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5. Preparation of super-hydrophobic cotton fabrics with conductive property based on graphene/Ag composite aerogels

Author

Yangchun Liu, Lihui Xu, Hong Pan, Liming Wang, Yong Shen, and Wei Xu

Subjects
Mechanics of Materials, Mechanical Engineering, General Materials Science
Abstract

In this work, graphene/Ag (GA/Ag) composite aerogels with the micro rough porous structure and conductive property and polydimethylsiloxane(PDMS) with the low surface energy were used to prepare super-hydrophobic cotton fabric (GA/Ag/PDMS@cotton) with conductive property was successfully prepared. The surface morphologies, chemical composition, wettability, conductive property and microwave absorption property of GA/Ag/PDMS@cotton fabric were characterized. It was shown that GA/Ag and PDMS were successfully coated onto the surface of cotton fabrics. The water contact angle of GA/Ag/PDMS@cotton was 157°. And it could make the luminous diode shining continuously. The treated cotton fabrics exhibited excellent super-hydrophobic and conductive properties. The minimum reflection loss of GA/Ag/PDMS@cotton fabric was − 28dB, and it had a larger effective absorption bandwidth. In addition, the treated cotton fabric also showed excellent anti-fouling and self-cleaning properties. The GA/Ag/PDMS@cotton fabric cannot be wetted and polluted by water, fruit juice, milk and black tea. And it also had excellent laundering durability, acid and alkali corrosion and storage stability.

Published
2022

6. Shape-stabilized phase change material with high phase change enthalpy made of PEG compounded with lignin-based carbon

Author

Tianyang, Li, Hong, Pan, Lihui, Xu, Kai, Ni, Yong, Shen, and Keting, Li

Subjects
Structural Biology, Thermodynamics, Thermal Conductivity, General Medicine, Lignin, Molecular Biology, Biochemistry, Carbon, Polyethylene Glycols
Abstract

Lignin-based porous carbon (LTC), lignin-based hierarchical porous carbon (LTCA) and lignin-based ordered porous carbon (MC) with different pore structures were prepared by template method and chemical activation method using lignin as raw material. The lignin-based carbon composite phase change materials were prepared by vacuum impregnation with polyethylene glycol (PEG) and porous carbon material. The results showed that LTCA has the largest loading capacity of Phase change Materials, which could load 85% of PEG; MC has the largest phase transition enthalpy value (ΔH

Published
2022

9. Transurethral resection of bladder tumor-based bladder preservation therapy for refractory high risk non-muscle invasive bladder cancer: Current landscape and future directions

Author

Xinghui Sun, Tianzeng Dai, and Lihui Xu

Subjects
Surgery
Abstract

Bladder cancer is the most common malignant tumor of urinary system worldwide. Approximately 75% of patients with bladder cancer present with non-muscle-invasive bladder cancer (NMIBC), which is effectively managed with transurethral resection of bladder tumor (TURBT). For refractory high risk NMIBC, patients are typically treated by radical cystectomy (RC). TURBT deserves further evaluation. Growing evidence suggests that repeated TURBT-based bladder-sparing approaches may improve oncological outcomes and quality of life in highly selected patients. Novel imaging techniques and biomarkers may aid in patients selection and postoperative surveillance. With growing interest in adding immunotherapy to refractory bladder cancer, TURBT based approaches enable the bladder preservation therapy for high risk NMIBC. Here we summarize the current landscape, biomarkers for surveillance, and future directions for applying TURBT-based bladder preservation therapy.

Published
2023

10. Supplementary Materials and Methods from MM-141, an IGF-IR– and ErbB3-Directed Bispecific Antibody, Overcomes Network Adaptations That Limit Activity of IGF-IR Inhibitors

Author

Alexey A. Lugovskoy, Ulrik B. Nielsen, Birgit Schoeberl, Kenneth J. Olivier, Brian D. Harms, Yang Jiao, Maja Razlog, Rachel Rennard, Neeraj Kohli, Lihui Xu, Victoria Rimkunas, Jian Tang, Sergio Iadevaia, Sharlene Adams, Jason Baum, Bryan W. Johnson, and Jonathan B. Fitzgerald

Abstract

PDF - 111K, Additional details on the implementation and training of the mechanistic model.

Published
2023

11. Data from MM-141, an IGF-IR– and ErbB3-Directed Bispecific Antibody, Overcomes Network Adaptations That Limit Activity of IGF-IR Inhibitors

Author

Alexey A. Lugovskoy, Ulrik B. Nielsen, Birgit Schoeberl, Kenneth J. Olivier, Brian D. Harms, Yang Jiao, Maja Razlog, Rachel Rennard, Neeraj Kohli, Lihui Xu, Victoria Rimkunas, Jian Tang, Sergio Iadevaia, Sharlene Adams, Jason Baum, Bryan W. Johnson, and Jonathan B. Fitzgerald

Abstract

Although inhibition of the insulin-like growth factor (IGF) signaling pathway was expected to eliminate a key resistance mechanism for EGF receptor (EGFR)-driven cancers, the effectiveness of IGF-I receptor (IGF-IR) inhibitors in clinical trials has been limited. A multiplicity of survival mechanisms are available to cancer cells. Both IGF-IR and the ErbB3 receptor activate the PI3K/AKT/mTOR axis, but ErbB3 has only recently been pursued as a therapeutic target. We show that coactivation of the ErbB3 pathway is prevalent in a majority of cell lines responsive to IGF ligands and antagonizes IGF-IR–mediated growth inhibition. Blockade of the redundant IGF-IR and ErbB3 survival pathways and downstream resistance mechanisms was achieved with MM-141, a tetravalent bispecific antibody antagonist of IGF-IR and ErbB3. MM-141 potency was superior to monospecific and combination antibody therapies and was insensitive to variation in the ratio of IGF-IR and ErbB3 receptors. MM-141 enhanced the biologic impact of receptor inhibition in vivo as a monotherapy and in combination with the mTOR inhibitor everolimus, gemcitabine, or docetaxel, through blockade of IGF-IR and ErbB3 signaling and prevention of PI3K/AKT/mTOR network adaptation. Mol Cancer Ther; 13(2); 410–25. ©2013 AACR.

