Your search keyword '"Liu Shiying"' showing total 70 results

1. Thermoelectric properties of Bi2Te3 films with low-angle grain boundaries formed through high pulse current density

Author

Lan, Mingdi, Sun, Shang, Liu, Shiying, Li, Guojian, Sun, Xiao, and Wang, Qiang

Published

2024

2. Effect of Cu distribution on thermoelectric properties of evaporated Cu2−xSe films with various Ag contents

Author

Zhai, Gaoyuan, Lan, Mingdi, Liu, Shiying, Li, Guojian, Wang, Zhiwei, and Wang, Qiang

Published

2023

3. Effect of low-dimensional carbon composite on the thermoelectric properties of vacuum evaporated ZnO: Al films

Author

Cui, Jinbin, Sun, Shang, Lan, Mingdi, Liu, Shiying, Piao, Yongjun, Li, Guojian, and Wang, Qiang

Published

2023

4. Cathepsin B/NLRP3/GSDMD axis-mediated macrophage pyroptosis induces inflammation and fibrosis in systemic sclerosis

Author

Liu, Chaofan, Tang, Jiaxuan, Liu, Shiying, Shen, Chen, Zhou, Xing, Lu, Jinghao, Li, Ming, and Zhu, Lubing

Published

2022

5. Ab-initio, Monte Carlo and experimental investigation on structural, electronic and magnetic properties of Zn1-xNixO nanoparticles prepared via sol-gel method

Author

Ahmoum, Hassan, Li, Guojian, Piao, Yongjun, Liu, Shiying, Gebauer, Ralph, Boughrara, Mourad, Su’ait, Mohd Sukor, Kerouad, Mohamed, and Wang, Qiang

Published

2021

6. Effect of high hardness and adhesion of gradient TiAlSiN coating on cutting performance of titanium alloy

Author

Lü, Wenzhang, Li, Guojian, Zhou, Yaoyao, Liu, Shiying, Wang, Kai, and Wang, Qiang

Published

2020

7. Study on the thermoelectric properties of porous Bi-Te films deposited using thermal evaporation on AAO template

Author

Liu, Shiying, Li, Guojian, Lan, Mingdi, Piao, Yongjun, Zhang, Yanan, and Wang, Qiang

Published

2020

8. Theoretical insight into magnetic and thermoelectric properties of Au doped ZnO compounds using density functional theory

Author

Li, Guojian, Ahmoum, Hassan, Liu, Shan, Liu, Shiying, Su'ait, Mohd Sukor, Boughrara, Mourad, Kerouad, Mohamed, and Wang, Qiang

Published

2019

9. Effects of Cu contents on defects formation in molecular dynamics simulations of ZnO:Cu films deposition

Author

Gao, Yang, Li, Guojian, Chang, Ling, Liu, Shan, Liu, Shiying, and Wang, Qiang

Published

2019

10. Columnar growth structure dependent soft magnetic and electrical transport properties of Co nanocrystalline films evaporated with a high magnetic field

Author

Li, Guojian, Du, Jiaojiao, Wang, Qiang, Wang, Jianhao, Gao, Yang, and Liu, Shiying

Published

2018

11. Microstructural evolution of the oxidized ZnO:Cu films tuned by high magnetic field

Author

Li, Guojian, Gao, Yang, Liu, Shiying, Wang, Zhao, Liu, Shan, and Wang, Qiang

Published

2018

12. Disassembly of amphiphilic small molecular prodrug with fluorescence switch induced by pH and folic acid receptors for targeted delivery and controlled release

Author

Xu, Zhigang, Shi, Xiaoxiao, Hou, Meili, Xue, Peng, Gao, Yong-E, Liu, Shiying, and Kang, Yuejun

Published

2017

13. Generation and characterization of a human iPSC line and gene-corrected isogenic line derived from a patient with a CELF2 gene mutation

Author

Hua, Michelle, Williams, Laura, Burns, Kaylan, Liu, Shiying, Ellis, James, Innes, A. Micheil, McPherson, Melissa, and Yang, Guang

Published

2024

14. Maturation and application of phenome-wide association studies.

Author

Liu, Shiying and Crawford, Dana C.

Subjects

*DATA libraries, *GENETIC variation, *EXPERIMENTAL design, *ALGORITHMS

Abstract

In the past 10 years since its introduction, phenome-wide association studies (PheWAS) have uncovered novel genotype–phenotype relationships. Along the way, PheWAS have evolved in many aspects as a study design with the expanded availability of large data repositories with genome-wide data linked to detailed phenotypic data. Advancement in methods, including algorithms, software, and publicly available integrated resources, makes it feasible to more fully realize the potential of PheWAS, overcoming the previous computational and analytical limitations. We review here the most recent improvements and notable applications of PheWAS since the second half of the decade from its inception. We also note the challenges that remain embedded along the entire PheWAS analytical pipeline that necessitate further development of tools and resources to further advance the understanding of the complex genetic architecture underlying human diseases and traits. Pleiotropy, the concept that a gene or genetic variant affects more than one phenotype or trait, is at least a century old. By contrast, phenome-wide association studies (PheWAS), an approach used to identify cross-phenotype associations, were introduced only in the past decade. Still relatively young, PheWAS has rapidly matured into a widely used study design and analytical approach that can still benefit from improvements in its pipeline as genome-wide datasets expand in their breadth and depth, challenging the computational and statistical limits of today's PheWAS. [ABSTRACT FROM AUTHOR]

Published

2022

15. Tunable magnetic properties in evaporated Co–Sm/Fe–Sm bilayer films by crystalline states of under-layer and high magnetic field.

Author

Liu, Shiying, Lu, Fangxu, Shao, Yan, Wang, Chao, and Wang, Zhanjie

Subjects

*MAGNETIC properties, *MAGNETIC fields, *MAGNETIC structure, *MAGNETIC field effects, *MAGNETIC films, *FLUX pinning

Abstract

Bilayer is an effective structure to enhance magnetic properties of films. This study employs high magnetic field (HMF) and amorphous Fe–Sm under-layer to tune the magnetic properties of evaporated Co–Sm/Fe–Sm bilayer films. Various analysis methods are used to explore the relation of microstructure evolution under above conditions with magnetic performance. The results show that both the amorphous Fe–Sm under-layer and the HMF can decrease surface roughness. Further, the HMF exhibits other effects that reduces column size, increases interplanar spacing and affects interface at atomic scale. The structural variation has effect on magnetic properties of bilayer films. The amorphous Fe–Sm under-layer increases magnetization, coercivity and squareness through changing the amount of non-magnetic structure at atomic scale. Meanwhile, the HMF decreases coercivity by changing pinning via the interface variation. Both the HMF and amorphous under-layer have no influence on the anisotropy of bilayer films. These results present an effective method to tune the magnetic properties of films through amorphous under-layer and HMF. • Amorphous FeSm under-layer has effect on microstructure and magnetic performance. • High magnetic field improves magnetization by affecting non-magnetic structure. • High magnetic field decreases coercivity by changing interface pinning. • Effect of high magnetic field on squareness is smaller than that of amorphous layer. [ABSTRACT FROM AUTHOR]

Published

2024

16. Carbon inequality in residential buildings: Evidence from 321 Chinese cities.

Author

Chen, Liu, Liu, Shiying, Cai, Weiguang, Chen, Rundong, Zhang, Jinbo, and Yu, Yanhui

Subjects

CITIES & towns, DWELLINGS, CLIMATIC zones, CARBON emissions, GINI coefficient, REGIONAL economic disparities

