after surgery. The left ventricular parameters including global longitudinal strain (GLS), global radial strain (GRS), global circumferential strain (GCS), global area strain (GAS), global work index (GWI), global effective work (GCW), global wasted work (GWW), and global work efficiency (GWE) were measured. CMR-LGE was performed within 7 days after surgery, and TTE, 3D-STE, and MW were repeated at 3 months after surgery. The increase left ventricular end-diastolic volume (LVEDV) ≥20% was defined as LVR after myocardial infarction. The predictive value of each index for LVR after myocardial infraction (MI) was analyzed. Results According to the LVR gold standard, there were 18 cases in the LVR group (23.4%) and 59 cases in the non-LVR group (76.6%). Compared with the non-LVR group, TTE-LVEF, GWI, GCW, GWE, GLS, GRS, GCS, GAS decreased, TTE-LVESV and GWW increased, infarct size (IS) increased and CMR-LVEF decreased in the LVR group. At 3 months follow up after PPCI, the LVR group had lower GWI, GCW, GWE, GLS, GRS, TTE-LVEF than the non-LVR group (P＜0.05). Multivariate logistic regression and ROC analysis showed that CMR-IS, GWI, GLS and GAS were independent predictors of LVR (P＜0.01), and their AUC were 0.815, 0.806, 0.775, 0.734, respectively. Conclusion 3D-STE and MW are helpful in predicting LVR after PPCI in STEMI patients, especially GLS and GWI, which are similar in value and not inferior to CMR-IS.

Published

2024

4. Radiolytic Stability of N-Donor Soft Ligands for Actinide(Ⅲ)/Lanthanide(Ⅲ) Separation

Author

HU Yun-ping, WANG Jian, LYU Can, LIU Kun-lin, and NONG Shu-ying

Subjects

ma/ln separation, n-donor soft ligands, btp, γ radiation, α radiation, stability, Nuclear engineering. Atomic power, TK9001-9401, Chemical technology, TP1-1185

Abstract

The waste from nuclear power plants worldwide has to be isolated from humans and his environment for about 100 000 years to equal the levels of natural uranium. If, however, the long-lived actinides could be separated from the spent fuel and transmuted, then the isolation time could be shortened to about 1 000 years. It is known that one class of N-containing soft ligands has excellent extraction ability and selectivity for minor actinides (MA), the separation of MA/lanthanides(Ln) from high level waste has been expected. One of the limiting points to ensure a safe and stable long-term operation is the resistance against radiation of all chemicals involved in the systems due to the highly radioactive field and high nitric acid concentration. Derivatives of 2,6-bis(1,2,4-triazine-3-yl)pyridine(BTP), 6,6'-bis(1,2,4-triazin-3-yl)-2,2'-bipyridine(R-BTBP) and 2,9-bis(1,2,4-triazin-3-yl)-1,10-phenanthroline(R-BTPhen) were widely employed for trivalent minor actinoid and lanthanoid separation in the promising innovative Selective Actinide Extraction(i-SANEX) and Grouped Actinide Extraction(EURO-GANEX) processes. However, researches towards radiolytic stability of these N-donor ligands presented controversial results. Herein, researches on stability against γ-radiation or α-radiation of R-BTP, R-BTBP, R-BTPhen and 2,6-bis[1H-1,2,3-triazol-4-yl]-pyridine(PyTri) at different experimental conditions and solvent formulations are reviewed. In most cases, γ irradiations were performed using 60Co sources and α irradiation were performed using 241Am or 244Cm solution. The effects of molecular structure, dose and dose rate, contact between phases, oxygen content, different phase composition, acidity, diluent and phase modifier on the γ-radiation stability of these ligands are introduced. The performance and changes in the composition have been analyzed during the irradiation experiment by different techniques, such as Raman spectroscopy, HPLC-MS and ICP-MS, to determine the degradation of the organic or aqueous solvents. These data were used to provide critical insight into the fundamental radiolysis mechanisms responsible for the radiolytic stability of ligands. In general, degradation was slower in the presence of both organic and aqueous phases during irradiation for both the hydrophobic and hydrophilic ligands. However, different experimental conditions and solvent formulations may lead to different degradation paths and degradation rates, and these experimental results are not comparable. Moreover, it is generally accepted that simulate radiation conditions, usually 60Co, may exaggerate or underestimate the influence of radiation effects. The controversial results obtained demonstrate the importance of developing realistic irradiation experiments where different factors affecting the performance can be easily studied and isolated. The existing problems in the study of radiolytic stability are summarized, and the key research directions in this field are prospected.

Published

2024

5. ViT-UperNet: a hybrid vision transformer with unified-perceptual-parsing network for medical image segmentation

Author

Yang Ruiping, Liu Kun, Xu Shaohua, Yin Jian, and Zhang Zhen

Subjects

Medical image segmentation, Deep learning, Self-attention mechanism, Masked autoencoder, Electronic computers. Computer science, QA75.5-76.95, Information technology, T58.5-58.64

Abstract

Abstract The existing image semantic segmentation models have low accuracy in detecting tiny targets or multi-targets at overlapping regions. This work proposes a hybrid vision transformer with unified-perceptual-parsing network (ViT-UperNet) for medical image segmentation. A self-attention mechanism is embedded in a vision transformer to extract multi-level features. The image features are extracted hierarchically from low to high dimensions using 4 groups of Transformer blocks with different numbers. Then, it uses a unified-perceptual-parsing network based on a feature pyramid network (FPN) and a pyramid pooling module (PPM) for the fusion of multi-scale contextual features and semantic segmentation. FPN can naturally use hierarchical features, and generate strong semantic information on all scales. PPM can better use the global prior knowledge to understand complex scenes, and extract features with global context information to improve segmentation results. In the training process, a scalable self-supervised learner named masked autoencoder is used for pre-training, which strengthens the visual representation ability and improves the efficiency of the feature learning. Experiments are conducted on cardiac magnetic resonance image segmentation where the left and right atrium and ventricle are selected for segmentation. The pixels accuracy is 93.85%, the Dice coefficient is 92.61% and Hausdorff distance is 11.16, which are improved compared with the other methods. The results show the superiority of Vit-UperNet in medical images segmentation, especially for the low-recognition and serious-occlusion targets.

Published

2024

6. Association between matrix metalloproteinase-3 gene polymorphism and susceptibility to chronic periodontitis: A systematic review and meta-analysis

Author

Hu Ankang, Wang Xin, Ai Lisi, Liu Kun, and Kong Lingxue

Subjects

matrix metalloproteinase-3, gene polymorphism, chronic periodontitis, meta-analysis, Biochemistry, QD415-436

Abstract

Background: This study aimed to explore the correlation between the Matrix Metalloproteinase-3 (MMP-3) 1171 5A/6A gene polymorphism and susceptibility to Chronic Periodontitis (CP). Methods: Following the PRISMA guidelines, a systematic search was conducted across four electronic databases (PubMed, Embase, Web of Science, and Cochrane Library) without any time or language limitations. The selection criteria included case-control studies examining the association between the MMP-3 gene polymorphism and CP. The data were independently extracted and cross-checked by two reviewers. The Newcastle-Ottawa Scale (NOS) was used to assess the quality of the studies. Statistical heterogeneity and publication bias were assessed. Results: Five studies, published between 2004 and 2019, met the inclusion criteria for the meta-analysis. No significant association was observed between MMP-3 gene polymorphism and CP susceptibility across all subjects in the four gene models. However, subgroup analysis revealed significant differences based on genotyping methods and smoking habits. Using PCR-RFLP genotyping method, the allele and additive models showed a positive correlation with the risk of CP (5A vs 6A, OR=1.12, 95%CI (1.02č 1.23); 5A5A vs 6A6A, OR=2.85, 95%CI (1.61č4.86)). In contrast, using Sanger sequencing method, the 5A mutation appeared to reduce CP susceptibility (5A vs 6A, OR=0.77, 95%CI (0.67č0.87); 5A5A vs 6A6A, OR= 0.20, 95%CI (0.09č0.42)). Moreover, smoking habits appeared to modulate the risk. Among smokers, the 5A mutation increased susceptibility to CP, while among nonsmokers it decreased. Conclusions: While no significant correlation was found in the overall population, the stratified analysis revealed nuanced relationships contingent on genotyping methods and smoking habits.