Published
2023

12. Supplementary Figures 1 through 10 and Supplementary Tables 1 through 3 from MM-141, an IGF-IR– and ErbB3-Directed Bispecific Antibody, Overcomes Network Adaptations That Limit Activity of IGF-IR Inhibitors

Author

Alexey A. Lugovskoy, Ulrik B. Nielsen, Birgit Schoeberl, Kenneth J. Olivier, Brian D. Harms, Yang Jiao, Maja Razlog, Rachel Rennard, Neeraj Kohli, Lihui Xu, Victoria Rimkunas, Jian Tang, Sergio Iadevaia, Sharlene Adams, Jason Baum, Bryan W. Johnson, and Jonathan B. Fitzgerald

Abstract

PDF - 711K, Supplemental Figure S1. Schematic representation of components of IGF-1R/ErbB3 merged mechanistic signaling model. Supplemental Table S1. Mean ligand-stimulated pAKT (S473) levels (A) or simulated levels (B) in BxPC-3, AdRr and MCF7 cells that were used to generate 3D contour plots in Figure 1A. Supplemental Figure S2. Western blots used to generate bar graphs in Figures 1, 3, & 4. Supplemental Figure S3. MM-141 is selective for IGF-1R and ErbB3, and is cross-reactive to relevant toxicology species. Supplemental Table S2. MM-141 is more potent than monospecific antibodies at inhibition of single ligand-induced pAKT (Ser473) signaling. Supplemental Figure S4. MM-141 does not promote basal signaling. Supplemental Figure S5. Generation of isogenic BxPC-3 cell lines with stable knockdown of IGF-1R or ErbB3. Supplemental Table S3. Mean pAKT (S473) levels in engineered BxPC-3 cells that were used to generate 3D contour plots in Figure 3A. Supplemental Figure S6. MM-141 maintains activity over a broad range of receptor profiles. Supplemental Figure S7. Mechanistic model can recapitulate signal inhibition properties of MM-141. Supplemental Figure S8. Pharmacokinetic properties of MM-141. Supplemental Figure S9. MM-141 controls gemcitabine-induced network adaptation. Supplemental Figure S10. MM-141 controls expression of IGF-1R and ErbB3-interacting RTKs.

Published
2023

13. Supplementary Figure Legends from MM-141, an IGF-IR– and ErbB3-Directed Bispecific Antibody, Overcomes Network Adaptations That Limit Activity of IGF-IR Inhibitors

Author

Alexey A. Lugovskoy, Ulrik B. Nielsen, Birgit Schoeberl, Kenneth J. Olivier, Brian D. Harms, Yang Jiao, Maja Razlog, Rachel Rennard, Neeraj Kohli, Lihui Xu, Victoria Rimkunas, Jian Tang, Sergio Iadevaia, Sharlene Adams, Jason Baum, Bryan W. Johnson, and Jonathan B. Fitzgerald

Abstract

PDF - 91K, Supplementary Figure Legends.

Published
2023

14. Occurrence of Tomato Leaf Curl New Delhi Virus in Cucurbit Plants in China

Author

Rong Zeng, Haifeng Gu, Jinghua Fan, Pu Zhu, Lihui Xu, Shi-gang Gao, Ping Gao, Zhiwei Song, Kaiyue Zhang, Chunzhi Zhang, and Fuming Dai

Subjects
Plant Science, Agronomy and Crop Science
Abstract

In August 2022, melon (Cucumis melo), cucumber (Cucumis sativus) and luffa (Luffa aegyptiaca) plants showed virus-like symptoms characteristic of geminiviruses (yellowish green, mosaic patterns and severe curling of leaves, short internodes, and stunting) in 10 greenhouses in Fengxian district and 20 greenhoues in Jiading district of Shanghai, China. Fifty symptomatic leaf samples were randomly collected: 28 from melon, 17 from cucumber, and 5 from luffa. To investigate the etiology of the observed disease, total DNA and RNA was extracted via a DNA extraction kit (Tiangen, Not: DP350) and TRIzol reagent (Sigma-Aldrich, Not: T9424), respectively. Healthy melon plants grown in a growth chamber served as negative control. The DNA and RNA samples were screened for the presence of geminiviruses, Cucurbit chlorotic yellow virus (CCYV), Melon yellow spot virus (MYSV), Cucumber mosaic virus (CMV), Zucchini yellow mosaic virus (ZYMV) and Cucumber green mottle mosaic virus (CGMMV) through PCR or RT‒PCR with geminiviruses (Deng et al. 1994), CCYV, MYSV, CMV, ZYMV and CGMMV (Zeng et al. 2011, 2019) primers. The PCR results showed that 28 melon leaves and 17 cucumber leaves were positive for geminivirus and CCYV, respectively, 5 luffa samples were infected with only geminivirus, and virus was not detected from the healthy plants. These results indicate that these two viruses are widely distributed throughout cucurbit crops in Shanghai, China. All the geminiviruses sequences (approximately 510 bp) were quite similar to each other and were most similar (99.4%) to the Tomato leaf curl New Delhi virus (ToLCNDV) sequence (GenBank Accession No. OP356207) (Li et al. 2022). To confirm the presence of geminiviruses, the segments of DNA-A and DNA-B were amplified by PCR with 4 ToLCNDV-specific primer sets (Mizutani et al. 2011) and sequenced from 10 samples (4 melon, 4 cucumber and 2 luffa). Both DNA-A and DNA-B of the ToLCNDV sequences and features were deposited in GenBank under the accession numbers OQ190939-OQ190948 (DNA-A, 2739 nt) and OQ190949-OQ190958 (DNA-B, 2693 nt). BLASTn analysis of Shanghai isolates of ToLCNDV (DNA-A and DNA-B) showed that the sequences shared nucleotide identities ranged from 99.3% to 100% among them and with values of more than 99.4% nucleotide identity with ToLCNDV isolates from tomato in China (OP356207 and OP356208) (Li et al. 2022). To confirm the virus infection, we have successfully constructed an infectious clone for 0823-1 isolate in the binary plasmid and inoculated melon with and without an infectious clone. The melon plants inoculated with ToLCNDV 15 dpi showed the high accumulation of the virus and displayed symptoms similar to viruses in greenhouse. Based on the complete sequences, results of the molecular phylogenetic analysis (Fig. 2) and infectious clone, these geminiviruses were identified as ToLCNDV. ToLCNDV has been reported to occur and spread by the whitefly (Bemisia tabaci) in many Asian countries (Sohrab et al. 2003; Sohrab et al. 2011; Aamir et al. 2020) and Europe (Juárez et al. 2014; Ruiz et al. 2015; Luigi et al. 2019). Large populations of whiteflies were also present in all our surveyed areas. However, to our knowledge, this is the first report of the occurrence of ToLCNDV in cucurbit plants in China. The presence of ToLCNDV and CCYV can cause severe losses in crop yields or even crop failure. In addition to TYLCV, ToLCNDV is another major geminivirus-induced disease threatening cucurbit and other vegetable production in China.