Abstract

All human beings contribute to climate change; however, their contributions are not equal. Using China as an example, the core objective of this study is to explore the city-level carbon inequality of residential buildings from 2015 to 2020 combined Theil index and Gini coefficient. The outcomes indicate that: (1) Total residential buildings' carbon emissions in 321 Chinese cities increased from 987.81 million tons (Mt) in 2015 to 1161.70 Mt. in 2020; the leading five cities that own the largest carbon emissions are Beijing, Tianjin, Shanghai, Shenyang, and Harbin in 2020. (2) Among eight major economic zones of China, the highest residential buildings' carbon emission per capita and residents' disposable income per capita are the Northeast Economic Zone and Eastern Coastal Economic Zone, respectively. (3) Both the Theil index and Gini coefficient show that the overall carbon inequality is higher than income inequality; the Theil index decomposition indicates that city-level carbon inequality has declined; the key forces of carbon emission per capita and disposable income per capita inequality are inter-regional inequality (contribution rate: 55%–63%) and intra-regional inequality (contribution rate: 59%–63%), respectively. (4) Moreover, regarding income earners during 2015–2020 period, the top 10% of 321 cities occupy about 33% in the total national residential buildings' carbon emissions; the medium 40% of cities account for about 42% in total carbon emissions; in contrast, the bottom 50% of cities represent only about 25% of the total carbon emissions. These discoveries emphasize the necessity for the Chinese government to pay more attention to city-level residential building carbon emissions to track advances toward residents' sustainable lifestyles. • The city-level features of carbon emissions and resident incomes were analyzed. • Carbon and income inequality via Theil index and Gini coefficient were compared. • Carbon emission per capita inequality's core force via Theil index was identified. • Carbon inequality's disparities in economic zones and climate zones were discussed. [ABSTRACT FROM AUTHOR]

Published

2024

17. Size-dependent cuboctahedron-icosahedron transformations of Co-based bimetallic by molecular dynamics simulation

Author

Gao, Yang, Li, Guojian, Piao, Yongjun, Liu, Shiying, Liu, Shan, and Wang, Qiang

Published

2018

18. Role of intrinsic defects on thermoelectric properties of ZnO:Al films.

Author

Liu, Shiying, Li, Guojian, Lan, Mingdi, Zhu, Miaoyong, Miyazaki, Koji, and Wang, Qiang

Subjects

*THERMOELECTRIC materials, *SEEBECK coefficient, *CARRIER density, *THERMAL conductivity, *RADIO frequency, *ZINC oxide, *ALUMINUM-zinc alloys

Abstract

In this study, we explored the role of the intrinsic defects on the tuning thermoelectric (TE) performance of Al-doped ZnO (ZnO:Al) films. The intrinsic defects of the Zn interstitial (Zn i) and the oxygen vacancy (V O) were controlled by varying the Zn content by using the radio frequency atomic source vacuum evaporation method. In the Zn-rich case, the excessive Zn formed Zn i to provide most of the carriers. V O became the main origin of the carriers with a decreasing Zn content. When the Zn content was 55.2% and 52.5%, the segregation of Zn i decreased the carrier concentration and subsequently, enhanced the resistivity and the Seebeck coefficient. The ZnO:Al film with a Zn content of 52.5% had the highest power factor of 274.03 μW·m−1·K−2 at 819 K. In addition, the higher Zn i concentration had a more prominent effect on thermal conductivity. The thermal conductivity increased to 1.756 W·m−1·K−1 from 0.608 W·m−1·K−1 with the Zn content decreasing from 55.2% to 50.6%. The ZT value reached the highest of 0.121 when the film had the optimum Zn concentration of 51.5%. This study concluded that the tuning of the intrinsic defects was an effective method to enhance the TE performance. [ABSTRACT FROM AUTHOR]

Published

2021

19. Meshworks Analyzer: Quantitative analysis software for super-resolved actin cortex architecture

Author

Liu, Shiying, Zhang, Zhen, and Kanchanawong, Pakorn

Published

2021

20. Co dopant drives surface smooth and improves power factor of evaporated SnSe films.

Author

Liu, Shiying, Lan, Mingdi, Li, Guojian, Yuan, Yi, Jia, Baohai, and Wang, Qiang

Subjects

*HEAT recovery, *SEEBECK coefficient, *ELECTRIC conductivity, *CARRIER density, *CHARGE carrier mobility

Abstract

Unstable nanosheet morphology of polycrystalline SnSe film becomes a limitation for its application in the field of waste heat recovery. This study dopes Co into the evaporated SnSe film to smooth the surface and to improve power factor. The results show that Co dopant makes the rough nanosheet change to surface densely packed structure. The dopant Co forms Co particles distributing around SnSe grain boundary, which suppress SnSe (011) plane growth and subsequent reduce nanosheet formation. In addition, Co dopant increases electric conductivity through increasing the carrier concentration, but the magnetism of Co particles decreases carrier mobility due to spin-charge coupling and also affects the Seebeck coefficient. The power factor thus is improved after doped Co. This study presents a method to fabricate polycrystalline SnSe film with smooth surface morphology and high power factor. [ABSTRACT FROM AUTHOR]

Published

2020

21. Retrospective carbon reduction potential of residential buildings in China based on equity and efficiency coupling.

Author

Chen, Liu, Liu, Shiying, Cai, Weiguang, Li, Yan, Lv, Gengpei, and Peng, Shihong

Subjects

REDUCTION potential, CARBON dioxide mitigation, CARBON emissions, CARBON, CARBON dioxide

Abstract

Carbon dioxide (CO 2) mitigation in the residential building sector has become critical for China in achieving its carbon peak and neutrality goals. This study is the first to retrospect the historical carbon reduction potential in China's 30 provinces by establishing an equity and efficiency coupling model and comparing the differences in carbon reduction potential under three scenarios: equity priority, efficiency priority scenario, and balance equity with efficiency. The core findings of this study reveal that: (1) China's total CO 2 emissions in residential buildings increased from 975.67 Mt to 1328.47 Mt during 2010–2020, where the provinces with the highest CO 2 emissions are Shandong, Hebei, and Henan; energy intensity and energy carbon emission coefficient are the most critical driving factors affecting the CO 2 emission, followed by floor area per capita and population size. (2) The carbon reduction potential index of residential buildings in eastern provinces is generally higher than that in western provinces; the growth rate of carbon reduction potential is the fastest under the equity priority scenario, and Beijing, Shanghai, and Inner Mongolia have the highest carbon reduction potential. (3) The provinces gradually enter a strong coupling status associated with the climate zones of residential buildings, while the coupling status of the urban area is higher than that of the rural area. Overall, this study adopts a new coupling perspective of equity and efficiency, where the proposed assessment model serves as a reference for measuring the retrospective CO 2 mitigation effect in residential buildings in other countries. • An evaluation approach for the carbon reduction potential of residential buildings was developed. • The core driving factors for carbon emissions from residential buildings were identified. • Three scenarios with distinct preferences for equity and efficiency were determined. • The provincial ranking of carbon reduction potential in urban and rural areas was analyzed. • The causes that promote a strong coupling between equity and efficiency were discussed. [ABSTRACT FROM AUTHOR]

Published

2023

22. Study on thermoelectric properties of co-evaporated Sn-Se films with different phase formations.

Author

Jia, Baohai, Liu, Shiying, Li, Guojian, Liu, Shan, Zhou, Yaoyao, and Wang, Qiang

Subjects

*THERMOELECTRICITY, *THIN films, *POLYCRYSTALS, *THICKNESS measurement, *EVAPORATION (Chemistry), *TEMPERATURE effect

Abstract

Abstract In this study, polycrystalline thin films of 330 nm in thickness with different SnSe and SnSe 2 contents were prepared by co-evaporation of Sn and Se through adjusting source temperatures and substrate temperature. The result illustrates that the film with pure SnSe phase is p-type and consists by bulk-like nanoparticles, its resistivity is high up to 139 mΩ·m, which results in a low thermoelectric performance. The films with the coexistence of SnSe and SnSe 2 phases are comprised of nanosheets. The existence of SnSe 2 phase changes the conductivity type of the films to n-type and reduces resistivity. At the same time, the nanosheets perpendicular to the substrate can improve the Seebeck coefficient by filtering the low energy carrier. When the SnSe 2 phase content is 34%, the Seebeck coefficient and the power factor of the film can reach the maximum, 255 μV/K and 155 μW/(m·K2) at 250 °C, respectively. Highlights • Films with different SnSe and SnSe 2 content were prepared by thermal evaporation. • Nanosheets exhibits high Seebeck coefficient by filtering the low energy carriers. • Two-phase film with 34% SnSe 2 has the highest power factor. [ABSTRACT FROM AUTHOR]

Published

2019

23. Joint improvement of conductivity and Seebeck coefficient in the ZnO:Al thermoelectric films by tuning the diffusion of Au layer.