Published

2024

7. Key Model Technologies of CMA-GFS V4.0 and Application to Operational Forecast

Author

Zhang Jin, Sun Jian, Shen Xueshun, Su Yong, Ma Zhanshan, Jing Hao, Liu Qijun, Zhang Hongliang, Jiang Qingu, Chen Fengfeng, Li Zhe, Jin Zhiyan, Wu Xiangjun, Liang Miaoling, and Liu Kun

Subjects

cloud microphysics, convection parameterization, mass conservation correction, reference profile, Meteorology. Climatology, QC851-999

Abstract

To address problems including underestimation of heavy precipitation, rapid decay of synoptic systems and low computational efficiency in operational forecast of CMA-GFS V3.3, some key technologies related to physics and dynamics of the model are developed and applied.A suite of graupel-related microphysical processes is adopted in the cloud microphysics scheme to improve the forecast performance of heavy precipitation. These processes include graupel colliding with cloud water, ice crystals and snow, automatic conversions of ice crystals to graupel and snow to graupel, melting process of graupel to raindrop and sublimation process of graupel. In addition, the evaporation rate of cloud and rainwater is restricted, which can increase the liquid water content in warm areas and improve precipitation efficiency.In the convection parameterization scheme, the role of the sub-cloud environmental relative humidity to convection triggers is considered, and the unreasonable occurrence of convections in dry environment is suppressed. Also, the sensitivity of the entrainment rate of the convective updraft to the relative humidity outside the cloud is enhanced to weaken the convections in dry environment. At the same time, the quasi-equilibrium closure scheme is optimized to improve the accuracy in calculating cloud-base mass flux which is related to the convection intensity.To solve the problem of the mass loss in long time integration, a mass conservation correction method is introduced to the model dynamic framework. The method is developed to ensure the mass conservation by adjusting mass in each grid box according to different weight coefficients which are determined by the change of total atmospheric mass of the current time step relative to the previous step.In terms of computational efficiency, the two-dimensional reference profile algorithm is developed. Without losing calculation accuracy, the model integration time step is extended from 240 s to 300 s using the new profile instead of the original three-dimensional reference profile. Meanwhile, the PCSI method is adopted instead of the GCR method, which reduces the time consuming of solving Helmholtz equation. In addition, the radiation scheme and predictor-corrector algorithms are also optimized to improve the computational efficiency.Through the application of the above key technologies, the forecasting skills for weather pattern and precipitation of CMA-GFS are significantly improved. And its computational efficiency is increased by about 1/3, which meets operational time requirement for the model with 0.125° horizontal resolution. Based on the improved model and the research achievements in other aspects of the forecast system, CMA-GFS is upgraded to V4.0 with a significantly improved comprehensive performance.

Published

2023

8. Hsa-miR-223-3p participates in the process of anthracycline-induced cardiomyocyte damage by regulating NFIA gene

Author

Han Xiao, Liu Kun, Gao Fumin, Yang Mingjun, and Wang Fei

Subjects

mir-223-3p, nfia, cardiomyocyte damage, anthracyclines, Medicine

Abstract

Irreversible cardiomyopathy was caused by the therapeutic of anthracyclines in the chemotherapy of cancers. The cell apoptosis and autophagy were induced by anthracyclines in AC16 cells. MiR-223-3p ascends in anthracycline-treated AC16, but the expression of nuclear factor I-A (NFIA) was specifically down-regulated. However, the underlying molecular mechanism between NFIA and miR-223-3p is unclear now in AC16 cells. In our research, NFIA expression was dampened in AC16 cells by miR-223-3p mimics. Additionally, miR-223-3p knockdown hindered the apoptosis and autophagy in anthracycline-treated AC16. Furthermore, NFIA was predicted and verified as a miR-223-3p’s downstream target and rescued the functions of miR-223-3p. These findings illustrated that miR-223-3p advances anthracycline-stimulated cardiomyocyte damage progression by targeting NFIA, implying the promising therapeutic function of miR-223-3p on cardiomyocyte damage in cancer patients.

Published

2023

9. Optimal coordination of zero carbon building energy systems

Author

Guo Wangyi, Xu Zhanbo, Liu Jinhui, Liu Yaping, Wu Jiang, Liu Kun, and Guan Xiaohong

Subjects

zero carbon building energy systems, seasonal-daily scheduling, multi-energy storage, two-stage robust optimization, Science, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Optimal scheduling of renewable energy sources and building energy systems serves as a pivotal strategy for achieving zero carbon emission. However, the coordination of zero carbon building energy systems (ZCBS) is still challenging due to the complicated interactions among multi-energy hybrid storage and the complex coordination between seasonal and daily scheduling. Therefore, this study develops a coordination scheduling approach for ZCBS. An operation model and a seasonal-daily scheduling approach are developed to optimize the operation of hydrogen, geothermal, and water storage devices. The performance of the developed method is demonstrated using numerical case studies. The results show that the ZCBS can be achieved by using renewable energy sources with the system flexibility provided by hydrogen, geothermal, and water storage devices. It is also found that the developed scheduling approach reduces operation costs by more than 43.4% under the same device capacity, compared with existing scheduling approaches.

Published

2024

10. GA optimization-based BRB AI reasoning algorithm for determining the factors affecting customer churn for operators

Author

Liu Kun, Hassan Alli, and Khairul Aidil Azlin Abd Rahman

Subjects

Customer churn, Telecommunication service Provider, Genetic algorithm, BRB, Influence factors, History of scholarship and learning. The humanities, AZ20-999, Social sciences (General), H1-99

Abstract

Customer churn directly leads to the weakening of the economic efficiency of an operator and even the loss of its competitive advantage in the market share. The identification and prediction of customer churn in the era of interconnection has become more complex, as it not only is based on the analysis of customer information and customer churn data but also must take into account the intricate relationships between the market economy and culture. In the era of big data, numerous predictive models are based on more redundant features, which increases the complexity of the algorithms and the difficulty of analyzing customer churn. Therefore, in this paper, a belief rule base (BRB) artificial intelligence inference algorithm based on GA optimization to determine the factors affecting customer churn for operators proposed. First, customer churn data from a website are analyzed, and features are extracted. Second, a BRB is established from the experience of operator experts, and a BRB inference prediction model is constructed for predicting and analyzing customer churn. Finally, the BRB model is optimized by GA optimization, the input characteristics with high feature weights are obtained, and the accuracy of the churn analysis is verified according to the obtained features. The results show that this method not only outperforms the comparative SVM and BP neural network models for predicting customer churn but also provides better judgment of the main inputs of customer churn, thus reducing the reliance on input information, optimizing the complexity of the algorithm, and enabling operators to obtain a more accurate understanding of the main factors that lead to churn.

Published

2024

11. Assessment of potential ecological risk based on the vertical characteristics of potential toxic elements in sediments from a high-density cage culture reservoir in China

Author

Zhang Jing, Liu Kun Yi, Guo Chen Lin, Zhang Jian-min, and Xing Bing

Subjects

Sediment, Cage culture, Heavy metals, Vertical characteristic, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

The pollution of sediments around Lu Ban Island is a serious environmental issue that is threatening human health. The concentration of As, Cd, Cu, Cr, Hg, Ni, Pb, and Zn at 73 layer points were investigated, vertical distribution characteristics, correlation among potential toxic elements and potential ecological risks of sediments at different depth were analyzed. The following results were obtained, (1) the hypothesis that there was a linear relationship between concentration of potential toxic elements and the reciprocal of deep was reasonable. Based on hypothesis, the ultimate value of concentration by making depth go to infinity was regarded as the background concentration. The background concentration of As, Cd, Cu, Cr, Hg, Ni, Pb, and Zn are respectively 4.94 mg/kg, 0.20 mg/kg, 15.48 mg/kg, 58.41 mg/kg, 0.062 mg/kg, 26.96 mg/kg, 20.29 mg/kg, and 53.31 mg/kg. (2) But correlation between Ni and As was relatively weak, high degree of correlation among other potential toxic elements were found. Based on their correlation, eight potential toxic elements were classified into three groups. First group included Ni and Cr, mainly releasing by coal burning; Cu, Pb, Zn, Hg, and Cd were grouped together, possibly due to their shared source of fish cage culture; Arsenic with relatively weak correlation with other potential toxic elements was classified as a separate class, which was usually one important mineral resource associated with phosphate. (3) Potential ecological risk index (PERI) of sediment above − 0.40 m belonged to moderate risk, the PERI of sediment in − 0.10 m, − 0.20 m, and − 0.40 m were 289.06, 254.33, and 201.44, respectively. Sediment below − 0.40 m belonged to low risk with average PERI value 112.82, with no significant changes in PERI values. The order of contribution to PERI was Hg > Cd > As > Cu > Pb > Ni > Cr > Zn. (4) According to result of cluster analysis and potential ecological risk, the potential ecological risk of sediment above − 0.40 m mainly contributed by potential toxic elements of Cu, Cd, Hg, Pb, and Zn sharing source of fish cage culture.