Published
2023

15. Comparison of triplanar Chevron osteotomy with Chevron osteotomy in the treatment of hallux valgus for preventing transfer metatarsalgia

Author

Jianming Cao, Jialiang Guo, Lihui Xu, Yulong Ni, Chao Niu, Liang Jin, and Fengqi Zhang

Abstract

Background: Hallux valgus (HV) is often accompanied by metatarsalgia. The purpose of this study was to compare the radiological and clinical outcomes of the new triplanar Chevron osteotomy (TCO) and Chevron osteotomy (CO) in the treatment of hallux valgus (HV), especially on plantar callosities and metatarsalgia. Methods: In this retrospective analysis, 90 patients (45 patients per group) with mild to moderate HV and plantar callosities were treated with TCO and CO from July 2020 to January 2022. In both procedures, the apex was located in the centre of the head of the first metatarsal bone, and the CO was oriented towards the fourth MTPJ at a 60° angle. Plantar-oblique Chevron osteotomy (POCO) was defined as Chevron osteotomy and a 20° plantar tilt; TCO was defined as POCO-based metatarsal osteotomy with a 10° tilt towards the metatarsal head. Primary outcome measures included X-ray measurements of the preoperative and postoperative HVA, IMA, DMAA, FML, SMHH and clinical measurements including VAS and AOFAS scores and changes in callosity grade and area and in the number of people with metatarsalgia. Secondary outcomes included complications, recurrence rates, and cosmetic appearance. Results: The HVA, IMA, and DMAA measurements were significantly decreased after surgery (P Conclusions: TCO prevents dorsal shift of the metatarsal head and preserves and even increases the FML, thereby preventing future metatarsalgia in patients. Therefore, compared with CO, TCO has better orthopaedic outcomes and is an effective method for treating mild to moderate HV and preventing transfer metatarsalgia.

Published
2023

16. Robust ZnO/HNTs-based superhydrophobic cotton fabrics with UV shielding, self-cleaning, photocatalysis, and oil/water separation

Author

Jun Li, Lihui Xu, Shen Yong, Liming Wang, Tianyang Li, Wei xu, Hong Pan, Yangchun Liu, and Keting Li

Subjects
Materials science, Chemical engineering, Polymers and Plastics, Self cleaning, Electromagnetic shielding, Photocatalysis, Oil water
Abstract

In this work, robust superhydrophobic cotton fabrics with UV shielding, self-cleaning, photocatalysis, and oil/water separation were successfully prepared based on micro/nano hierarchical ZnO/HNTs (halloysite nanotubes) hybrid particles and silicone elastomer polydimethylsiloxane (PDMS). ZnO/HNTs hybrid particles were prepared by in-situ growth of ZnO nanoparticles on the surface of halloysite nanotubes (HNTs). ZnO/HNTs hybrid particles and PDMS were used to successively coat cotton fabric by dip-coating approach. The coated cotton fabric displayed excellent superhydrophobicity with a water contact angle of 162.5 ± 1° and photocatalytic degradation of methylene blue solution under UV irradiation owing to the roughness and photocatalytic performance provided by micro/nano hierarchical ZnO/HNTs hybrid particles and low surface energy achieved by PDMS. The as-prepared fabric also displayed outstanding self-cleaning and antifouling properties. In addition, due to its both superhydrophobic and superoleophilic characteristics, the as-prepared cotton fabric can be used to separate several oil/water mixtures and showed good recoverability. The superhydrophobic cotton fabric also exhibited excellent UV shielding performance with a large UV protection factor of 1643.28 due to strong ultraviolet-absorption, light scattering and frequent light reflection of ZnO nanoparticles in ZnO/HNTs composites coated on cotton fabric. Importantly, the as-prepared fabric retained superhydrophobic performance after 2000 cycles rubbing, 90h UV illumination, and immersing in acidic and alkali solutions with different pH values ranging from 1 to 14 for 1 h. These characteristics make multifunctional cotton fabrics a satisfactory candidate in various promising fields.

Published
2022

17. Baseline sensitivity of Rhizoctonia solani to four DMI fungicides

Author

Shigang Gao, Lihui Xu, Rong Zeng, Ping Gao, Zhiwei Song, and Fuming Dai

Subjects
China, Oryza, General Medicine, Applied Microbiology and Biotechnology, Fungicides, Industrial, Plant Diseases, Rhizoctonia
Abstract

A set of 78 Rhizoctonia solani isolates from Shanghai, China, were examined for their sensitivity in vitro to four demethylase inhibitor (DMI) fungicides, epoxiconazole, difenoconazole, hexaconazole, and tebuconazole, by the mycelial growth rate method. The isolates were very sensitive to the four DMI fungicides. The ranges and means of the EC

Published
2022

21. Resistance profiles of Botrytis cinerea to fluxapyroxad from strawberry fields in Shanghai, China

Author

Ping Gao, Rong Zeng, Shigang Gao, Lihui Xu, Zhiwei Song, and Fuming Dai

Subjects
Plant Science, Agronomy and Crop Science
Abstract

Fluxapyroxad, a type of succinate dehydrogenase inhibitor (SDHI) fungicide, has been used to control the growth of gray mold on strawberries for more than five years in China. Selection for resistance to the causal agent Botrytis cinerea has became a threat to the efficacy of fluxapyroxad. A total of 160 B. cinerea isolates collected from Shanghai during 2020 and 2021 were tested for their resistance to fluxapyroxad using mycelial growth inhibition. The results indicated that the curve of baseline sensitivity was unimodal with an approximately normal distribution and a mean EC50 value of 0.18±0.01 µg/ml. A total of 27.78% and 48.57% of isolates were resistant to fluxapyroxad in 2020 and 2021, respectively, where the lowest EC50 value of mycelial growth inhibition was 0.03 µg/mL, and the highest value was 51.3 µg/mL. Resistance mechanism analysis showed that the succinate dehydrogenase subunit B (SdhB) N230I mutation could lead to resistance and P225F mutation could lead to higher resistance. This data suggests that the increase in the frequency of B. cinerea isolate resistance to fluxapyroxad in 2021 compared with 2020, which requires appropriate fungicide rotation strategies to be implemented in order to control gray mold on strawberry in the future.