Author

Li, Guojian, Liu, Shiying, Piao, Yongjun, Jia, Baohai, Yuan, Yi, and Wang, Qiang

Subjects

*ELECTRIC conductivity, *SEEBECK coefficient, *ELECTRIC properties of zinc oxide, *ALUMINUM films, *THERMOELECTRIC materials, *GOLD film testing, *COLD fusion experiments

Abstract

Joint improvement of the Seebeck coefficient S and conductivity σ is a pressing issue to overcome the limit of the figure of merit ( ZT ) enhancement of thermoelectric materials. This study presents a joint improvement in the ZnO:Al films by tuning the diffusion of Au layer via substrate temperature, using a radio frequency-assisted molecular beam vapor deposition method. The phenomenon occurs in the ZnO:Al films at the room temperature (RT) substrate deposited on a 10 nm Au layer (RT-ZnO:AuAl). The films have a hexagonal wurtzite structure with an in-plane (002) preferred orientation and smooth surface. The resistivity values of the films are at the same magnitude of the transparent conducting oxide (~10 −6  Ω·m). The carrier concentration reaches 2.60 × 10 21  cm −3 for the RT-ZnO:AuAl film. The S is about 29.5 μV/K at 240 °C. Joint improvement of conductivity and Seebeck coefficient makes the PF of the RT-ZnO:AuAl film reaches 3.58 × 10 −5  Wm −1  K −2 , which is two orders of magnitude larger than that of the RT-ZnO:Au film without joint improvement. The results indicate that the higher conductivity originates from the Au layer, in-plane (002) preferred orientation, and the easily excited carriers in the ZnO:Al due to the low binding energy of the Zn 2p electrons. The large S in the film is related to the high effective masses due to the impact of the diffusion of the Au layer on electronic interactions. [ABSTRACT FROM AUTHOR]

Published

2018

24. Controlling the shape of hexagonal structure by growth condition improves the thermoelectric properties of p-type Bi-Te films.

Author

Lan, Mingdi, Sun, Shang, Liu, Shiying, Li, Guojian, Wang, Zhiwei, and Wang, Qiang

Subjects

*THERMOELECTRIC materials, *THERMOELECTRIC apparatus & appliances, *MAGNETRON sputtering, *CARRIER density, *PHONON scattering

Abstract

Improving the thermoelectric (TE) properties of typical p-type Bi 0.5 Sb 1.5 Te 3 film is crucial for power generation in film-based thermoelectric devices. The shape of the hexagonal structure in the Bi 0.5 Sb 1.5 Te 3 film can be controlled by adjusting the magnetron sputtering parameters. The results indicate that a high nucleation rate under high sputtering power promotes island growth with a preferred orientation of (015). Thermal energy influences the growth in the in-plane direction along the (00 l) orientation and induces the c-axis orientation in the out-of-plane direction. Consequently, a dense layered hexagonal structure with a high grain boundary density is formed, leading to increased defect density, carrier concentration, and phonon scattering. In this case, the power factor reaches 3149.01 μW·m-1·K-2 at 480 K and the ZT value is 1.14 at 480 K. These results indicate that the film with a dense layered hexagonal structure enhances the TE properties. [ABSTRACT FROM AUTHOR]

Published

2023

25. Effect of morphology evolution on the thermoelectric properties of oxidized ZnO thin films.

Author

Liu, Shiying, Li, Guojian, Xiao, Lin, Jia, Baohai, Gao, Yang, and Wang, Qiang

Subjects

*THIN films, *THERMOELECTRIC materials, *THERMAL oxidation (Materials science), *SURFACE morphology, *NANOWIRES

Abstract

The effects of nanowire content on the thermoelectric properties of ZnO films were investigated. The nanowire content of ZnO films was tuned by thermal oxidation of evaporated Zn films. The results showed that hexagonal and polyhedral morphologies on the surface of Zn films can be used to tune the nanowire content of ZnO films. Hexagonal nanoplates with a diameter of 100–350 nm readily grew ZnO nanowires with c-axis preferential orientation. Conversely, it was difficult to grow nanowires on polyhedral nanoparticles with diameters of 500–750 nm because the meeting of ZnO (101) and (001) facets suppressed nanowire growth. Thermoelectric parameters were strongly affected by nanowire content. In particular, carrier concentration increased with nanowire content. Carrier mobility also increased with nanowire content because the nanowires behaved as channels for electronic migration. The band gap of the films narrowed with increasing nanowire content because the binding energy of O 1s electrons with oxygen vacancies decreased. The maximum power factor of the film with high nanowire content (8.80 μW/m K 2 at 530 K) was approximately 300% higher than that of the film with low nanowire content. [ABSTRACT FROM AUTHOR]

Published

2018

26. Effect of doping SiO2 and applying high magnetic field during the film growth on structure and magnetic properties of evaporated Fe films.

Author

Liu, Shiying, Ma, Yonghui, Chang, Ling, Li, Guojian, Wang, Jianhao, and Wang, Qiang

Subjects

*DOPING agents (Chemistry), *SILICON oxide, *MAGNETIC fields, *MAGNETIC properties of metallic films, *CRYSTAL growth, *CRYSTAL structure, *IRON

Abstract

Huge difference of surface energies between dielectric and metal provides an effective method to tune the structure and magnetic properties of films. Due to the difference of surface energies between SiO 2 and Fe, dopant of SiO 2 with 3.6% in atomic ratio in Fe film transforms the strip and column structure in the Fe films to equiaxed crystal formed by nanoparticles of the Fe-SiO 2 films. Zeeman energy of applying high magnetic field (HMF) during film growth increases Fe atomic aggregation and atomic diffusion of SiO 2 into the grain boundary. This leads to the improvement of the particle size with applying HMF during the film growth. These structural evolutions have a significant effect on the performance of the films. After the dopant of SiO 2 , the saturation magnetization M s of the Fe-SiO 2 film (324.6 kA/m) is 73.2% less than that of the Fe films. The coercivity H c decreases 204.0% to 788.04 A/m. However, the M s increases 44.3% and the H c increases 27.4% for the Fe-SiO 2 film with applying HMF during the film growth. [ABSTRACT FROM AUTHOR]

Published

2018

27. Cardiac Outcomes in Pregnant Women With Treated Cancer.

Author

Liu, Shiying, Aghel, Nazanin, Belford, Linda, Silversides, Candice K., Nolan, Mark, Amir, Eitan, Maxwell, Cynthia, and Thavendiranathan, Paaladinesh

Subjects

*CANCER in pregnancy, *CANCER in women, *PREGNANT women, *GESTATIONAL age, *ORGAN rupture

Published

2018

28. Low-molecular-weight oyster peptides ameliorate cyclophosphamide-chemotherapy side-effects in Lewis lung cancer mice by mitigating gut microbiota dysbiosis and immunosuppression.