Published

2023

12. Combined control strategy of half-bridge MMC DC side fault current limiting

Author

WEI Xingjie, ZHANG Yingmin, LIU Kun, and LI Baohong

Subjects

half-bridge modular multilevel converter (mmc), direct current (dc) grid, dc fault, fault current calculation, current-limiting link, combined control, Applications of electric power, TK4001-4102

Abstract

The flexible direct current (DC) grid based on modular multilevel converter (MMC) has a high current peak value and a very fast rising speed during a DC short-circuit fault. In order to limit the impact of fault current on the system in a short period of time, a fault current-limiting combined control strategy suitable for half-bridge MMC was proposed. By using the high controllability of MMC itself, the fault limit can be achieved without external current limiting device, and it can reduce the technical requirements for DC circuit breakers. Firstly, two different current-limiting links and their basic principles in the current-limiting control strategy are explained. Secondly, the influences of the two current-limiting links on the DC fault current, AC current and bridge arm current are analyzed respectively, and the calculation formula of DC fault current under current-limiting control is deduced. Finally, a half-bridge MMC four-terminal DC grid model is built on the PSCAD/EMTDC platform for simulation analysis. The results show that the current limiting combined control strategy can effectively limit the DC fault current and reduce the power and voltage fluctuations of the near-end converter at the fault point. It can also reduce the peak value of AC current and bridge arm current.

Published

2023

13. Mechanical performance and carbonation resistance of basalt fiber—polypropylene fiber rubber concrete

Author

Liu Kun, Liu Hua Xin, Liu Bei Bei, and Liu Ya Nan

Subjects

basalt fiber, polypropylene fiber, rubber concrete, mechanical properties, carbonation resistance C.I.C. TU528, literature identification code: A, Technology

Abstract

The accumulation and incineration of waste tires have caused great damage to the environment. Therefore, recycling waste tires efficiently and economically has become an important issue in protecting world resources and the environment. In this study, 5%, 10%, and 15% rubber particles were used to replace fine sand in concrete, and basalt fibers (0.1%, 0.2%, and 0.3%) and polypropylene fibers (0.1%, 0.15%, and 0.2%) were added to rubber concrete to prepare hybrid fiber rubber concrete (HFRC). The experiments investigated the changes of mechanical properties of basalt (BF), polypropylene (PPF) fibers, and rubber particles when they were blended into concrete respectively, and the degree of influence of each factor on the mechanical and carbonation resistance of HFRC was investigated based on the orthogonal test. The results show that the rubber concrete’s mechanical and carbonation properties are improved to varying degrees after adding hybrid fibers. When the basalt fiber content is 0.2% and the polypropylene fiber content is 0.15%, the overall mechanical properties of HFRC reach the best state. When the basalt fiber content is 0.2%, the polypropylene fiber content is 0.15%, and the rubber content is 5%, the carbonation resistance of HFRC is the most ideal. In addition, the microstructure of HFRC was observed by scanning electron microscope.

Published

2023

14. Research on the popularization of Wuqiang New Year’s Paintings Cultural App from the Perspective of Intangible Cultural Heritage Protection

Author

Liu Kun and He Jiali

Subjects

Social Sciences

Abstract

The celebration of the “New Year” holds profound significance for the Chinese people, symbolizing both reflection on the past and anticipation of a fresh start. Wuqiang New Year paintings, characterized by vibrant colors and a diverse range of themes, not only depict the lives of ancient farmers but also adapt to the evolving times, bearing witness to the relentless flow of time.With the rapid development of mobile Internet, there is a growing demand for diverse information and entertainment. As a kind of application with the theme of spreading non-heritage culture, non-heritage culture App is gradually becoming an important way for people to acquire non-heritage cultural knowledge, enjoy cultural entertainment and cultural innovation. Based on the inheritance and innovation of Wuqiang New Year’s Paintings, this paper improves the protection and inheritance mode of Wuqiang New Year’s Paintings as well as the dissemination mode through the interactive design of the interface of the “Ji New Year’s Paintings” App and explores how to give new vitality to the intangible cultural heritage in the era of new media.

Published

2024

15. Research on the creation and application of realistic animation on Northeast rural theme

Author

Liu Kun and Dong Shuang

Subjects

Social Sciences

Abstract

With the continuous development of the needs of The Times, animation is no longer limited to entertainment art or specific audience groups, but should pay more attention to how to enrich its connotation. To popularize the development status of Northeast China’s rural areas and the living conditions of farmers through animation, and to popularize the development status of Northeast China’s rural areas and the living conditions of farmers through realistic animation will play its role in popular science. This practice also highlights the value and social responsibility of animation artists, and provides a broader space and innovation opportunities for the development of the animation field.

Published

2024

16. Damage accumulation and failure mechanism of glass/epoxy composite laminates subjected to repeated low velocity impacts

Author

Li Hao, Yu Zhaogang, Liu Kun, Tao Zhen, and Zhang Jiangtao

Subjects

composite laminates, repeated low velocity impact, stacking sequence, damage accumulation, impact resistance, Polymers and polymer manufacture, TP1080-1185

Abstract

In this work, the damage accumulation and failure mechanism of glass fiber-reinforced epoxy composite laminates under repeated low velocity impacts were studied considering the influence of stacking sequence. The typical sandwich-like [0°2/90°2]s, angle-ply [±45°]2s and quasi-isotropic [0°/−45°/45°/90°]s laminates were tested at 20 J impact energy. The impact responses including contact force–time/central displacement and energy–time curves were recorded. The tendencies of the peak contact force, maximum displacement, bending stiffness, and energy dissipation with the increase in impact number were analyzed. Damage induced in the laminates was further evaluated. The results show that the impact resistance of the sandwich-like laminate is the weakest with the lowest peak load and the highest energy dissipation. The impact resistance of the quasi-isotropic laminate is better relative to the angle-ply laminate before the occurrence of fiber breakage, whereas the damage tolerance of the angle-ply laminate is higher with relatively slower damage accumulation at subsequent impacts.

Published

2023

17. Structure optimization of continuous casting tundish with channel-type induction heating using mathematical modeling

Author

Yang Bin, Liu Kun, Lei Hong, and Han Peng

Subjects

channel, induction heating, chamber, inclusion, flow, Technology, Chemical technology, TP1-1185, Chemicals: Manufacture, use, etc., TP200-248

Abstract

There are few studies on the shape and structure of the channel-type induction heating tundish on multi-physics field. Computational fluid dynamics has been used to study the influence of the structure of the tundish on the macroscopic transport behavior of the tundish with channel induction heating. The results show that increasing the depth of the molten pool is conducive to dynamic behavior of multiphase, the deeper the molten pool, the larger the active area, the longer residence time, the more inclusions removal and the higher ratio of plug to dead volume. Meanwhile, the larger the channel diameter, the more inclusions removal in the receiving chamber and channel. The channel induction heating has enough ability to increase the superheat and temperature compensate for the heat loss caused by the excessive residence time of the molten steel in the tundish. The change in the channel structure is crucial to the macroscopic transport behavior of the fluid. The change in channel diameter has the greatest effect on the multi-physics field in the molten pool.

Published

2022

18. High-sensitive and disposable myocardial infarction biomarker immunosensor with optofluidic microtubule lasing

Author

Niu Panpan, Jiang Junfeng, Liu Kun, Wang Shuang, Wang Tong, Liu Yize, Zhang Xuezhi, Ding Zhenyang, and Liu Tiegen

Subjects

biomarker, cardiac troponin, immunosensor, optofluidic, whispering gallery mode, Physics, QC1-999

Abstract

The early diagnosis of myocardial infarction can significantly improve the survival rate in emergency treatment, which is mainly implemented by the immunoassay for myocardial infarction biomarkers such as cardiac troponins in blood. In this work, a disposable optofluidic microtubule whispering gallery mode (WGM) immunosensor for label-free cardiac troponin I-C (cTnI-C) complex detection has been proposed and demonstrated with active interrogation enhancement. The disposable microtubule is simply fabricated by a silica capillary with pressurized tapering technology for thin-wall, and the cTnI antibodies are immobilized on the inner wall surface of the microtubule through the self-adherent polydopamine substrate. By configuring the two coupling microfibers, the double-fiber-coupled microtubule cavity can serve as a tunable filter for the mutual-coupled polarimetric fiber ring laser (FRL), whose output laser wavelength is determined by the cTnI-C concentration in the optofluidic microtubule with inherent microfluidic channel. Due to the cyclic-cumulative gain of the FRL, the characteristic resonant peak of optical sensing signal is enhanced in the spectral width compression and the optical signal-to-noise ratio improvement, and therefore the optical immunosensor for cTnI-C can be achieved by tracking the output laser wavelength of the FRL conveniently. The dynamic binding and unbinding process of cTnI-C antigen–antibody is illustrated by monitoring the lasing peak wavelength continuously. Our all-fiber immunosensor demonstrated here has the advantages of fast label-free detection, real-time monitor, high sensitivity and disposable sensing element, which can be an innovative detecting tool in early diagnosis of myocardial infarction.