Published
2023

22. Template-directed growth of Ag nanostructures: soft templates

Author

Juan, Xu, Xingzhong, Zhu, Lihui, Xu, Caixia, Kan, and Daning, Shi

Abstract

Hard template-directed growth methods present a compelling route for the synthesis of Ag nanostructures with precise size control. Meanwhile, soft template methods are effective and flexible for the synthesis of Ag nanostructures with various morphologies. However, the role of the soft template is ambiguous and obviously neglected in hard template-directed growth processes due to the strong confinement effect of the hard template, limiting the diversity of Ag nanostructures that can be obtained. Herein, we design Au nanoframes with deformable head structures as a hard template while using cetyltrimethylammonium chloride as a soft template, to direct the growth of Ag atoms on Au nanobipyramid seeds. When using the Au nanoframes with a closed head, the longitudinal growth of the Ag atoms is clearly limited by the hard template, leading to the formation of thick Ag nanorods with a five-fold twinned structure. The soft template starts to influence the growth process when the head structure of the Au nanoframes becomes hollow. In particular, the confinement effect of the hard template can be completely broken by selectively strengthening the role of the soft template, promoting the production of slender Ag nanorods similar to the results obtained in the absence of the hard template. Our results indicate that the morphology of the Ag nanostructures depends on the competition between the qualitatively confined energies of the hard and soft templates during the template-directed growth process. Moreover, this confined growth mechanism is also verified by the successful construction of various Ag nanostructures. The understanding of the collaborative competition mechanism between the soft and hard templates presents a great opportunity to construct novel Ag nanostructures through a template-directed method.

Published
2023

23. Induction of multiple subroutines of regulated necrosis in murine macrophages by natural BH3-mimetic gossypol

Author

Meiyan Zhong, Yuanting Huang, Bo Zeng, Lihui Xu, Chunsu Zhong, Jiahao Qiu, Xunjia Ye, Mingye Chen, Bo Hu, Dongyun Ouyang, and Xianhui He

Subjects
Mice, Inbred C57BL, Mice, Necrosis, Inflammasomes, Macrophages, Caspase 1, NLR Family, Pyrin Domain-Containing 3 Protein, Gossypol, Biophysics, Animals, Apoptosis, General Medicine, Biochemistry
Abstract

Macrophages are critical sentinel cells armed with multiple regulated necrosis pathways, including pyroptosis, apoptosis followed by secondary necrosis, and necroptosis, and are poised to undergo distinct form(s) of necrosis for tackling dangers of pathogenic infection or toxic exposure. The natural BH3-mimetic gossypol is a toxic phytochemical that can induce apoptosis and/or pyroptotic-like cell death, but what exact forms of regulated necrosis are induced remains largely unknown. Here we demonstrated that gossypol induces pyroptotic-like cell death in both unprimed and lipopolysaccharide-primed mouse bone marrow-derived macrophages (BMDMs), as evidenced by membrane swelling and ballooning accompanied by propidium iodide incorporation and lactic acid dehydrogenase release. Notably, gossypol simultaneously induces the activation of both pyroptotic and apoptotic (followed by secondary necrosis) pathways but only weakly activates the necroptosis pathway. Unexpectedly, gossypol-induced necrosis is independent of nucleotide-binding oligomerization domain-like receptor family pyrin domain containing 3 (NLRP3) inflammasome, as neither inhibitor for the NLRP3 pathway nor NLRP3 deficiency protects the macrophages from the necrosis. Furthermore, necrotic inhibitors or even pan-caspase inhibitor alone does not or only partly inhibit such necrosis. Instead, a combination of inhibitors composed of pan-caspase inhibitor IDN-6556, RIPK3 inhibitor GSK'872 and NADPH oxidase inhibitor GKT137831 not only markedly inhibits the necrosis, with all apoptotic and pyroptotic pathways being blocked, but also attenuates gossypol-induced peritonitis in mice. Lastly, the activation of the NLRP3 pathway and apoptotic caspase-3 appears to be independent of each other. Collectively, gossypol simultaneously induces the activation of multiple subroutines of regulated necrosis in macrophages depending on both apoptotic and inflammatory caspases.

Published
2021

24. Preparation and Application of Ag-In/ZnO Nanorods

Author

Mingrui Xie, Liming Wang, Lihui Xu, and Yong Shen

Subjects
Polymers and Plastics, Process Chemistry and Technology, Materials Chemistry
Abstract

In this paper, one-dimensional rod-shaped nano zinc oxide (ZnO) and Ag-In co-doped ZnO complexes with different doping ratios were prepared by hydrothermal method with C6H12N4, Zn(NO3)2·6(H2O), AgNO3, and In(NO3)3 as raw materials. The samples were characterized by X-ray diffractometry (XRD), scanning electron microscopy (SEM), and ultraviolet protection factor (UPF). The results showed that the degradation rate of methylene blue (MB) in aqueous solution reached 90.17% after being dispersed with 10%Ag-4%In/ZnO and exposed to ultraviolet light for 120 min., furthermore, MB was almost completely degraded after 180 min. of UV irradiation, thus the ZnO sample was provided with splendid photocatalysis activity. After 10% Ag-4%In/ZnO processing on modified polyester fabric, UPF of the treated Dacron was 50+ in accordance with the standard GB/T18830-2009 and considered to possess excellent UV resistance.

Published
2021

26. Study on Combustion Characteristics of Diesel/Natural Gas/Hydrogen RCCI Engine

Author

Wenjin Qin, Lihui Xu, and Qiang Cheng

Subjects
Fuel Technology, Nuclear Energy and Engineering, Mechanical Engineering, Energy Engineering and Power Technology, Aerospace Engineering
Abstract

With the increasing environmental and energy problems, the development of new combustion technology has become a hot topic in the research of internal combustion engine. Reactivity controlled compression ignition (RCCI) combustion mode is the most promising combustion mode at present, which can solve the problems of combustion ignition controllability, and expand the engine load range. In this paper, optical diagnostics and numerical simulation are used to study the diesel/natural gas/hydrogen tri-fuel RCCI engine performance. Results show that hydrogen can significantly improve in-cylinder combustion and emission characteristics. With the increase of hydrogen addition, the combustion efficiency is increased accordingly, and the afterburning is prevented, which makes the exhaust energy loss decrease.