Author

Li, Jinzhen, Yang, Li, Li, Guiyan, Liu, Shiying, Cao, Wenhong, Lin, Haisheng, Chen, Zhongqin, Qin, Xiaoming, Huang, Jinzhi, and Zheng, Huina

Abstract

[Display omitted] • Low-molecular-weight oyster peptides enhanced immune cell differentiation and immunoglobulin expression. • Low-molecular-weight oyster peptides increased the beneficial bacteria in the intestine. • Hydrophobic amino acids and glutamic acid may be main components effects of low-molecular-weight oyster peptides. Low-molecular-weight oyster peptides (LOPs) are typical bioactive peptides with ameliorated immunomodulatory properties. However, the mechanism underlying its effect on immune functions and intestinal flora after chemotherapy has not been reported. In this study, Lewis lung cancer mice were used along with cytotoxic chemotherapy to establish model to investigate the ameliorative effects of LOPs on immunomodulatory function and intestinal flora structure. Our results showed that administration of LOPs alleviated weight loss, reduced spleen tissue damage, increased splenic T -lymphocytes, and markedly increased secretion of serum immunoglobulins and decreased inflammatory factors. Additionally, LOPs significantly increased the abundance of beneficial bacteria (Lactobacillus and Coriobacteriaceae_UCG) and decreased pathogenic bacteria (Clostridium) present in intestine. Hydrophobic amino acids and glutamate may be the underlying components to mitigate negative effects of chemotherapy. This study provides a theoretical basis for the use of LOPs as a nutritional base for the development of formula foods for cancer patients undergoing chemotherapy. [ABSTRACT FROM AUTHOR]

Published

2022

29. Astrocytes regulate ultra-slow arteriole oscillations via stretch-mediated TRPV4-COX-1 feedback.

Author

Haidey, Jordan N., Peringod, Govind, Institoris, Adam, Gorzo, Kelsea A., Nicola, Wilten, Vandal, Milène, Ito, Kenichi, Liu, Shiying, Fielding, Cameron, Visser, Frank, Nguyen, Minh Dang, and Gordon, Grant R.

Abstract

Very-low-frequency oscillations in microvascular diameter cause fluctuations in oxygen delivery that are important for fueling the brain and for functional imaging. However, little is known about how the brain regulates ongoing oscillations in cerebral blood flow. In mouse and rat cortical brain slice arterioles, we find that selectively enhancing tone is sufficient to recruit a TRPV4-mediated Ca2+ elevation in adjacent astrocyte endfeet. This endfoot Ca2+ signal triggers COX-1-mediated "feedback vasodilators" that limit the extent of evoked vasoconstriction, as well as constrain fictive vasomotion in slices. Astrocyte- Ptgs1 knockdown in vivo increases the power of arteriole oscillations across a broad range of very low frequencies (0.01–0.3 Hz), including ultra-slow vasomotion (∼0.1 Hz). Conversely, clamping astrocyte Ca2+ in vivo reduces the power of vasomotion. These data demonstrate bidirectional communication between arterioles and astrocyte endfeet to regulate oscillatory microvasculature activity. [Display omitted] • Arteriole tone increases astrocyte endfoot Ca2+ via TRPV4 channels to engage COX-1 • COX-1 generates feedback dilators to limit the extent of constriction • Astrocytic COX-1 constrains ultra-slow arteriole oscillations in slice and in vivo • Clamping astrocyte Ca2+ in vivo decreases cerebral vasomotion Haidey et al. find that arteriole constriction increases astrocyte endfoot Ca2+ via TRPV4 channels to engage a COX-1 negative feedback signal that limits the degree of vasoconstriction. In vivo , astrocyte COX-1 constrains very-low-frequency oscillations (0.01–0.3 Hz) in arteriole diameter, while rhythmic fluctuations are reduced by clamping astrocyte Ca2+. [ABSTRACT FROM AUTHOR]

Published

2021

30. Breaking the tradeoff among thermoelectric parameters by multi composite of porosity and CNT in AZO films.

Author

Liu, Shiying, Lan, Mingdi, Li, Guojian, Piao, Yongjun, Ahmoum, Hassan, and Wang, Qiang

Subjects

*WASTE heat, *POROSITY, *PHONON scattering, *THERMAL conductivity, *THERMOELECTRIC materials

Abstract

Multi-nanocomposite is an effective method to achieve high thermoelectric (TE) performance by breaking the tradeoff among three TE parameters. This paper presents a comparative study of incorporated carbon nanotube (CNT)/Au in evaporated porous Al-doped ZnO (AZO) films. The effect of the nanocomposite interface on scattering of carriers and phonons is used to independently tune thermal conductivity and power factor in the multi-nanocomposite AZO films. This breaks the tradeoff and improves the figure of merit (ZT) of the film. Moreover, the temperature gradient retains in the out-of-plane of the films. These make the AZO film composited CNT and porosity have higher output power than that of the non-porous films. This provides a simple method for the low-dimension film to increase the TE properties through breaking the tradeoff and makes the TE materials suitable for efficient harvesting in low-grade waste heat. [Display omitted] • This study presents a simple method to prepare multi-nanocomposite film. • Multi-nanocomposite breaks the tradeoff among thermoelectric parameters. • Film with CNT and porosity has higher ZT value and output power. [ABSTRACT FROM AUTHOR]

Published

2021

31. Improved thermoelectric properties of C-doped Bi2Te3 films following short-range atomic diffusion induced by pulsed electric field treatment.

Author

Lan, Mingdi, Sun, Shang, Liu, Shiying, Li, Guojian, Guo, Hailong, and Wang, Qiang

Subjects

*THERMOELECTRIC materials, *ELECTRIC fields, *THERMAL conductivity, *CHEMICAL bond lengths

Abstract

Bi 2 Te 3 is a successful and commercial thermoelectric material. However, Bi 2 Te 3 is easily generates point defects, which limits its thermoelectric (TE) properties. This study presents a novel method to tune point defects by using short-range atomic diffusion via pulsed electric field (PEF) treatment in C-doped Bi 2 Te 3 films. The C atoms migrate from the interstitial position in the Bi layer (C i) and the Van der Waals gap (C vdw) to the Bi vacancy after the PEF treatment. For this case, it increases the content of the Te–C bonds for the PEF films, resulting in increased electron concentration. And the PEF can eliminate amorphous regions of the C-doped Bi 2 Te 3 films. In addition, the shorter bond length of the Te–C improves the compressive stress of the film and increases the effective mass of carriers. Thus, the conductivity and the Seebeck coefficient are improved simultaneously. In this study, the power factor was 2450.32 μW m−1·K−2 at 513 K after the PEF treatment. Therefore, the PEF is an effective method to improve TE properties by short-range atomic diffusion. [ABSTRACT FROM AUTHOR]

Published

2022

32. Investigating the high-temperature and self-lubricating properties of TiAlSiCN hard coating coordinated using double amorphous phases.

Author

Li, Xianliang, Li, Guojian, Liu, Shiying, Lan, Mingdi, Sun, Shang, and Wang, Qiang

Subjects

*SURFACE coatings, *WEAR resistance, *TITANIUM alloys, *HIGH temperatures, *MAGNETRON sputtering, *FRICTION

Abstract

In this work, the competitive relationship between the double amorphous phases is systematically investigated to increase the high-temperature wear resistance of the self-lubricating TiAlSiCN coating. These double amorphous phases combine the SiN x phase with high-temperature resistance and the C-related phase with a low friction coefficient. An increase in the Si content facilitates the change in the phase composition. The resultant coating exhibits an adhesion strength of 153 N, a friction coefficient of 0.24 and a hardness of 25.24 GPa upon generation of the TiAlN(C), the SiN x and the C-related phase. In this case, the TiAlSiCN coating achieves long-term self-lubrication at high temperatures with the titanium alloy friction pair. This mechanism stems from the SiN x phase replacing the portion of the easily oxidized amorphous C-related phase, which yields an enhanced high-temperature wear resistance. The cutting distance of this TiAlSiCN is 120% higher than that of the TiAlCN during the high-speed cutting of the titanium alloy. This outcome provides an effective solution for high-temperature applications of self-lubricating coatings. • Long-term self-lubricating is remained in TiAlSiCN coating by optimal Si content. • Synergistic effect of amorphous SiN x and C-related phase is solved in TiAlSiCN. • Tool life of TiAlSiCN improved 225% by comparing with that of TiAlN. [ABSTRACT FROM AUTHOR]

Published

2024

33. Improved thermal properties and CMAS corrosion resistance of high-entropy RE zirconates by tuning fluorite-pyrochlore structure.