Published

2022

19. Experimental investigation and numerical analysis of stress concentration distribution at the typical slots for stiffeners

Author

Wu Jiameng, Lou Benqiang, Wang Jiaxia, and Liu Kun

Subjects

ship structures, typical slots, stress concentration, opening strengthening, model test, numerical simulation, Physics, QC1-999

Abstract

Stress concentrations typically exist around the perimeter of an opening and on attached structures, thereby resulting in a potential risk of crack initiation. Experimental and numerical methods on stress concentration distribution analysis can be applied in this study. This study reveals the differences in stress concentration distributions around various types of slots. Typical slots have been selected to discuss the influence on stress concentration distribution when the connections of flat bar and connection plate are considered. This concept is novel given the experiments conducted and finite element method (FEM) results found under complex loads. The FEM is used to compare calculated results with experimental data, and continuous plotting of numerical results can verify the outcomes. The results show the stress concentration distribution around the selected slot edge, where peak stress appears around the openings of different types of slots.

Published

2022

20. Study of silver aerosol source term at different specific internal energy input from HE detonation devices

Author

Song Kefeng, Shi Yaqin, Liu Kun, Su Luochuan, Li Bo, Liu Wei, Wang Penglai, Yi Chenhong, Zhang Yajun, Ma Qingpeng, Hu Haibo, and Liu Wenjie

Subjects

Medicine, Science

Abstract

Abstract Radioactive aerosols harmful to humans are often produced in nuclear accidents, and their source term characteristics (total volume and particle size distribution) and dispersion patterns have important implications for accident response and hazard assessment. However, experimental studies of radioactive aerosols cannot be directly conducted in open space due to the hazardous nature of radioactive aerosols. In this study, silver was used instead of plutonium to study the aerosol source term under different specific internal energy inputs (SIEI) to simulate a low order explosion in an accident. Results show that aerosol release fraction (ARF) and respirable release fraction (RRF) of silver increase linearly with SIEI first, then varies in a range of 8% ~ 19%, with a turning point at SIEI of 1.4 MJ/kg. Analysis suggests an increase of difference between ARF and RRF with respect to SIEI. The size distribution of silver aerosol around 10 µm is influenced by SIEI significantly, which could be possibly attributed to the interactions between silver aerosol and ambient aerosol (solid HE products or rust). Comparison between the source term of silver and plutonium suggests that silver is a good surrogate of plutonium in studying aerosol for SIEI of MJ/kg level.

Published

2022

21. Excellent plasticity of C and Mo alloyed TRIP high entropy alloy via rolling and heat treatment

Author

Zhang Pengjie, Wang Shuhuan, Lv Yukun, Chen Liansheng, Liu Kun, and Zhao Dingguo

Subjects

Cast, Deformation and fracture, High entropy alloys, Ductility, Mining engineering. Metallurgy, TN1-997

Abstract

The transformation-induced plasticity (TRIP) Fe50Mn30Co10Cr10 high entropy alloy (HEA) with 2 at% C and 1 at% Mo microalloying was prepared by non-consumable vacuum arc melting furnace. The as-casted alloy was then rolled at 70% and then annealed at 1000 °C for different times. The microstructure evolution and mechanical properties of the C and Mo alloyed TRIP-HEA were systematically investigated. The results showed that with the increase of annealing time, the strength of the C2Mo1 HEA increases, but the plasticity increases first and then decreases. Spuriously, when C2Mo1 HEA was annealed for 5 min at 1000 °C after 70% cold rolling, the total elongation was 121%, the tensile strength was 816 MPa, and its product of tensile strength and plasticity was 99.23 GPa, which is much better than the majority of HEAs. In the process of tensile deformation, + //TD double texture are formed, and dislocation slip and twin mechanism competed by each other, which affect the microstructure evolution in the process of plastic deformation, and finally as the great contribution to the product of tensile strength and plasticity.

Published

2021

22. Cross-Domain Transfer Learning Method for Thermal Adaptive Behavior Recognition with WiFi

Author

Lv, Zhaohe, Zhao, Guoliang, Xu, Zhanbo, Wu, Jiang, Zhou, Yadong, and Liu, Kun

Subjects

Computer Science - Human-Computer Interaction

Abstract

A reliable comfort model is essential to improve occupant satisfaction and reduce building energy consumption. As two types of the most common and intuitive thermal adaptive behaviors, precise recognition of dressing and undressing can effectively support thermal comfort prediction. However, traditional activity recognition suffers from shortcomings in privacy, cost, and performance. To address the above issues, this study proposes a cross-domain transfer learning method for human dressing and undressing adaptive behavior recognition with WiFi. First, we determine the activity interval by calculating the sliding variance for denoised WiFi signals. Subsequently, short-time Fourier transform and discrete wavelet transform are performed to extract action information on the basis of time-frequency analysis. Ultimately, an efficient 1D CNN pre-trained model is integrated with the SVM algorithm as a hybrid model to enhance the identification robustness in new scenarios. Experiment results show that the hybrid model based on transfer learning provides a more accurate prediction for the adaptative behavior of target subjects, achieving 96.9% and 94.9% accuracy in two cases, respectively.

Published

2024

23. FireRedTTS: A Foundation Text-To-Speech Framework for Industry-Level Generative Speech Applications

Author

Guo, Hao-Han, Liu, Kun, Shen, Fei-Yu, Wu, Yi-Chen, Xie, Feng-Long, Xie, Kun, and Xu, Kai-Tuo

Subjects

Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing

Abstract

This work proposes FireRedTTS, a foundation text-to-speech framework, to meet the growing demands for personalized and diverse generative speech applications. The framework comprises three parts: data processing, foundation system, and downstream applications. First, we comprehensively present our data processing pipeline, which transforms massive raw audio into a large-scale high-quality TTS dataset with rich annotations and a wide coverage of content, speaking style, and timbre. Then, we propose a language-model-based foundation TTS system. The speech signal is compressed into discrete semantic tokens via a semantic-aware speech tokenizer, and can be generated by a language model from the prompt text and audio. Then, a two-stage waveform generator is proposed to decode them to the high-fidelity waveform. We present two applications of this system: voice cloning for dubbing and human-like speech generation for chatbots. The experimental results demonstrate the solid in-context learning capability of FireRedTTS, which can stably synthesize high-quality speech consistent with the prompt text and audio. For dubbing, FireRedTTS can clone target voices in a zero-shot way for the UGC scenario and adapt to studio-level expressive voice characters in the PUGC scenario via few-shot fine-tuning with 1-hour recording. Moreover, FireRedTTS achieves controllable human-like speech generation in a casual style with paralinguistic behaviors and emotions via instruction tuning, to better serve spoken chatbots.

Published

2024

24. Development of Rb fountain clock for time keeping

Author

Chen Weiliang, Fang Fang, Liu Kun, Zheng Fasong, Dai Shaoyang, Zuo Yani, and Li Tianchu

Subjects

fountain clock, time keeping, Rb, double metal cavity, instability, Physics, QC1-999

Abstract

A new Rb fountain clock was built at the National Institute of Metrology with the aim to realize robustness and excellent long-term instability for time keeping. While some basic designs have been adopted from our Cs fountain clocks, new features have been included for improved performance. A double-metal interrogation microwave cavity with a thermal expansion self-compensating mechanism was used to reduce the clock sensitivity to temperature fluctuations for the first time, to our knowledge. Moreover, a compact optical system was developed to ensure robustness. These features dramatically increased the ambient temperature range. The developed Rb fountain clock achieved a typical fractional frequency instability of 1.49×10−13(τ/s)−1/2within 10 days of continuous operation without any intervention, demonstrating the potential for time keeping.

Published

2022

25. Crystal structure of (E)-N′-(2-chloro-6-hydroxybenzylidene)-4- hydroxybenzohydrazide-water (1/1), C14H13Cl1N2O4

Author

Liu Kun, Han Qiang, Zhao Kai-Hui, Zhong Qi-Di, and Zhang Zhi-Fei

Subjects

2171966, Physics, QC1-999, Crystallography, QD901-999

Abstract

C14H13Cl1N2O4, monoclinic, I2/a (no. 15), a = 13.257(5) Å, b = 16.161(4) Å, c = 13.262(3) Å, β = 97.47(3)°, V = 2817.2(14) Å3, Z = 8, R gt(F) = 0.0578, wR ref(F 2) = 0.1714, T = 293 K.

Published

2022

26. Dynamic Response Calculation Algorithm for Floating Offshore Wind Turbines Based on a State-Space Method of Transfer Function

Author

Li Wei, Zhao Sheng-xiao, Liu Kun, Lu Hong-chao, and Fan Tian-hui

Subjects

cummins equation, dynamic response calculation, transfer function, quasi-linear regression, state-space model, General Works

Abstract

The Cummins equation is commonly applied to describe the motion of floating structures. Because of the convolution term, the efficiency of calculation is low and the error accumulation problems in numerical integration calculation are serious. For those reasons, a dynamic response analysis method of floating structures based on a state-space model is proposed. The method uses the state-space method to replace the force-to-motion relationship of the Cummins equation, that is, transfer function, which transforms the problem of calculating the dynamic response into obtaining the output of the state-space model. The method is easy to implement and avoids the problems caused by the presence of the convolution term.