Published
2022

27. Preparation and Photocatalytic Performance of Hollow Spherical TiO2/Cu2O Composites

Author

Fengqiang Liu, Liming Wang, Lihui Xu, Hong Pan, and Ding Fan

Subjects
General Materials Science, Condensed Matter Physics
Abstract

The anatase phase titanium dioxide sols were prepared by hydrothermal method using titanium sulfate as the titanium source. Copper acetate monohydrate was used as the copper source, cubic phase Cu2O with matched bandgap TiO2 was introduced to synthesize hollow spherical nano-TiO2/Cu2O composites by precipitation method. The powder samples were characterized by X-ray diffraction (XRD) analysis, scanning electron microscopy (SEM), transmission electron microscopy (TEM), specific surface area testing (BET), X-ray electron spectroscopy (XPS) and ultraviolet and visible spectrophotometry (UV–Vis) diffuse reflectance spectroscopy analysis using methyl orange (MO) solution as indicator. The results showed that the introduction of Cu2O did not affect the physical phase of TiO2. Titanium dioxide was a shuttle-shaped nanorod with an average particle size less than 20[Formula: see text]nm, Cu2O was a sphere with an average particle size greater than 400 nm. TiO2 loading results in smaller particle size, larger specific surface area, thinner spherical walls, increased hollowness, and improved adsorption and photocatalytic properties of spherical Cu2O. The optimum Ti content of TiO2/Cu2O nanocomposite was 4.0 wt.%, the maximum specific surface area of TiO2/Cu2O sample was 90.57 m2/g with particle size less than 150 nm. When TiO2/Cu2O sample with Ti content of 4.0[Formula: see text]wt.% was used as photocatalyst, the adsorption effect was 66.2% under the dark reaction at 60[Formula: see text]min, the degradation effect was 91.2% under visible light irradiation at 120[Formula: see text]min. The adsorption and photocatalytic performance were excellent when the TiO2/Cu2O sample with Ti content of 4.0[Formula: see text]wt.% was used as the photocatalyst. This work provides an effective method for photocatalytic treatment of waste liquids.

Published
2022

28. Shape-stable composite phase change materials encapsulated by Lignin-based ordered porous carbon for thermal energy storage

Author

Hong Pan, Tianyang Li, Lihui Xu, Keting Li, Yong Shen, and Kai Ni

Abstract

This paper showed two bio-based shape-stable composite phase change materials which were prepared through a convenient vacuum impregnation method. Lignin-based ordered porous carbon (LOC) was the porous supporting material, polyethylene glycol (PEG) and paraffin (PA) was the phase change substance in this work. The maximum loading of PCMs in the obtained LOC/PEG and LOC/PA are 70% and 75%, respectively, and their phase transition enthalpy (ΔHm) are also as high as 81.5 J·g‒1 and 88.5 J·g‒1, respectively. In addition, the obtained LOC/PA showed better thermal management capabilities and better thermal stability after infrared thermography tests compared to LOC/PEG. Considering the low cost and excellent properties, the obtained lignin-based ordered porous carbon composite phase change material has a promising future for practical applications in thermal energy storage.

Published
2022

30. Preparation of CNFs/RGO/CuS Composite Materials with Porous Structure and Excellent Microwave Absorption Performance

Author

Keting Li, Lihui Xu, Hong Pan, Yong Shen, Liming Wang, Tianyang Li, and Jun Li

Subjects
General Materials Science, Condensed Matter Physics
Abstract

In this study, green cellulose nanofibers-based composites were successfully prepared for efficient wide-band electromagnetic absorber to realize functional and high-value diversified utilization of cellulose nanofibers. Specifically, by the introduction of reduced graphene oxide (RGO) and flower-like copper sulfide (CuS) into CNFs used as raw material, CNFs/RGO/CuS porous composite microwave absorber were obtained. The CNFs/RGO/CuS porous composite exhibited excellent microwave absorption performance due to its unique three-dimensional porous flower-like structure and heterogeneous interface, which provided excellent impedance matching and attenuation capabilities. The fabricated CNFs/RGO/CuS composite exhibited a minimum reflection loss (RLmin) of [Formula: see text]49.71[Formula: see text]dB at 11.52 GHz and a maximum absorption bandwidth of 5.30 GHz (from 10.40 GHz to 15.70 GHz) at only 2.50[Formula: see text]mm. In addition, the scanning electron microscope (SEM) results showed that the CNFs/RGO/CuS composite had a porous microstructure. And the Brunauer–Emmett–Teller (BET) specific surface area of the CNFs/RGO/CuS composite was 326.46[Formula: see text]m2/g. Potential absorption mechanisms were proposed considering the interfacial polarization, impedance matching, and dielectric losses caused by the synergistic effects among CNFs, RGO, and CuS. This work proposed a new strategy to biomass-based functional materials, and used the natural polymer CNFs, compounded with reduced graphene oxide and copper sulfide, to achieve efficient microwave absorbing materials.

Published
2022

32. Green water-based fabrication of SiO2–TiO2 aerogels with superhydrophobic and photocatalytic properties and their application on cotton fabric

Author

Yong Shen, Lihui Xu, Jing Wan, Hong Pan, and Liming Wang

Subjects
Materials science, Methyltrimethoxysilane, Scanning electron microscope, Mechanical Engineering, Aerogel, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Contact angle, chemistry.chemical_compound, chemistry, Chemical engineering, Mechanics of Materials, Photocatalysis, Rhodamine B, General Materials Science, Wetting, 0210 nano-technology, Photodegradation
Abstract

In this work, a green, simple, low-cost, and highly effective sol–gel method was used to successfully fabricate water-based SiO2–TiO2 aerogels with the help of surfactant by the incorporation of TiO2 into methyltrimethoxysilane-based SiO2 sol. The surface morphologies, chemical composition, physical properties, wettability and photocatalytic activity of SiO2–TiO2 aerogels were characterized by Fourier transformed infrared (FT-IR), X-ray diffraction (XRD), scanning electron microscopy (SEM), water contact angle and ultraviolet–visible absorption spectrum measurements. When the molar ratio of Si to Ti was 10:1, the SiO2–TiO2 aerogel samples showed not only low bulk density (0.122 g cm−3) and high porosity (96.11%), but also the high-efficient photodegradation ratio of 98.30% under UV light for 150 min. The obtained SiO2–TiO2 aerogels were photocatalytically active and superhydrophobic with the water contact angle (WCA) of 152°, showing the promising potential wide application. Moreover, the superhydrophobic and photocatalytic properties of the SiO2–TiO2 aerogels coated cotton fabric were also investigated. The coated cotton fabric not merely possessed antifouling, liquid-repellent and self-cleaning capabilities due to its superhydrophobic property, but also performed the considerable photocatalytic activity by the decomposition of methylene blue (MB) and Rhodamine B (RhB) under ultraviolet (UV) exposure.