Author

Tian, Yue, Zhao, Xiuyi, Sun, Zhipei, Liang, Yongqi, Xiao, Guozheng, Wang, Chao, Liu, Shiying, Liu, Feng, Lu, Xuefeng, Wu, Yusheng, and Wang, Zhanjie

Subjects

*PYROCHLORE, *CORROSION resistance, *THERMAL properties, *ZIRCONATES, *THERMAL conductivity, *PHONON scattering, *THERMAL barrier coatings

Abstract

The order-disorder transition (ODT) of RE zirconate (RE 2 Zr 2 O 7) has received much attention due to its potential applications in the design of thermal barrier coatings (TBCs). A series of high entropy RE zirconates (RE = La, Sm, Gd, Er and Lu) were designed and synthesized in order to regulate the fluorite-pyrochlore phases, and to investigate the effect of phase composition on the microstructures and performances. The results showed that the sintering temperature, as well as equivalent ion radius, played an important role in regulating the phase transformation of fluorite-pyrochlore. The coexistence of pyrochlore-fluorite phases not only can result in the decrease in grain size but also increased the lattice strain of each phase, thereby enhancing the phonon scattering and contributing to the reduction in the thermal conductivity. The CMAS corrosion resistance was mainly related to phase compositions, and the thicknesses of reaction layer decreased gradually with the increasing fluorite phase content. The results will provide theoretical guidance for the microstructural design of high entropy RE zirconates as next generation TBC materials in future. [ABSTRACT FROM AUTHOR]

Published

2024

34. DIRECT PLANIMETRY OF LEFT VENTRICULAR OUTFLOW TRACT AREA BY SIMULTANEOUS BIPLANE IMAGING: CHALLENGING THE NEED FOR A CIRCULAR ASSUMPTION OF LEFT VENTRICULAR OUTFLOW TRACT AREA IN CALCULATING AORTIC VALVE AREA.

Author

Liu, Shiying, Hua, Lanqi, Zeng, Xin, Churchill, Jessica, Dong, Tony, Dal-Bianco, Jacob, Passeri, Jonathan, Levine, Robert, and Hung, Judy

Subjects

*AORTIC valve

Published

2019

35. Improved thermoelectric properties in Zn0.94Al0.06Ox films caused by oxygen defects via oxygen pressure.

Author

Li, Guojian, Wang, Qiang, Liu, Shiying, Piao, Yongjun, Gao, Yang, and Chang, Ling

Subjects

*PHOTOLUMINESCENCE, *ELECTRICAL resistivity, *THERMOELECTRIC materials, *OXIDATION, *SURFACE roughness

Abstract

Abstract Al-doped ZnO films (Zn 0.94 Al 0.06 O x) can be fabricated by thermal oxidation of evaporated metallic Zn-Al film. Oxygen defects were strongly related to oxygen pressure at a given temperature (500 °C) and duration (3 h). Under oxygen pressure of 0.021 MPa (O 2 -0.021 MPa), the main component was the Zn phase. Zn 0.94 Al 0.06 O x films were formed under oxygen pressure of 0.1 MPa and 0.12 MPa, with the conductivity and Seebeck coefficient improving simultaneously with increased oxygen pressure. The flat particles of the O 2 -0.12 MPa film weakened the electron scattering, leading to increased conductivity. Furthermore, the decrease in oxygen vacancies caused by the higher oxygen pressure increased the Seebeck coefficient. As a result, the power factor of the O 2 -0.12 MPa film was about 30 times greater than that of the O 2 -0.1 MPa film, characterized by an increasing content of singly ionised oxygen. Highlights • Carrier concentration was changed by oxygen pressure in thermal oxidation. • Power factor was affected by content of single ionised oxygen. • Conductivity and Seebeck coefficient increased simultaneously with oxygen pressure. [ABSTRACT FROM AUTHOR]

Published

2019

36. Effect of Zn atomic diffusion due to pulsed electric field treatment on the thermoelectric properties of Zn–Sb films.

Author

Wang, Zhiwei, Lan, Mingdi, Liu, Shiying, Li, Guojian, Zhai, Gaoyuan, and Wang, Qiang

Subjects

*THERMOELECTRIC materials, *SEEBECK coefficient, *CARRIER density, *ELECTROSTATIC interaction, *ELECTRIC fields, *DIFFUSION control

Abstract

Zn 4 Sb 3 has brought into sharp focus by its low cost and excellent thermoelectric (TE) properties in the medium temperature range. Zn atoms can diffuse in the Zn 4 Sb 3 matrix under the treatment of temperature or current. This provides a way to control its TE performance. In this study, the TE properties of the Zn 4 Sb 3 films were improved by the Zn atomic diffusion under the treatment of periodic pulsed electric field. The Zn atomic diffusion is caused by the electrostatic interaction of the pulsed electric field and the diffusion mode is related to the pulse period. When the pulse period is smaller than 10 s, the interstitial Zn atom diffuses first. The Zn vacancy increases, leading to the increase of the carrier concentration and the decrease of the resistivity. When the pulse period increases to 100 s, more Zn(1) atoms diffuse through the interstitial position, resulting in a small amount of ZnSb phase. Thereby in the Zn 4 Sb 3 films, the carrier concentration decreases and the Seebeck coefficient increases. This kind of the synergistic effect decreases the resistivity and increases the Seebeck coefficient. The power factor of the Zn 4 Sb 3 films treated with a pulse period of 100 s is more than 4500 μW m−1 K−2 in the range of 373 K–573 K. This study presents a new method to control atomic diffusion by periodic pulsed electric field, and the TE properties of the Zn 4 Sb 3 films are improved. • Pulsed electric field can control the diffusion of Zn atoms in Zn–Sb films. • The diffusion of interstitial Zn i atoms increased the carrier concentration in films. • The diffusion of Zn(1) atoms increased with the increase of pulse period. • The diffusion of Zn(1) atoms caused a small amount of the ZnSb phase. • The power factor of the film treated with the pulse period is 4901.31 μW m−1 K−2. [ABSTRACT FROM AUTHOR]

Published

2023

37. Sb content dependent thermoelectric properties of the p-type ZnO:Sb films fabricated by oxidation method.

Author

Li, Guojian, Lin, Xiao, Liu, Shiying, Jia, Baohai, and Wang, Qiang

Subjects

*ELECTRIC properties of metals, *ZINC oxide, *THERMOELECTRICITY, *OXIDIZING agents, *OXIDATION, *ELECTRICAL resistivity

Abstract

It is important to fabricate stable p-type ZnO:Sb thermoelectric (TE) films for the p-n homojunction TE devices that convert waste heat directly into electricity. In this study, the ZnO:Sb films with different Sb contents were prepared by oxidizing evaporated Zn-Sb films in oxygen. The film with a high Sb content (5.32%) is easy to form Zn 4 Sb 3 and ZnSb compound in the wurtzite ZnO. The resistivity has a sharply reduction with the Sb content from 0.228 Ω·m of 3.95% Sb to 4.68 × 10 −5  Ω·m of 5.32% Sb. The lowest resistivity is lower at least one order of magnitude than the results of others with the similar Sb content. The Seebeck coefficient indicates that the 5.32% Sb film remains stable p-type conduction. The carrier concentration is about 10 20  cm −3 and is higher at least one order of magnitude than the other results. Raman analysis indicates that the peak of E 2 high related O sublattice vibrations indicates that the O sites are substituted by Sb 3+ ions, which increases the carrier concentration. However, the mobility is relatively weak because the intrinsic host lattice defects activated as vibrating complexes. The power factor of the p-type ZnO:Sb of the 5.32% Sb film at 427 °C is 46.79 μW/m·K 2 . [ABSTRACT FROM AUTHOR]

Published

2018

38. Effect of nanowires in microporous structures on the thermoelectric properties of oxidized Sb-doped ZnO film.

Author

Li, Guojian, Xiao, Lin, Liu, Shiying, Wang, Huimin, Gao, Yang, and Wang, Qiang

Subjects

*NANOWIRES, *THERMOELECTRIC materials, *ZINC oxide films, *MAGNETIC fields, *NANORODS

Abstract

Sb-doped ZnO thermoelectric films with microporous structures are fabricated by oxidizing evaporated Zn-Sb thin films in a leaf-like surface. High magnetic field (HMF) and Sb are employed to tune the formation of nanowires and nanorods in the microporous films and conduction type. Nanowire is formed in the film with Sb content of 3.0% and nanorod is formed with 4.6% Sb with the absence of HMF. P-type ZnO films with a wuterzite are formed. The resistivity of the films decreases by two orders of magnitude by increasing Sb content. The resistivity of films decreases 45% and 80% by forming nanowires and nanorods, respectively. The power factor of the nanorod structures increases by two orders of magnitude by comparison with others and reaches to 52.6 μW/m K 2 . This indicates that the nanorod structures with a higher Sb content are easy to obtain stable p -type semiconductor with a higher power factor. [ABSTRACT FROM AUTHOR]

Published

2018

39. Inhibition of JAK1/STAT3 pathway by 2-methoxyestradiol ameliorates psoriatic features in vitro and in an imiquimod-induced psoriasis-like mouse model.