Published

2022

27. Associated factors for quality of life in patients with progressive supranuclear palsy

Author

CHEN De⁃zhi, OU Ru⁃wei, WEI Qian⁃qian, HOU Yan⁃bing, ZHANG Ling⁃yu, LIU Kun⁃cheng, JIANG Zheng, LIN Jun⁃yu, LIU Jiao, YANG Tian⁃mi, YANG Jing, and SHANG Hui⁃fang

Subjects

supranuclear palsy progressive, quality of life, linear models, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective To explore the associated factors for quality of life in patients with progressive supranuclear palsy (PSP). Methods A total of 218 PSP patients were included from January 2012 to December 2019. Demographic and clinical data were collected. The quality of life was evaluated by the 39⁃Item Parkinson's disease Questionnaire (PDQ⁃39). The Progressive Supranuclear Palsy Rating Scale (PSPRS) was used to assess the severity of PSP related motor and non⁃motor symptoms, while the Non⁃Motor Symptoms Scale (NMSS) was used to elevate the non⁃motor symptoms, Hamilton Depression Rating Scale⁃24 (HAMD⁃24), Hamilton Anxiety Rating Scale (HAMA), Lille Apathy Rating Scale (LARS), Frontal Assessment Battery (FAB), and Montreal Cognitive Assessment (MoCA) were used. The Pearson and partial correlation followed by the multiple linear regression were used to explore the correlates of the PDQ⁃39 score. Results Correlation analysis indicated that the PDQ⁃39 score was positively correlated with disease duration (r=0.301, P=0.000), Charlson Comorbidity Index (CCI; r=0.147, P=0.031), levodopa equivalent daily dose (LEDD; r=0.225, P=0.001), and scores for the PSPRS (r=0.551, P=0.000), NMSS (r=0.484, P=0.000), HAMD⁃24 (r=0.515, P=0.000), HAMA (r=0.439, P=0.000) and LARS (r=0.476, P=0.000), but was negatively correlated with scores of FAB (r=⁃0.325, P=0.000) and MoCA (r=⁃0.355, P=0.000). Multiple linear stepwise regression model indicated that the PDQ⁃39 score was significantly associated with female (P=0.021), longer disease duration (P=0.026), higher LEDD (P=0.008), higher PSPRS score (P=0.000), higher NMSS score (P=0.002), higher HAMD⁃24 score (P=0.004), and higher LARS score (P=0.000). Conclusions Female, longer disease duration, higher LEDD, and more severe motor and non⁃motor symptoms contribute to the reduced quality of life in patients with PSP. Our study is beneficial to the clinical management of patients with PSP.

Published

2021

28. Principles in minimally invasive surgical treatment of hepatolithiasis and endoscopic therapy

Author

LIU Kun, GUO Wei

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Surgery, RD1-811

Published

2021

29. Analysis of semen parameters and sex hormones under low-dose PAEs exposure in Chongqing college students and comparison with reference dose

Author

WANG Yimeng, CHEN Qing, and LIU Kun

Subjects

phthalates, semen parameters, sex hormone level, reference dose, marhcs cohort, Medicine (General), R5-920

Abstract

Objective To analyze the associations of diethyl phthalate (DEP), di-n-butyl phthalate (DnBP), di(2-ethyl)hexyl phthalate (DEHP) and butyl benzyl phthalate (BBzP) [which have reference doses (RfD) in the plasticizer, phthalates (PAEs)] with semen parameters and sex hormone levels in the young male adults, and evaluate the safety of RfD. Methods A total of 796 subjects were sampled from our previously established cohort of the male reproductive health in Chongqing college students (MARHCS) study. The contents of PAEs metabolites were detected in the urine samples of the subjects to estimate the daily intake of PAEs. Optimal scaling regression analysis was used to test their associations of the contents with semen parameters and sex hormone levels. Joinpoint regression model was applied to explore whether there were inflection points in the above associations, and the results were compared with RfD. Results Except for the metabolite of BBzP (MBzP) below the detection limit in the most individuals, the median daily intake of the other 3 PAEs was 0.1, 1.0 and 4.3 μg/(kg·d) for DEP, DnBP and DEHP, which were all significantly lower than the corresponding RfD [800, 100 and 20 μg/(kg·d)] and health guidance values [30, 10 and 50 μg/(kg·d)]. The metabolite of DEP (MEP) was correlated with the progressive motility, normal sperm morphology, and testosterone level (P < 0.01); DnBP metabolite (MnBP) was correlated with normal sperm morphology (P < 0.05). Among the 4 metabolites of DEHP, MEHHP and MECPP were related to estrogen level (P < 0.05), and MEOHP and MEHP to estrogen and progesterone levels (P < 0.01). But, inflection points were only observed in the correlations between DEHP and some parameters [threshold doses are 2.9~3.6 and 5.0~5.8 μg/(kg·d)]. Conclusion There are 12 kinds of associations of PAEs exposure with semen parameters and sex hormone levels in college students in Chongqing. PAEs, though below RfD, can still causes male reproductive damage.

Published

2021

30. Permeability of N, P, K-fertilizer nutrient and water vapor through PLA, PLA/PS, and PLA/HA membranes

Author

Deng Xiaonan, Ye Sihong, Liu Kun, Li Changfeng, Liu Fangzhi, and Yan Xiaoming

Subjects

permeability, polymer-coated fertilizer, mathematical model, poly lactic acid, membrane, Chemistry, QD1-999

Abstract

To collect permeability data and establish its database of fertilizer nutrients and water vapor through different polymer membranes for the development of polymer-coated fertilizer, the permeabilities of N-, P-, and K-nutrient from saturated aqueous of urea, NaH2PO4 and KCl solution and the permeability of water vapor through the membranes of poly lactic acid (PLA), its blends with polystyrene (PS), and its composites with humic acid (HA) particles were determined experimentally at the temperatures of 288, 298, and 308 K, respectively. The effects of the addition of PS and HA particles, temperature, and coating thickness on the permeability of fertilizer nutrient and water vapor were investigated. It was found that the addition of PS and HA increased the permeability for both the fertilizer nutrients and water vapor. The increase in temperature raised the permeability of N-, P-, and K-nutrient while decrease the permeability of water vapor in the range studied.

Published

2020

31. Early Risk Assessment Model for ICA Timing Strategy in Unstable Angina Patients Using Multi-Modal Machine Learning

Author

Zheng, Candi, Liu, Kun, Wang, Yang, Chen, Shiyi, and Li, Hongli

Subjects

Computer Science - Machine Learning

Abstract

Background: Invasive coronary arteriography (ICA) is recognized as the gold standard for diagnosing cardiovascular diseases, including unstable angina (UA). The challenge lies in determining the optimal timing for ICA in UA patients, balancing the need for revascularization in high-risk patients against the potential complications in low-risk ones. Unlike myocardial infarction, UA does not have specific indicators like ST-segment deviation or cardiac enzymes, making risk assessment complex. Objectives: Our study aims to enhance the early risk assessment for UA patients by utilizing machine learning algorithms. These algorithms can potentially identify patients who would benefit most from ICA by analyzing less specific yet related indicators that are challenging for human physicians to interpret. Methods: We collected data from 640 UA patients at Shanghai General Hospital, including medical history and electrocardiograms (ECG). Machine learning algorithms were trained using multi-modal demographic characteristics including clinical risk factors, symptoms, biomarker levels, and ECG features extracted by pre-trained neural networks. The goal was to stratify patients based on their revascularization risk. Additionally, we translated our models into applicable and explainable look-up tables through discretization for practical clinical use. Results: The study achieved an Area Under the Curve (AUC) of $0.719 \pm 0.065$ in risk stratification, significantly surpassing the widely adopted GRACE score's AUC of $0.579 \pm 0.044$. Conclusions: The results suggest that machine learning can provide superior risk stratification for UA patients. This improved stratification could help in balancing the risks, costs, and complications associated with ICA, indicating a potential shift in clinical assessment practices for unstable angina.