Published
2021

33. Controllable Preparation of Ag–Ce/ZnO Nanorods Photocatalyst and Its Growth on Modified Polyester Surface in Water Bath

Author

Yong Shen, Wang Liying, Yadong Liu, Liming Wang, Yu Qiu, and Lihui Xu

Subjects
Nanotubes, Materials science, Polyesters, Biomedical Engineering, Water, Bioengineering, General Chemistry, Condensed Matter Physics, Catalysis, Polyester, chemistry.chemical_compound, chemistry, Chemical engineering, Sodium hydroxide, Ultraviolet light, Photocatalysis, General Materials Science, Nanorod, Zinc Oxide, Photodegradation, Methylene blue, Wurtzite crystal structure
Abstract

In this paper, a simple and effective method to prepare Ag–Ce/ZnO nanorods photocatalyst and grow them controllably on modified polyester fabrics was presented to fabricate multifunctional textiles. Analytical grade zinc acetate dihydrate and sodium hydroxide were used as the main raw materials to prepare Ag–Ce/ZnO nanorods. Morphological, structural and chemical characterization of the Ag–Ce/ZnO nanorods was performed by XRD, UV-vis and other spectroscopies. The results showed that the Ag–Ce/ZnO nanorods had a hexagonal wurtzite structure. After 60 minutes of irradiation under ultraviolet light, the Ag–Ce/ZnO nanorods showed a percentage photodegradation of 93.14% for a methylene blue (MB) solution. Modified polyester fabrics covered with the Ag–Ce/ZnO nanorods were then prepared in a water bath. By a series of tests, it was observed that the Ag–Ce/ZnO nanorods on the modified polyester surface were neatly arranged and had good photocatalytic properties. Moreover, the UPF of the modified polyester fabric after finishing increased from 30.4 to 877.2. The multifunctional properties of the finished fabric exhibited good durability.

Published
2021

36. Vibration Characteristic Analysis of Tunnel Structure Buried in Elastic Foundation Based on Dynamic Stiffness Matrix

Author

Lihui Xu and Meng Ma

Subjects
Applied Mathematics, Mechanical Engineering, Aerospace Engineering, Ocean Engineering, Building and Construction, Civil and Structural Engineering
Abstract

In this study, the free vibration characteristics of a non-circular tunnel buried in a Winkler foundation are first investigated based on a dynamic stiffness approach and the Wittrick–Williams algorithm. The non-circular tunnel was modeled as a shell composed of multipartial circular cylinders based on the first shear deformation Flügge shell theory, by which the effects of shear deformation and moment of inertia were considered. The transfer function of the state variable was derived, and the elementary dynamic stiffness matrices were formulated based on this transfer function. Similar to the finite element method, the global dynamic stiffness matrix was established by assembling each elementary dynamic stiffness matrix. By solving the global dynamic stiffness matrix using the Wittrick–Williams algorithm, the natural frequencies and the corresponding mode shapes were determined. Subsequently, the calculated results were compared with literature and finite element analysis results, thus validating the accuracy and reliability of the proposed method. A parametric analysis was conducted to investigate the effects of the cross-section, stiffness coefficient, thickness, and length of the tunnel composed of multipartial circular cylinders. It was concluded that among the four types of cross-sections, the free vibration characteristics of the shells with close isoperimetric radii are similar. The natural frequencies of the shells buried in a moderately stiff Winkler foundation increase rapidly with its stiffness coefficient, whereas those of the shells buried in softer and stiffer foundations remain practically constant. The increase in shell thickness progressively increases the natural frequencies. In contrast, the natural frequencies decrease sharply with the increase in shell length; they first decrease to the lowest limits and subsequently remain unaltered. Thus, the free vibration characteristics of an actual tunnel structure resting on a Winkler foundation can be obtained by conducting the free vibration analysis on a sufficiently long shell segment, which is of major significance in the dynamic design of tunnel structures.

Published
2022

37. Preparation of peanut shell cellulose nanofibrils and their superhydrophobic aerogels and their application on cotton fabrics

Author

Kouqin Chen, Liming Wang, Lihui Xu, Hong Pan, Huimin Hao, and Fangyin Guo

Subjects
Mechanics of Materials, Mechanical Engineering, General Materials Science
Abstract

Nowadays, the application range of biomass materials was more and more extensive.In this work,peanut shell powder was used as the raw material. The nanocellulose is extracted from it by chemical mechanical method.Then, using the sol-gel method, methyltrimethoxysilane(MTMS) is added to the peanut shell nanocellulose suspension to modify it. Finally, the nano-cellulose superhydrophobic aerogel was prepared by freeze-drying method. The nano-cellulose aerogel and polydimethylsiloxane (PDMS) were finished on the cotton fabric by spraying method, and the superhydrophobic aerogel and superhydrophobic cotton fabric were analyzed and characterized respectively. The results show that the prepared nanocellulose aerogel has a three-dimensional sheet-like structure with superhydrophobicity. The hydrophobic properties and water contact angle (WCA) of cotton fabrics were significantly improved after superhydrophobic finishing. The WCA can reach 160.4°, the finished fabric has good antifouling performance and self-cleaning performance, and the oil-water separation efficiency reaches 82.2%.

Published
2022

38. Preparation of durable superamphiphobic cotton fabrics with self-cleaning and liquid repellency

Author

Lihui Xu, Hong Pan, Yong Shen, Xiaoling Yuan, Liming Wang, Sheng Yu, and Jing Wan

Subjects
Materials science, Polydimethylsiloxane, Aerogel, 030206 dentistry, 02 engineering and technology, Surfaces and Interfaces, General Chemistry, engineering.material, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Coating, chemistry, Mechanics of Materials, Self cleaning, Materials Chemistry, engineering, Composite material, 0210 nano-technology
Abstract

A durable superamphiphobic cotton fabric was obtained by coating SiO2 aerogel particles, polydimethylsiloxane (PDMS), and 1H,1H,2H,2H-perfluorooctyltriethoxysilane (PFTES) on a cotton fabric via th...

Published
2021

41. Synthesis of a hollow-structured flower-like Fe3O4@MoS2 composite and its microwave-absorption properties

Author

Lihui Xu, Yong Shen, Guanghong Xiang, Zhewei Ni, and Mingyang Chen

Subjects
Diffraction, Materials science, business.industry, Scanning electron microscope, General Chemical Engineering, Reflection loss, Composite number, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, X-ray photoelectron spectroscopy, Transmission electron microscopy, Optoelectronics, 0210 nano-technology, business, Absorption (electromagnetic radiation), Microwave
Abstract

In order to realize the characteristics of new types of wave-absorbing materials, such as strong absorption, broad bandwidth, low weight and small thickness, a hollow-structured flower-like Fe3O4@MoS2 composite was successfully prepared by simple solvothermal and hydrothermal methods in this paper. The structural properties were characterized by X-ray diffraction, X-ray photoelectron spectroscopy, scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Besides, the microwave properties and magnetic properties were measured using a vector network analyzer and via a hysteresis loop. SEM and TEM images revealed that MoS2 nanosheets grew on the surface of hollow nanospheres. The results showed that the composite exhibited excellent absorbing property. When the molar ratio of Fe3O4 and MoS2 was 1 : 18, the minimum reflection loss value reached −49.6 dB at 13.2 GHz with a thickness of 2.0 mm and the effective absorption bandwidth was 4.24 GHz (11.68–15.92 GHz). Meanwhile, the effective absorption in the entire X-band (8–12 GHz) and part of the C-band (4–8 GHz) and Ku-band (12–18 GHz) could be achieved by designing the sample thickness. In addition, the hollow structure effectively reduced the density of the material, which was in line with the current development trend of absorption materials. It could be predicted that the hollow core–shell structure composite has a potential application prospect in the field of microwave absorption.