Author

Tang, Jiaxuan, Liu, Chaofan, Liu, Shiying, Zhou, Xing, Lu, Jinghao, Li, Ming, and Zhu, Lubing

Subjects

*VASCULAR endothelial growth factors, *VASCULAR endothelial growth factor receptors, *LABORATORY mice, *TOPICAL drug administration, *ANIMAL disease models

Abstract

Psoriasis is characterized by hyperproliferative keratinocytes, dilated capillaries and leukocyte infiltration. 2-Methoxyestradiol (2-ME) has shown significant inhibition on proliferation, angiogenesis and inflammation. To evaluate the anti-psoriatic potential of 2-ME, psoriasis-like dermatitis was induced by topical application of imiquimod (IMQ) on the dorsal skin of C57BL/6 mice for seven consecutive days, followed by treatment of vehicle or 2-ME ointment from Day 4 on. The psoriasis area and severity index (PASI) was assessed daily. On Day 8, skin histology and spleen index were assessed. The effects of 2-ME on the proliferation, apoptosis, cell cycle, vascular endothelial growth factor A (VEGFA), and Janus kinase (JAK)-signal transducer and activator of transcription (STAT) pathways of HaCaT cells stimulated by interleukin-17 (IL-17A) were detected, together with its effect on the proliferation, tube formation and VEGF receptor expression of human umbilical vein endothelial cells (HUVECs). We found that topical 2-ME treatment significantly improved IMQ-induced psoriasis-like dermatitis and decreased the PASI scores, the activation of STAT3 in the skin (P < 0.05), and the spleen index in mice (P < 0.01). In vitro, 2-ME inhibited the proliferation of HaCaT cells by inducing apoptosis and G2/M phase arrest (P < 0.01). Moreover, 2-ME suppressed IL-17A-induced VEGFA (2.5 μM: P < 0.05; 5 μM: P < 0.01) and phosphorylation of STAT3 by blocking p-JAK1 in HaCaT cells and prevented tube formation (P < 0.01) and proliferation by targeting VEGF receptors 1 (VEGFR1) and 2 (VEGFR2) in HUVECs. We conclude that 2-ME alleviated psoriasis in vivo and in vitro by inhibiting JAK1/STAT3 pathway and was a promising therapeutic agent for psoriasis. • 2-Methoxyestradiol improves psoriasis-like dermatitis and systemic immune activation in imiquimod-induced mice. • 2-Methoxyestradiol inhibits proliferation and induces apoptosis of HaCaT cells. • 2-Methoxyestradiol suppresses IL-17A-induced JAK1/STAT3 signaling pathway in HaCaT cells. • 2-Methoxyestradiol inhibits the proliferation, tube formation and VEGF receptor expression in HUVECs. [ABSTRACT FROM AUTHOR]

Published

2022

40. Study about heat treatment on microstructure, electrical conductivity and mechanical properties of Al-1Si-0.6Mg-0.2Fe alloy.

Author

Liu, Houyun, Liu, Jie, Wang, Yan, Liu, Shiying, Wang, Jun, Wang, Yongxiao, Li, Xinghui, Li, Hui, Cui, Hongwei, Pan, Yaokun, Feng, Rui, and Cui, Xiaoli

Subjects

*HEAT treatment, *ELECTRIC conductivity, *TENSILE strength, *ELECTRON transport, *MICROSTRUCTURE

Abstract

In this study, the electrical conductivity (EC) and mechanical properties of extruded state Al-1Si-0.6Mg-0.2Fe alloy (ES-Alloy) are enhanced through T6 heat treatment, and the underlying mechanisms are analyzed in conjunction with model calculations. Results demonstrate that the optimal heat treatment process for the ES-Alloy is 550 °C / 2 h + 230 °C / 16 h. Through the heat treatment process, the alloy's EC and ultimate tensile strength are 57.0% IACS and 247.6 MPa, respectively, which are improved by 4.6% and 54.8%, respectively. For ES-Alloy, after heat treatment, owing to reversion and recrystallization, the average grain size of the alloy is 175.9 μm and becomes 6.93 times larger. Combined with theoretical calculation, the contribution of grain boundary strengthening to the alloy's strength is only reduced by 9.1 MPa. However, the reduction of grain boundary area reduces the scattering of free electrons during the transport process, which is beneficial to improving EC. Moreover, by modifying the heat treatment parameters, nanoscale Mg 2 Si and large-size AlFeSi second phases present in the alloy keep a favorable lattice match with the Al matrix, proving that this makes the main contribution to the alloy's strength. The microstructures give consideration for both the high efficiency of electron transport and the enhancement of mechanical properties. So, it is advantageous for the improvement of EC and mechanical properties. • 550 °C/2 h + 230 °C/16 h balances alloy's electrical conductivity and mechanical properties. • Second phase strengthening contributes more to alloy's strength than grain boundary. • High angle grain boundary and β" phase are useful to improve electrical conductivity. [ABSTRACT FROM AUTHOR]

Published

2024

41. Investigation on the relation of microstructures and CMAS corrosion resistance of high entropy RE disilicates.

Author

Xiao, Guozheng, Shen, Qiyu, Tian, Yue, Wang, Chao, Lu, Xuefeng, Li, Liuyuan, Liu, Shiying, Wu, Yusheng, and Wang, Zhanjie

Subjects

*CORROSION resistance, *ENTROPY, *MICROSTRUCTURE, *PRECIPITATION (Chemistry), *LOW temperatures, *YTTERBIUM, *BIOACTIVE glasses, *CERAMICS

Abstract

Three kinds of high entropy (Y 0.25 Sc 0.25 Er 0.25 Yb 0.25) 2 Si 2 O 7 , (Y 0.2 Sc 0.2 Er 0.2 Yb 0.2 Lu 0.2) 2 Si 2 O 7 and (Y 0.2 Sc 0.2 Er 0.2 Yb 0.2 Gd 0.2) 2 Si 2 O 7 were designed and synthesized in order to investigate the relation of microstructures and CMAS corrosion resistance. At low temperature of 1300 °C, lattice distortion played a crucial role in resistance to CMAS corrosion, and larger lattice distortion contributed to CMAS corrosion resistance. However, the corrosion behavior at 1500 °C was related to the equivalent ionic radius and RE species. The smaller equivalent ionic radius tended to promote the re-precipitation of high entropy RE disilicate in residual CMAS glass rather than apatite. The results will provide theoretical guidance for the microstructural design of high entropy RE disilicate and selection of RE elements in future. • High entropy ceramics were synthesized by solid state reaction method. • (Y 0.2 Sc 0.2 Er 0.2 Yb 0.2 Gd 0.2) 2 Si 2 O 7 ceramics had a maximum lattice distortion. • (Y 0.2 Sc 0.2 Er 0.2 Yb 0.2 Gd 0.2) 2 Si 2 O 7 presented a best CMAS corrosion resistance. [ABSTRACT FROM AUTHOR]

Published

2024

42. High-temperature resistance and self-lubricating TiAlTaCN nanocomposite hard coating by synergistic interaction of TiAlN(C) and TaN(C) phases.