Published

2024

32. Topological Woodward-Hoffmann classification for cycloadditions in polycyclic aromatic azomethine ylides

Author

Li, Juan, Mirzanejad, Amir, Dong, Wen-Han, Liu, Kun, Richter, Marcus, Wang, Xiao-Ye, Berger, Reinhard, Du, Shixuan, Auwärter, Willi, Barth, Johannes V., Ma, Ji, Müllen, Klaus, Feng, Xinliang, Sun, Jia-Tao, Muechler, Lukas, and Palma, Carlos-Andres

Subjects

Physics - Chemical Physics

Abstract

The study of cycloaddition mechanisms is central to the fabrication of extended sp2 carbon nanostructures. Reaction modeling in this context has focused mostly on putative, energetically preferred, exothermic products with limited consideration for symmetry allowed or forbidden mechanistic effects. Here, we introduce a scheme for classifying symmetry-forbidden reaction coordinates in Woodward-Hoffmann correlation diagrams. Topological classifiers grant access to the study of reaction pathways and correlation diagrams in the same footing, for the purpose of elucidating mechanisms and products of polycyclic aromatic azomethine ylide (PAMY) cycloadditions with pentacene-yielding polycyclic aromatic hydrocarbons with an isoindole core in the solid-state and on surfaces as characterized by mass spectrometry and scanning tunneling microscopy, respectively. By means of a tight-binding reaction model and density functional theory (DFT) we find topologically-allowed pathways if a product is endothermic, and topologically-forbidden if a product is exothermic. Our work unveils topological classification as a crucial element for reaction modeling for nanographene engineering, and highlights its fundamental role in the design of cycloadditions in on-surface and solid-state chemical reactions, while underscoring that exothermic pathways can be topologically-forbidden.

Published

2024

33. Thermal spin-crossover and temperature-dependent zero-field splitting in magnetic nanographene chains

Author

Wang, Yan, Paz, Alejandro Pérez, Boström, Emil Viñas, Zhang, Xiaoxi, Li, Juan, Berger, Reinhard, Liu, Kun, Ma, Ji, Huang, Li, Du, Shixuan, Gao, Hong-jun, Müllen, Klaus, Narita, Akimitsu, Feng, Xinliang, Rubio, Angel, and Palma, CA

Subjects

Physics - Chemical Physics

Abstract

Nanographene-based magnetism at interfaces offers an avenue to designer quantum materials towards novel phases of matter and atomic-scale applications. Key to spintronics applications at the nanoscale is bistable spin-crossover which however remains to be demonstrated in nanographenes. Here we show that antiaromatic 1,4-disubstituted pyrazine-embedded nanographene derivatives, which promote magnetism through oxidation to a non-aromatic radical are prototypical models for the study of carbon-based thermal spin-crossover. Scanning tunneling spectroscopy studies reveal symmetric spin excitation signals which evolve at Tc to a zero-energy peak, and are assigned to the transition of a S = 3/2 high-spin to a S = 1/2 low-spin state by density functional theory. At temperatures below and close to the spin-crossover Tc, the high-spin S= 3/2 excitations evidence pronouncedly different temperature-dependent excitation energies corresponding to a zero-field splitting in the Hubbard-Kanamori Hamiltonian. The discovery of thermal spin crossover and temperature-dependent zero-field splitting in carbon nanomaterials promises to accelerate quantum information, spintronics and thermometry at the atomic scale.

Published

2024

34. Design of High-speed readout electronics for the DarkSHINE electromagnetic calorimeter

Author

Guo, Yihan, Li, Shu, Liu, Kun, Liu, Yang, Tan, Yongqi, Tang, Jiannan, Wu, Weihao, Yang, Haijun, Zhao, Zhiyu, Zhi, Wei, and Zhou, Zhizhen

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The DarkSHINE experiment aims to search for dark photons by measuring the energy loss of the electrons recoiled from fixed-target. Its electromagnetic calorimeter is primarily responsible for accurately reconstructing the energy of the recoil electrons and bremsstrahlung photons. The performance of the electromagnetic calorimeter is crucial, as its energy measurement precision directly determines the sensitivity to the search for dark photons. The DarkSHINE electromagnetic calorimeter uses LYSO crystals to form a fully absorptive electromagnetic calorimeter. It utilizes SiPMs to detect scintillation light in the crystals, and its readout electronics system deduces the deposited energy in the crystals by measuring the number of photoelectric signals generated by the SiPMs. The DarkSHINE electromagnetic calorimeter aims to operate at an event rate of 1-10 MHz, detecting energies ranging from 1 MeV to 1 GeV. To meet the requirements of high energy measurement precision, high event rate, and large dynamic range, we have researched and designed a readout electronics system based on dual-channel high-speed ADCs and a customized DAQ. The front-end amplification part of this system uses low-noise trans-impedance amplifiers to achieve high-precision waveform amplification. It successfully achieves a dynamic range up to a thousandfold through a double-gain readout scheme. The digital part uses 1 GSPS high-speed ADCs to achieve non-dead-time, high-precision waveform digitization. The DAQ part uses JESD204B high-speed serial protocol to read out the signal from ADC, and transmit it to PC software for processing and storage. Test results show a signal-to-noise ratio greater than 66 dBFS and an ENOB greater than 10.6 bits. Energy spectra measurements have been conducted using LYSO crystals and SiPMs, and an energy resolution of 5.96% at the 2.6 MeV gamma peak of Th-232 has been achieved.

Published

2024

35. Building spin-1/2 antiferromagnetic Heisenberg chains with diaza-nanographenes

Author

Fu, Xiaoshuai, Huang, Li, Liu, Kun, Henriques, João C. G., Gao, Yixuan, Han, Xianghe, Chen, Hui, Wang, Yan, Palma, Carlos-Andres, Cheng, Zhihai, Lin, Xiao, Du, Shixuan, Ma, Ji, Fernández-Rossier, Joaquín, Feng, Xinliang, and Gao, Hong-Jun

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Chemical Physics, Quantum Physics

Abstract

Understanding and engineering the coupling of spins in nanomaterials is of central importance for designing novel devices. Graphene nanostructures with {\pi}-magnetism offer a chemically tunable platform to explore quantum magnetic interactions. However, realizing spin chains bearing controlled odd-even effects with suitable nanographene systems is challenging. Here, we demonstrate the successful on-surface synthesis of spin-1/2 antiferromagnetic Heisenberg chains with parity-dependent magnetization based on antiaromatic diaza-hexa-peri-hexabenzocoronene (diaza-HBC) units. Using distinct synthetic strategies, two types of spin chains with different terminals were synthesized, both exhibiting a robust odd-even effect on the spin coupling along the chain. Combined investigations using scanning tunneling microscopy, non-contact atomic force microscopy, density functional theory calculations, and quantum spin models confirmed the structures of the diaza-HBC chains and revealed their magnetic properties, which has an S = 1/2 spin per unit through electron donation from the diaza-HBC core to the Au(111) substrate. Gapped excitations were observed in even-numbered chains, while enhanced Kondo resonance emerged in odd-numbered units of odd-numbered chains due to the redistribution of the unpaired spin along the chain. Our findings provide an effective strategy to construct nanographene spin chains and unveil the odd-even effect in their magnetic properties, offering potential applications in nanoscale spintronics.

Published

2024

36. Design of a LYSO Crystal Electromagnetic Calorimeter for DarkSHINE Experiment

Author

Zhao, Zhiyu, Liu, Qibin, Chen, Jiyuan, Chen, Jing, Chen, Junfeng, Chen, Xiang, Fu, Changbo, Guo, Jun, Khaw, Kim Siang, Li, Liang, Li, Shu, Liu, Danning, Liu, Kun, Song, Siyuan, Sun, Tong, Tang, Jiannan, Wang, Yufeng, Wang, Zhen, Wu, Weihao, Yang, Haijun, Lin, Yuming, Yuan, Rui, Zhang, Yulei, Zhang, Yunlong, Zhou, Baihong, Zhu, Xuliang, and Zhu, Yifan

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

This paper presents the design and optimization of a LYSO crystal electromagnetic calorimeter (ECAL) for the DarkSHINE experiment, which aims to search for dark photons as potential mediators of dark forces. The ECAL design was evaluated through comprehensive simulations, focusing on optimizing dimensions, material selection, energy distribution, and energy resolution. The ECAL configuration consists of 21$\times$21$\times$11 LYSO crystals, each measuring 2.5$\times$2.5$\times$4 cm$^3$, arranged in a staggered layout to improve signal detection efficiency. A 4 GeV energy dynamic range was established to ensure accurate energy measurements without saturation, which is essential for background rejection and signal identification. A detailed digitization model was developed to simulate the scintillation, SiPM, and ADC behaviors, providing a more realistic representation of detector performance. Additionally, the study assessed radiation damage in the ECAL region, highlighting the necessity of radiation-resistant scintillators and silicon sensors.