Published
2021

42. Papaya leaves extract as a novel eco-friendly corrosion inhibitor for Cu in H2SO4 medium

Author

Bochuan Tan, Bin Xiang, Shijin Chen, Shengtao Zhang, Lihui Xu, Yujie Qiang, and Jiahong He

Subjects
Langmuir, Materials science, chemistry.chemical_element, 02 engineering and technology, Atmospheric temperature range, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Copper, Environmentally friendly, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Corrosion, Biomaterials, Corrosion inhibitor, chemistry.chemical_compound, Colloid and Surface Chemistry, Adsorption, chemistry, X-ray photoelectron spectroscopy, 0210 nano-technology, Nuclear chemistry
Abstract

The papaya leaves were extracted via ultra-pure water. The obtained papaya leaves extract (PLE) was used as the eco-friendly inhibitor for Cu in the H2SO4 corrosion medium. The experimental results showed that PLE was a mixed-type inhibitor and exhibited excellent anti-corrosion nature over a certain temperature range. Morphological analysis test results at different temperatures strongly proved the anti-corrosion nature of PLE. The XPS test results found that an adsorption film of Cu-S bond and Cu-N bond was formed on the Cu surface. This barrier film conformed to Langmuir mono-layer adsorption. Corrosion kinetics and thermodynamic parameters were calculated and discussed.

Published
2021

43. First Report of Pectobacterium brasiliense causing Soft Rot on Conophytum luiseae in China

Author

Zhiwei Song, Chen Yang, Rong Zeng, Ping Gao, Shigang Gao, Lihui Xu, and Fuming Dai

Subjects
Plant Science, Agronomy and Crop Science
Abstract

Conophytum luiseae is native to the Namaqualand region of Cape, South Africa. It is a lovely plant with many short succulent spines on ingot-shaped fleshy leaf surfaces, and a high-value ornamental plant in China. In August to October 2021, a serious soft rot disease on Conophytum luiseae plants was observed in four greenhouses at a horticultural farm in Songjiang District, Shanghai, China. 70% of Conophytum luiseae plants on this farm had severe rot symptoms. Initially, wilting and soft rot symptoms appeared on fleshy leaves, then progressed into browning and withering symptoms of all fleshy leaves. To isolate and identify the causal agent, small pieces of lesion tissues were sterilized by 75% ethanol for 30 s, and rinsed three times with sterile water. Later, the tissues were crushed in sterile 2.0 mL centrifuge tube with 100 μl of sterile water. The suspension was serially diluted and spread on Luria-Bertani agar (LB) medium. After incubation at 28°C for 48 h, the bacterial colonies were tiny and streaked on LB plate for purification. After purification, five independent representative colonies were used for further confirmation. Genomic DNA from the bacterial isolate was extracted and used as the template to amplify 16s rDNA with primers 27F/1492R (Ying et al. 2012) and the housekeeping genes, dnaX with primers dnaXF/ dnaXR (Slawiak et al. 2009), and leuS with primers leuSF/ leuSR (Portier et al. 2019), respectively, by a polymerase chain reaction (PCR). The 16S rRNA sequences of one bacterial isolate was deposited in GenBank (GenBank accession OM333246) and showed a 99% similarity to that of Pectobacterium brasiliense (syn. Pectobacterium carotovorum subsp. brasiliense, Pcb) strains HG1501090309 (KU997683), BC1(CP009769), KC08 (KY021029). The dnaX (OM320998) and leuS (OM321306) sequences showed high similarity (99%) to P. brasiliense sequences. To further validate this identification, Pcb-specific primers BR1f/L1r was used for PCR, and it produced a predicted amplicon of 322 bp expected for P. brasiliense (Duarte et al. 2004). All five isolates could be detected by BR1f/L1r primer. To fulfill Koch's postulates, five healthy Conophytum luiseae were inoculated by spraying bacterial inoculum (108 CFU/ml), meanwhile five additional healthy Conophytum luiseae were implemented with sterilized distilled water as a negative control. The plants were then kept at 70% humidity and 25ºC. Seven days after inoculation, the inoculated plants showed serious soft rot, while the control samples remained healthy. Bacteria were re-isolated from rot of inoculated tissues, and the isolates were identified as the original pathogen by the 16S rRNA gene sequences. P. Brasiliense has been reported to cause soft rot on diverse plant hosts, like sweet potato, radish, tobacco (Liu et al. 2019; Voronina et al., 2019; Wang et al., 2017). Best to our knowledge, this is the first report that P. Brasiliense causes soft rot on Conophytum luiseae in China.

Published
2022

44. Arginine regulates inflammation response-induced by Fowl Adenovirus serotype 4 via JAK2/STAT3 pathway

Author

Silin, Xiang, Ruiling, Huang, Qing, He, Lihui, Xu, Changkang, Wang, and Quanxi, Wang

Subjects
Inflammation, General Veterinary, Interleukin-6, Adenoviridae Infections, General Medicine, Arginine, Serogroup, Poultry, Adenoviridae, STAT Transcription Factors, Animals, Chickens, Poultry Diseases, Janus Kinases, Signal Transduction
Abstract

Background Fowl Adenovirus serotype 4 (FAdV-4) infection causes severe inflammatory response leading to hepatitis-hydropericardium syndrome (HHS) in poultry. As an essential functional amino acid of poultry, arginine plays a critical role in anti-inflammatory and anti-oxidative stress. Results In this study, the differential expression genes (DEGs) were screened by transcriptomic techniques, and the DEGs in gene networks of inflammatory response-induced by FAdV-4 in broiler’s liver were analyzed by Kyoto encyclopedia of genes and genomes (KEGG) enrichment. The results showed that the cytokines pathway and JAK/STAT pathway were significantly enriched, in which the DEGs levels of IL-6, IL-1β, IFN-α, JAK and STAT were significantly up-regulated after FAdV-4 infection. It was further verified with real-time fluorescence quantitative polymerase chain reaction (Real-time qPCR) and Western blotting (WB) in vitro and in vivo. The findings demonstrated that FAdV-4 induced inflammatory response and activated JAK2/STAT3 pathway. Furthermore, we investigated whether arginine could alleviate the liver inflammation induced by FAdV-4. After treatment with 1.92% arginine level diet to broilers or 300 μg/mL arginine culture medium to LMH cell line with FAdV-4 infection at the same time, we found that the mRNA levels of IL-6, IL-1β, IFN-α and the protein levels of p-JAK2, p-STAT3 were down-regulated, compared with FAdV-4 infection group. Furthermore, we confirmed that the inflammation induced by FAdV-4 was ameliorated by pre-treatment with JAK inhibitor AG490 in LMH cells, and it was further alleviated in LMH cells treatment with AG490 and ARG. Conclusions These above results provide new insight that arginine protects hepatocytes against inflammation induced by FAdV-4 through JAK2/STAT3 signaling pathway.