Author

Li, Xianliang, Li, Guojian, Lü, Wenzhang, Liu, Shiying, Deng, Jiwu, and Wang, Qiang

Subjects

*PHASE transitions, *NANOCOMPOSITE materials, *ALUMINUM oxide, *SURFACE coatings, *MAGNETRON sputtering

Abstract

The self-lubricating TiAlTaCN coating with high-temperature resistance above 800 °C is developed using magnetron sputtering. This mechanism stems from the TaN phase is easily oxidized to form a protective Ta 2 O 5 that compensates for the insufficient antioxidant capacity of Al 2 O 3. Moreover, the TaC phase, being resistant to oxidation, contributes to achieving the self-lubrication effect with amorphous C-related phases. The cutting distance of the TiAlTaCN is 250% greater than that of the TiAlCN during the high-speed cutting of titanium alloy. These results reveal the oxidation mechanism of different carbon nitrides and provide a new solution for the self-lubricating coatings applied at high temperatures. • A new high-temperature resistant (800 °C) self-lubricating (COF=0.27) TiAlTaCN nanocomposite coating was prepared. • The Ta addition inhibits the phase transition and increases the high thermal stability from 600 °C to 1000 °C. • The wear rate of the TiAlTaCN is 38.7% lower than that of the TiAlCN at 600 °C. • The cutting distance of the TiAlTaCN is 250% higher than the TiAlCN during the high-speed cutting of titanium alloy. [ABSTRACT FROM AUTHOR]

Published

2024

43. BASELINE CARDIAC FUNCTION IN PREGNANT WOMEN WITH PREVIOUS CANCER TREATMENT.

Author

Carrillo-Estrada, Montserrat, Maxwell, Cynthia, Liu, Shiying, Thampinathan, Babitha, Nesbitt, Gillian, Silversides, Candice, and Thavendiranathan, Paaladinesh

Subjects

*PREGNANT women, *CANCER treatment, *CARDIAC patients

Published

2021

44. Multilayer-growth of TiAlN/WS self-lubricating composite coatings with high adhesion and their cutting performance on titanium alloy.

Author

Li, Guojian, Lü, Wenzhang, Liu, Shiying, Li, Chao, Zhou, Yaoyao, and Wang, Qiang

Subjects

*TITANIUM alloys, *ADHESIVE wear, *HIGH-speed machining, *WEAR resistance, *ADHESION, *MACHINING, *COMPOSITE coating

Abstract

Tool coatings with a high coefficient of friction (COF) form a built-up edge between the tool and the piece of work when cutting titanium alloy, creating a high cutting temperature, decreased tool life, and lowing the cutting quality. TiAlN/WS self-lubricating composite coatings with high adhesion were prepared via the multilayer growth of WS with low COF and TiAlN with high wear resistance. The TiAlN/WS coating had high adhesion (135.4 N), low COF (0.261), and unchanged hardness (14 GPa). The low COF and high wear resistance originated from the self-lubricating wear-resistance debris at the micron scale with TiAlN coated with amorphous WS. The coating reduced the adhesive wear. By comparing the machining results of the TiAlN/WS coating with those of the TiAlN coating, the flank wear was 45.9% lower for the same cutting length, the machining speed increased from 41 m/min to 100 m/min, the cutting length was over 200% higher at the same flank wear of 0.3, and the self-lubricating composite coating showed good results under dry cutting conditions. Therefore, this coating provides a method for use in high-speed and environmentally-friendly machines for difficult-to-cut materials. [ABSTRACT FROM AUTHOR]

Published

2021

45. Improved thermal properties and CMAS corrosion resistance of rare-earth monosilicates by adjusting the configuration entropy with RE-doping.

Author

He, Yuxuan, Xiao, Guozheng, Wang, Chao, Lu, Xuefeng, Li, Liuyuan, Liu, Shiying, Wu, Yusheng, and Wang, Zhanjie

Subjects

*CORROSION resistance, *THERMAL properties, *ENTROPY, *THERMAL conductivity, *THERMAL expansion, *TERBIUM, *RARE earth metal alloys

Abstract

The novel rare earth monosilicates (xRE 1/x) 2 SiO 5 (RE=Yb, Tm, Er, Y, Dy and Tb, x = 2–6) were prepared in order to establish the relationship between configurational entropy and lattice distortion, and the effect of configurational entropy on their properties was investigated. The results showed that the lattice distortion of (xRE 1/x) 2 SiO 5 increased gradually with the increase of configurational entropy, but the multi-principal component solid solution tended to form a highly symmetrical crystal structure when the configurational entropy was large enough, thus inhibiting the lattice distortion. (5RE 1/5) 2 SiO 5 had a maximum lattice distortion, which leaded to a relatively low thermal conductivity and coefficient of thermal expansion, and good CMAS corrosion resistance. • The effect of configurational entropy on microstructure and properties was investigated. • (5RE 0.2) 2 SiO 5 ceramic had a maximum lattice distortion. • (5RE 0.2) 2 SiO 5 ceramic presented the relatively good thermal properties and CMAS corrosion resistance. [ABSTRACT FROM AUTHOR]

Published

2024

46. Coumarin-encapsulated MOF luminescence sensor for detection of picric acid in water environment.

Author

Jiang, Bo, Liu, Wei, Liu, Shiying, and Liu, Weisheng

Subjects

*PICRIC acid, *COUMARINS, *DRINKING water, *NITRO compounds, *LUMINESCENCE, *FLUORESCENCE quenching, *DEIONIZATION of water

Abstract

Here, a luminescence metal-organic frame sensor has been reported that can effectively detect aromatic nitro compounds in water. Based on the mechanism of fluorescence quenching, this sensor can not only efficiently identify picric acid in deionized water environment, but also quantitatively detect picric acid in the range of 0–100 μM. More importantly, this metal-organic frame sensor is suitable for the detection of picric acid in natural water. Image 1 • The MOF has good stability in water. • The MOF can efficiently detect picric acid in water. • The MOF can be applied in tap water and river water. [ABSTRACT FROM AUTHOR]

Published

2021

47. Enhancement of magnetic properties by adjusted structure in Fe nanocrystalline films via annealing and applying high magnetic field at different film-formation stages.

Author

Du, Jiaojiao, Li, Guojian, Liu, Shiying, Liu, Tie, Wu, Chun, and Wang, Qiang

Subjects

*MAGNETIC properties, *MAGNETIC fields, *MAGNETIC films, *SURFACE roughness, *ANNEALING of metals, *GRAIN size

Abstract

• Annealing and high magnetic fields (HMFs) adjusted growth structure of Fe films. • Different-stage HMFs and annealing suppressed strain and roughness of Fe films. • 10% larger M s than Fe bulk was obtained by combined film-growth HMF and annealing. • HMF and annealing decreased coercivity but increased remanence ratio of Fe films. • Film-growth HMF and annealing effectively adjust structure and improve properties. To improve the magnetic properties of films applied in spintronic devices, this article explored the microstructure and magnetic properties of Fe nanocrystalline films via annealing and applying high magnetic field (HMF) during different film-formation stages. The results indicate that both annealing and HMF inhibited the sloping and overlapping of the columnar grains in the as-deposited film. Annealing promoted the formation of nanoparticles, while annealing with HMF arrayed the columnar grains along the direction of HMF. A chain arrangement with mixture columnar grains and nanoparticles was observed by combined film-growth HMF and annealing. Different-stage HMFs and annealing improved the particle size but suppressed the stain and surface roughness of the Fe films. The film-growth HMF and annealing both enhanced the saturation magnetization (M s) of the Fe films. Especially, combined film-growth HMF and annealing obtained 10% larger M s than Fe bulk. The low disordered structure, average grain size and grain shape anisotropy under film-growth HMF and annealing remarkably decreased the coercivity (by 91%) but increased the remanence ratio (by 67%) of films. However, annealing with HMF did not obviously improve the magnetic properties of Fe films. These indicated that film-growth HMF and annealing provide useful ways to adjust structure and enhance properties. [ABSTRACT FROM AUTHOR]

Published

2020

48. Transvalvular Flow Rate Determines Prognostic Value of Aortic Valve Area in Aortic Stenosis.

Author

Namasivayam, Mayooran, He, Wei, Churchill, Timothy W, Capoulade, Romain, Liu, Shiying, Lee, Hang, Danik, Jacqueline S, Picard, Michael H, Pibarot, Philippe, Levine, Robert A, and Hung, Judy