Published

2024

37. A case report of cervical pregnancy after in vitro fertilization complicated by tuberculosis and a literature review

Author

Liu Kun, Zhang Xuehong, Ma Xiaoling, Jia Xueling, Zhao Xiaodong, Yang Xia, and Zhang Yufeng

Subjects

infertility, tuberculosis, pregnant, treatment, ivf, Medicine

Abstract

Although female genital tuberculosis may lead to infertility, pregnancy is still possible, especially through in vitro fertilization (IVF). In this eventuality, even latent tuberculosis (TB) infection is prone to reactivate. Because some of the symptoms of TB overlap with those of pregnancy, diagnosis and treatment may be delayed. We report the case of a 30-year-old infertile woman with repeated genital tuberculosis (GTB) who underwent two laparoscopic surgeries and anti-TB treatments. The woman conceived through IVF and, unfortunately, a cervical pregnancy was diagnosed, together with a third recurrence of GTB. When the condition became stable after anti-TB treatment, the pregnancy was terminated using oral mifepristone in combination with an ultrasound-guided local injection of methotrexate. The gestational sac was expelled 4 days later with minimal blood loss. In view of the reciprocal influence and interconnection between IVF, pregnancy, and TB, we conducted a literature review to provide valuable information for early diagnosis and treatment, as well as for routine screening before IVF of TB in infertile patients.

Published

2020

38. Automatic detection and segmentation of adenomatous colorectal polyps during colonoscopy using Mask R-CNN

Author

Meng Jie, Xue Linyan, Chang Ying, Zhang Jianguang, Chang Shilong, Liu Kun, Liu Shuang, Wang Bangmao, and Yang Kun

Subjects

crc, adenomatous polyps, cad, cnn, colonoscopy, Biology (General), QH301-705.5

Abstract

Colorectal cancer (CRC) is one of the main alimentary tract system malignancies affecting people worldwide. Adenomatous polyps are precursors of CRC, and therefore, preventing the development of these lesions may also prevent subsequent malignancy. However, the adenoma detection rate (ADR), a measure of the ability of a colonoscopist to identify and remove precancerous colorectal polyps, varies significantly among endoscopists. Here, we attempt to use a convolutional neural network (CNN) to generate a unique computer-aided diagnosis (CAD) system by exploring in detail the multiple-scale performance of deep neural networks. We applied this system to 3,375 hand-labeled images from the screening colonoscopies of 1,197 patients; of whom, 3,045 were assigned to the training dataset and 330 to the testing dataset. The images were diagnosed simply as either an adenomatous or non-adenomatous polyp. When applied to the testing dataset, our CNN-CAD system achieved a mean average precision of 89.5%. We conclude that the proposed framework could increase the ADR and decrease the incidence of interval CRCs, although further validation through large multicenter trials is required.

Published

2020

39. The phase inversion mechanism of the pH-sensitive reversible invert emulsion from w/o to o/w

Author

Liu Fei, Wang Yanling, Li Xiaqing, Zhang Zhaoxiang, Dai Xiaodong, Wang Xuewu, Xin Yanping, Liu Kun, Gao Liang, Du Dehui, Xing Chunyu, Jiang Hong, and Liu Zhihua

Subjects

ph-responsive, phase inversion, microstructure, Physics, QC1-999

Abstract

Alteration in the environmental conditions will cause a reversed reaction between o/w emulsion and w/o emulsion that has similar advantages of different liquids form on the reversible invert emulsion. The reversible phase inversion of the emulsion has a benefit of dealing with drilling cutting, so the reversible invert emulsion also can be thought used as a drilling fluid. The phase inversion from w/o emulsion to o/w emulsion can be divided into three stages. They are w/o emulsion, w/o/w emulsion, and o/w emulsion. In the w/o emulsion stage, the structure appeared among water droplets when the percentage of the HCl solution (5%) was less than 0.375%. In the w/o/w emulsion stage, the structure among water droplets existed at the beginning of this stage; however, the internal phase and the external phase can interchange their positions during the process. In the third stage, the structures among droplets of the emulsion would be broken and the degree of the dispersion of the oil droplet in the emulsion would increase. The changes in the microstructure, conductivity, electrical stability, standing stability, and the viscosity of the emulsion, which have edified among droplets in the process from w/o emulsion to o/w emulsion, were studied. The result of the microstructure microscopic observation agrees with the result of the electrical stability and viscosity experiments. Moreover, the internal phase and the external phase can interchange positions during the process.

Published

2020

40. Mechanoactivated TiNbZrSi powder for strong and wear-resistant biomedical coatings

Author

Okulov Artem, Novikov Sergey, Iusupova Olga, Davydov Denis, and Liu Kun

Subjects

Environmental sciences, GE1-350

Abstract

The paper presents a study of morphology and chemical composition of the TiNbZrSi powder customized by mechanoactivation in an experimental high-energy vibration ball mill equipped with steel mortars and balls of different diameters. The initially synthesized as-cast TiNbZrSi tablet was preliminarily ground into a powder with fraction of about 400 µm using a conventional bench hammer. After that, the above powder was subjected to mechanoactivation within 4 hours in an Ar atmosphere at room temperature. In addition, the synthesized TiNbZrSi powder was deposited onto additively manufactured Ti-6Al-4V ELI substrates through their co-mechanoactivation followed by annealing for 1 hour at a temperature of 800 °C to ensure better adhesion. The characterization of the TiNbZrSi powder before and after co-mechanoactivation with the specified substrate was carried out by scanning electron microscopy.

Published

2023

41. Development of multicomponent hybrid powders based on titanium and niobium carbides as a promising material for laser cladding

Author

Okulov A. V., Iusupova O. S., and Liu Kun

Subjects

Environmental sciences, GE1-350

Abstract

Multicomponent hybrid TiC-NbC(Zr, Si) powder was developed and manufactured by mechanosynthesis in a high-energy vibratory ball mill. High-purity fragmented TiC, NbC, Zr and Si powders were selected and mixed in a ratio of 60:15:10:15 at.%, respectively, to manufacture the above powder. Several modes of mechanosynthesis were chosen for the experiment: 3, 6, 9 and 12 hours. Scanning electron microscopy (SEM) and X-Ray diffraction (XRD) analyzes were used to study the morphology, chemical and phase compositions of the obtained TiC-NbC(Zr, Si) powder. The SEM analysis confirmed the presence of all TiC, NbC, Zr and Si components in the final powder regardless of the mechanosynthesis time. However, the XRD analysis showed that after 9 and 12 hours of mechanosynthesis, the Zr and Si diffraction lines are completely absent. This occurs due to the dissolution of the Zr and Si elements in titanium and niobium carbides. In addition, it has been established that more than 6 hours are required to synthesize finely dispersed TiC-NbC(Zr, Si) powder. The study results can be useful for optimization of the mechanosynthesis process.

Published

2023

42. Enhanced flexural properties of aramid fiber/epoxy composites by graphene oxide

Author

Wu Yinqiu, Tang Bolin, Liu Kun, Zeng Xiaoling, Lu Jingjing, Zhang Tongtong, and Shen Xiaojun

Subjects

graphene oxide, aramid fiber, flexural properties, interfacial bonding, Technology, Chemical technology, TP1-1185, Physical and theoretical chemistry, QD450-801

Abstract

The reinforcing effect of graphene oxide (GO) in enhancing the flexural strength and flexural modulus of aramid fiber (AF)/epoxy composites were investigated with GO-AFs at a weight fraction of 0.1-0.7%. The flexural strength and flexural modulus of the composite reached 87.16 MPa and 1054.7 MPa, respectively, which were about 21.19% and 40.86% higher than those of the pure epoxy resin, respectively. In addition, the flexural properties and interfacial shear strength (IFSS) of composite reinforced by GO-AFs were much higher than the composites reinforced by AFs due to GO improved the interfacial bonding between the reinforcement material and matrix.

Published

2019

43. Application of a modified M-shaped flap in defect repair after resection of lower lip cancer

Author

CHEN Junwen, XU Qian, LIU Kun, GAO Peng, and LI Jun

Subjects

modified M-shaped flap，, lower lip cancer，, defect repair ，, flap，, pedicle flap，, sliding flap，, orbicularis oris muscle，, Medicine

Abstract

Objective To observe the clinical effect of the modified M-shaped flap for repairing defects following resection of lower lip cancer and to provide a reference for clinical application.Methods Fourteen cases using modified M-shaped flaps to repair lower lip cancer surgery defects were retrospectively analyzed. The postoperative follow-up patients’ flap survival, mouth opening, denture use, bilateral mouth angle symmetry, recurrence and survival were analyzed.Results Fourteen patients with lower lip cancer underwent reconstruction immediately after surgery, and the defect range after tumor resection was 30% to 50% of the lower lip. The continuity of the orbicularis oculi muscle is reconstructed by modified M-shaped flap to transfer bilateral residual lip tissue. The blood supply to the flap is stable. All patients’ flaps survived completely without complications, such as hemorrhage, infection or flap necrosis, and their lip movement and sensation recovered well. There were no obvious obstacles in opening and closing or pronunciation and dietary function, and the mean maximum opening was (3.06 ± 0.23) cm. Three patients used active dentures, which could be removed normally. All patients’mouths were preserved. Approximately 85.7% of patients (12/14) had bilateral symmetry of the bilateral mouth, the flaps matched the facial color, and the lower lip was naturally beautiful, as the scar was not obvious. After 6 months to 4 years of follow-up (mean 2 years and 6 months), no recurrence or death occurred.Conclusion The modified M-shaped valve design is simple and easy to operate. This method can be applied to 30% to 50% defect reconstructions of the lower lip to retain the corner of the mouth.

Published

2019

44. Underground multi-sensor integrated navigation system

Author

ZHANG Yuangang, LIU Kun, BAI Meng, and PENG Jiguo

Subjects

underground positioning, underground vehicle navigation, integrated navigation, multi-sensor information fusion, kalman filter, mems inertial sensor, bluetooth, odometer, Mining engineering. Metallurgy, TN1-997

Abstract

In view of problems of high cost of high-precision inertial navigation of underground vehicle and large drift of low-cost MEMS inertial sensor, an underground multi-sensor integrated navigation system was proposed, which uses bluetooth ranging information, MEMS inertial sensor and vehicle odometer information for integrated navigation. The system uses Kalman filter technology to fuse multi-sensor data, combines Bluetooth ranging information to suppress MEMS inertial sensor drift, and improve positioning accuracy of inertial sensor in a period of time; Vehicle position is predicted by MEMS inertial sensor to effectively filter out Bluetooth signal of interference tags, so as to improves data reliability; Integration of odometer data can make the positioning result more stable and reliable. The test results show that the positioning error of every 10 m is less than 3.2 m under the condition that the underground Bluetooth tags are distributed 10 m apart, which can meet requirements of underground navigation.

Published

2019

45. Survey on fatigue and systemic exertion intolerance disease among personnel from special operations force

Author

ZHANG Guowei, SUN Le, LIU Kun, YANG Wang, and XIANG Peng

Subjects

special operation forces, military personnel at professional posts, fatigue, systemic exertion intolerance disease, Medicine (General), R5-920

Abstract

Objective To investigate the fatigue status and occurrence of systemic exertion intolerance disease (SEID) in soldiers from a unit of special operations force. Methods A total of 260 officers and soldiers from a SPF unit were selected in June 2018, and surveyed for fatigue level with multidimensional fatigue inventory 20 (MFI-20). According to the SEID diagnostic criteria recommended by the Institute of Medicine (IOM) in 2015, the occurrence and influencing factors of SEID were assessed using a questionnaire. Results The total score of MFI of the participants was 54.49±11.13, and the scores of general fatigue, physical fatigue, reduced activity, reduced motivation and mental fatigue were 13.63±3.48, 11.75±3.48, 9.72±2.33, 9.00±2.52 and 10.39±3.74, respectively. About 34.27% of the participants suffered from deep fatigue for longer than half a year. The incidences of SEID-related symptoms were 76.00% for unrefreshing sleep, 71.54% for substantial reduction or impairment in the ability, 46.18% for cognitive impairment, 26.52% for orthostatic intolerance and 22.09% for post-exertional malaise in order. According to the diagnostic criteria recommended by IOM, the incidence of SEID was 12.61%. The daily training time was closely correlated to fatigue level (r=0.223, P < 0.01) and SEID incidence (P=0.039). There were no differences in fatigue score and SEID incidence among the participants of different durations of military service, posts and other factors. Conclusion The fatigue score and incidence of SEID are quite high in the participants. The daily training time is closely correlated to fatigue level and SEID incidence.

Published

2019

46. Permeability of P and K-nutrient through polystyrene membrane from aqueous solutions of urea + KH2PO4

Author

Deng Xiaonan, Liu Kun, Han Xiaozhao, Hu Xianguo, and Zheng Shufeng

Subjects

permeability, polymer membrane, aqueous fertilizer solution, polymer-coated fertilizer, Chemistry, QD1-999

Abstract

With the polymer-coated fertilizer as background, the permeability of P- and K-nutrient through a representative polymer membrane-polystyrene membrane were investigated by measuring their permeability in the solutions of KH2PO4-water and urea-KH2PO4-water at nominal temperature of 298 K using the Ussing chamber method. To analyze and interpret the variation of permeability with solute concentration, the solubility of permeate in polymer membrane were determined experimentally and the permeate diffusion coefficient were assessed by the measurements of density and apparent molar volume of the aqueous fertilizer solutions. An interesting “increase-decrease” trend for the permeability of both phosphorous (P)-nutrient, and potassium (K)-nutrient fertilizer with permeate concentration was observed, in which the increases in permeability at low concentrations of permeate could be attributed to the increase in solubility of KH2PO4 in polymer while the decreases in permeability at high concentrations was due to the decrease in diffusion coefficient of permeate in polymer membrane. Finally, the release kinetics of these nutrients from a PS-coated urea-KH2PO4 compound fertilizer granule was predicted using the Shaviv’s model along with the permeability data of P- and K-nutrient generated.

Published

2018

47. Privacy and Security Trade-off in Interconnected Systems with Known or Unknown Privacy Noise Covariance

Author

Wang, Haojun, Liu, Kun, Li, Baojia, Fridman, Emilia, and Xia, Yuanqing

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

This paper is concerned with the security problem for interconnected systems, where each subsystem is required to detect local attacks using locally available information and the information received from its neighboring subsystems. Moreover, we consider that there exists an additional eavesdropper being able to infer the private information by eavesdropping transmitted data between subsystems. Then, a privacy-preserving method is employed by adding privacy noise to transmitted data, and the privacy level is measured by mutual information. Nevertheless, adding privacy noise to transmitted data may affect the detection performance metrics such as detection probability and false alarm probability. Thus, we theoretically analyze the trade-off between the privacy and the detection performance. An optimization problem with maximizing both the degree of privacy preservation and the detection probability is established to obtain the covariance of the privacy noise. In addition, the attack detector of each subsystem may not obtain all information about the privacy noise. We further theoretically analyze the trade-off between the privacy and the false alarm probability when the attack detector has no knowledge of the privacy noise covariance. An optimization problem with maximizing the degree of privacy preservation with guaranteeing a bound of false alarm distortion level is established to obtain {\color{black}{the covariance of the privacy noise}}. Moreover, to analyze the effect of the privacy noise on the detection probability, we consider that each subsystem can estimate the unknown privacy noise covariance by the secondary data. Based on the estimated covariance, we construct another attack detector and analyze how the privacy noise affects its detection performance. Finally, a numerical example is provided to verify the effectiveness of theoretical results.

Published

2024

48. Distributed Adaptive Gradient Algorithm with Gradient Tracking for Stochastic Non-Convex Optimization

Author

Han, Dongyu, Liu, Kun, Lin, Yeming, and Xia, Yuanqing

Subjects

Mathematics - Optimization and Control

Abstract

This paper considers a distributed stochastic non-convex optimization problem, where the nodes in a network cooperatively minimize a sum of $L$-smooth local cost functions with sparse gradients. By adaptively adjusting the stepsizes according to the historical (possibly sparse) gradients, a distributed adaptive gradient algorithm is proposed, in which a gradient tracking estimator is used to handle the heterogeneity between different local cost functions. We establish an upper bound on the optimality gap, which indicates that our proposed algorithm can reach a first-order stationary solution dependent on the upper bound on the variance of the stochastic gradients. Finally, numerical examples are presented to illustrate the effectiveness of the algorithm., Comment: 14 pages, 8 figures

Published

2024

49. The Significant Role of the Microfilament System in Tumors

Author

Xin Jiang, Yiming Qin, Liu Kun, and Yanhong Zhou

Subjects

microfilament system, actin skeleton, cancer, Arp2/3, anticancer drugs, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Actin is the structural protein of microfilaments, and it usually exists in two forms: monomer and polymer. Among them, monomer actin is a spherical molecule composed of a polypeptide chain, also known as spherical actin. The function of actin polymers is to produce actin filaments, so it is also called fibroactin. The actin cytoskeleton is considered to be an important subcellular filament system. It interacts with numerous relevant proteins and regulatory cells, regulating basic functions, from cell division and muscle contraction to cell movement and ensuring tissue integrity. The dynamic reorganization of the actin cytoskeleton has immense influence on the progression and metastasis of cancer as well. This paper explores the significance of the microfilament network, the dynamic changes of its structure and function in the presence of a tumor, the formation process around the actin system, and the relevant proteins that may be target molecules for anticancer drugs so as to provide support and reference for interlinked cancer treatment research in the future.

Published

2021

50. A resource optimization scheduling model and algorithm for heterogeneous computing clusters based on GNN and RL

Author

Zhang, Zhen, Xu, Chen, Liu, Kun, Xu, Shaohua, and Huang, Long

Published

2024