Subjects

*RESEARCH, *RESEARCH methodology, *AORTIC stenosis, *PROGNOSIS, *EVALUATION research, *MEDICAL cooperation, *DOPPLER echocardiography, *SEX distribution, *COMPARATIVE studies, *PROSTHETIC heart valves, *RESEARCH funding, *STROKE volume (Cardiac output), *HEMODYNAMICS, *AORTIC valve, *ALGORITHMS, *LONGITUDINAL method, AORTIC valve surgery

Abstract

Background: Aortic valve area (AVA) ≤1.0 cm2 is a defining characteristic of severe aortic stenosis (AS). AVA can be underestimated at low transvalvular flow rate. Yet, the impact of flow rate on prognostic value of AVA ≤1.0 cm2 is unknown and is not incorporated into AS assessment.Objectives: This study aimed to evaluate the effect of flow rate on prognostic value of AVA in AS.Methods: In total, 1,131 patients with moderate or severe AS and complete clinical follow-up were included as part of a longitudinal database. The effect of flow rate (ratio of stroke volume to ejection time) on prognostic value of AVA ≤1.0 cm2 for time to death was evaluated, adjusting for confounders. Sensitivity analysis was performed to identify the optimal cutoff for prognostic threshold of AVA. The findings were validated in a separate external longitudinal cohort of 939 patients.Results: Flow rate had a significant effect on prognostic value of AVA. AVA ≤1.0 cm2 was not prognostic for mortality (p = 0.15) if AVA was measured at flow rates below median (≤242 ml/s). In contrast, AVA ≤1.0 cm2 was highly prognostic for mortality (p = 0.003) if AVA was measured at flow rates above median (>242 ml/s). Findings were irrespective of multivariable adjustment for age, sex, and surgical/transcatheter aortic valve replacement (as time-dependent covariates); comorbidities; medications; and echocardiographic features. AVA ≤1.0 cm2 was also not an independent predictor of mortality below median flow rate in the validation cohort. The optimal flow rate cutoff for prognostic threshold was 210 ml/s.Conclusions: Transvalvular flow rate determines prognostic value of AVA in AS. AVA measured at low flow rate is not a good prognostic marker and therefore not a good diagnostic marker for truly severe AS. Flow rate assessment should be incorporated into clinical diagnosis, classification, and prognosis of AS. [ABSTRACT FROM AUTHOR]

Published

2020

49. Global Longitudinal Strain and Cardiac Events in Patients With Immune Checkpoint Inhibitor-Related Myocarditis.

Author

Awadalla, Magid, Mahmood, Syed S., Groarke, John D., Hassan, Malek Z.O., Nohria, Anju, Rokicki, Adam, Murphy, Sean P., Mercaldo, Nathaniel D., Zhang, Lili, Zlotoff, Daniel A., Reynolds, Kerry L., Alvi, Raza M., Banerji, Dahlia, Liu, Shiying, Heinzerling, Lucie M., Jones-O'Connor, Maeve, Bakar, Rula B., Cohen, Justine V., Kirchberger, Michael C., and Sullivan, Ryan J.

Subjects

*MYOCARDITIS, *CARDIAC patients, *CONFIDENCE intervals, *HEART block, *CARDIOGENIC shock, *ECHOCARDIOGRAPHY, *RESEARCH, *CARDIOMYOPATHIES, *MELANOMA, *RESEARCH methodology, *ANTINEOPLASTIC agents, *RETROSPECTIVE studies, *LUNG tumors, *EVALUATION research, *MEDICAL cooperation, *COMPARATIVE studies, *RESEARCH funding, *DISEASE complications

Abstract

Background: There is a need for improved methods for detection and risk stratification of myocarditis associated with immune checkpoint inhibitors (ICIs). Global longitudinal strain (GLS) is a sensitive marker of cardiac toxicity among patients receiving standard chemotherapy. There are no data on the use of GLS in ICI myocarditis.Objectives: This study sought to evaluate the role of GLS and assess its association with cardiac events among patients with ICI myocarditis.Methods: This study retrospectively compared echocardiographic GLS by speckle tracking at presentation with ICI myocarditis (cases, n = 101) to that from patients receiving an ICI who did not develop myocarditis (control subjects, n = 92). Where available, GLS was also measured pre-ICI in both groups. Major adverse cardiac events (MACE) were defined as a composite of cardiogenic shock, arrest, complete heart block, and cardiac death.Results: Cases and control subjects were similar in age, sex, and cancer type. At presentation with myocarditis, 61 cases (60%) had a normal ejection fraction (EF). Pre-ICI, GLS was similar between cases and control subjects (20.3 ± 2.6% vs. 20.6 ± 2.0%; p = 0.60). There was no change in GLS among control subjects on an ICI without myocarditis (pre-ICI vs. on ICI, 20.6 ± 2.0% vs. 20.5 ± 1.9%; p = 0.41); in contrast, among cases, GLS decreased to 14.1 ± 2.8% (p < 0.001). The GLS at presentation with myocarditis was lower among cases presenting with either a reduced (12.3 ± 2.7%) or preserved EF (15.3 ± 2.0%; p < 0.001). Over a median follow-up of 162 days, 51 (51%) experienced MACE. The risk of MACE was higher with a lower GLS among patients with either a reduced or preserved EF. After adjustment for EF, each percent reduction in GLS was associated with a 1.5-fold increase in MACE among patients with a reduced EF (hazard ratio: 1.5; 95% confidence interval: 1.2 to 1.8) and a 4.4-fold increase with a preserved EF (hazard ratio: 4.4; 95% confidence interval: 2.4 to 7.8).Conclusions: GLS decreases with ICI myocarditis and, compared with control subjects, was lower among cases presenting with either a preserved or reduced EF. Lower GLS was strongly associated with MACE in ICI myocarditis presenting with either a preserved or reduced EF. [ABSTRACT FROM AUTHOR]

Published

2020

50. High temperature fatigue and oxidation characteristics of forged steel piston materials.

Author

Niu, Dexue, Zhang, Jian, Xiong, Peiyou, Hao, Guannan, Liu, Shiying, and Guo, Wei

Subjects

*STEEL fatigue, *FATIGUE cracks, *FORGING, *CHROME-manganese steel, *OXIDATION, *PISTONS, *HIGH temperatures

Abstract

Abstract In order to study the fatigue characteristics and oxidation characteristics of 38MnVS6 and 42CrMo4, two kinds of forging steel piston materials, under high temperature and high load conditions, the temperature field, fatigue safety coefficient and distribution of surface oxygen layer were compared and analyzed by means of material characteristics detection, calculation of finite element numerical simulation and bench test and so on. Results showed that forging fiber lines of both two kinds of forged steel pistons could meet the process requirements. However, as for the basic characteristic values, the 42CrMo4 piston was better than the 38MnVS6 piston, increasing by 10% approximately on performance values. Besides, the maximum of temperature of the two pistons both appeared around the corner on the top of combustion chamber, and the temperature of the 38MnVS6 piston was even higher. After combining the basic characteristic, the average fatigue safety coefficient of the 42CrMo4 piston in the combustion chamber and the cooling gallery was more important than that of the 38MnVS6 piston, increasing by 3.6–7%. In addition, under the action of high temperature and pressure, obvious surface oxidation was produced on the top of the pistons. Meanwhile, a certain carbon deposit was also formed on the top of cooling galleries. In general, due to the difference of temperature distribution and thermal conductivity, the oxidation and carbon deposition phenomenon of the 42CrMo4 piston was significantly weaker than that of the 38MnVS6 piston the maximum optimization value of which even reached 90%. Highlights • Real engine test was employed to estimate the fatigue characteristics and oxidation characteristics of steel piston material. • The average fatigue safety coefficient of the 42CrMo4 piston was higher. • The oxidation and carbon deposition phenomenon of the 42CrMo4 piston was lighter. [ABSTRACT FROM AUTHOR]

Published

2019