Published
2022

45. Preparation and Properties of Lignin-Based Carbon/ZnO Photocatalytic Materials

Author

Tianyang Li, Hong Pan, Lihui Xu, Yong Shen, and Keting Li

Subjects
Mechanics of Materials, Mechanical Engineering, General Materials Science
Abstract

Lignin-based carbon/ZnO (LCZ) composites were prepared by one-step carbonization method using lignin as carbon source. The effects of different carbonization conditoions (temperature, carbonization time and QAL addition) on the pore structure of the composites were investigated. The results showed that the obtained LCZ composite had the largest specific surface area (317.765 m2·g− 1) and pore volume (0.4344 mL·g− 1) when the QAL addition was 4 g and carbonization at 600°C for 2 h. Due to the tight combinationg of carbon and ZnO, the photodegradation performance of the prepared LCZ under simulated solar light (500 W Xe lamp) irradiation was improved for the rapid transfer of photogenerated electrons. Compared with pure ZnO, the degradation rate of LCZ reached 92% and 91% of methyl orange and rhodamine B in 2 hours. Meanwhile, LCZ had good acid-base stability and cyclic stability.

Published
2022

46. One-pot preparation of robust, ultraviolet-proof superhydrophobic cotton fabrics for self-cleaning and oil/water separation

Author

Yadong Liu, Liming Wang, Yong Shen, Jing Wan, Xiaoling Yuan, Lihui Xu, and Hong Pan

Subjects
Textile, Materials science, Polymers and Plastics, Polydimethylsiloxane, business.industry, Nanoparticle, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Elastomer, 01 natural sciences, Superhydrophobic coating, 0104 chemical sciences, Contact angle, chemistry.chemical_compound, Silicone, Chemical engineering, chemistry, Wetting, 0210 nano-technology, business
Abstract

Robust superhydrophobic cotton fabrics with ultraviolet (UV)-proof performance were prepared via a simple one-pot method with composite coating of hierarchical CuS microflower nanoparticles and silicone elastomer polydimethylsiloxane (PDMS). The facile preparation of CuS microflower nanoparticles was conducted via relatively low-temperature reaction. The surface morphology, chemical composition, thermal degradation behavior, and crystal structure of the products were evaluated. The simultaneous roughening due to hierarchical rough morphology of CuS microflower nanoparticles and PDMS hydrophobization resulted in the coated fabric with microscale fibers exhibiting superhydrophobic property and its water contact angle was 159.3° ± 0.6°. The superhydrophobic textile also displayed outstanding UV-proof performance with a large ultraviolet protection factor of 535.36 due to ultraviolet-absorption, light scattering and frequent light reflection of hierarchical CuS nanoparticles. The superhydrophobic textile showed excellent stain resistance and self-cleaning property and also was able to separate oil and water with high efficiency and good separation reusability caused by the contrasting wettability of the coated textile for water droplets and oil droplets. The as-prepared superhydrophobic fabric displayed excellent robustness against 2000 cycles rubbing, water jetting and long-time UV illumination and satisfactory chemical stability. This superhydrophobic coating showed no negative impact on the mechanical strength of cotton fabric. The facile approach in favor of large-scale preparation showed promising potential for wide application of flexible superhydrophobic cotton textiles with ultraviolet-blocking performance.

Published
2020

47. Preparation of Copper Sulfide by Microwave Assisted Method and Its Application on Superhydrophobic, Anti-UV and Photocatalytic Cotton Fabric

Author

Ying Ding, Hong Pan, Liming Wang, Yong Shen, Ke-Cheng Yang, and Lihui Xu

Subjects
Materials science, Polymers and Plastics, Polydimethylsiloxane, Scanning electron microscope, General Chemical Engineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Contact angle, chemistry.chemical_compound, Copper sulfide, chemistry, Chemical engineering, Specific surface area, Particle-size distribution, Photocatalysis, Particle size, 0210 nano-technology
Abstract

In this work, solid spherical and hollow spherical CuS were prepared by microwave assisted method with PEG4000 as dispersant. The CuS was characterized by particle size analysis, scanning electron microscope(SEM), nitrogen adsorption and desorption, and X-ray diffraction (XRD), respectively. The effects of PEG4000, ratio of thiourea: copper, and microwave power on particle size of CuS were discussed, and the effects of particle size on photocatalytic property were evaluated. The solid spherical CuS had average particle size of 189.1 nm and specific surface of 9.54 m2/g. The hollow spherical CuS had average particle size of 502.7 nm and specific surface area of 16.01 m2/g. The results showed the hollow spherical CuS had better photocatalytic property. In addition, the cotton fabric was treated by hollow spherical CuS/polydimethylsiloxane (PDMS) to prepare multifunctional textile in this work. The treated cotton fabric was characterized by SEM. The treated cotton fabric achieved the superhydrophobicity with contact angle of 156.9° and sliding angle of 8°, good photocatalytic properties for methylene blue, and exceptional UV resistance with UPF of 223.52.

Published
2020

48. Prediction of building vibration induced by metro trains running in a curved tunnel

Author

Lihui Xu, Linlin Du, Meng Ma, Zongzhen Wu, and Xinyu Tan

Subjects
Computer science, business.industry, Mechanical Engineering, Aerospace Engineering, 02 engineering and technology, Structural engineering, 010501 environmental sciences, 01 natural sciences, Vibration, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, Automotive Engineering, General Materials Science, Train, business, 0105 earth and related environmental sciences
Abstract

Curved metro lines currently account for a significant proportion of total route mileage. However, the existing prediction model of environmental vibration only considered the vibration induced by trains running in a straight tunnel. In the present study, a numerical model was proposed to predict the environmental vibration induced by trains running in a curved tunnel. The model was divided into two parts: a train–track coupled model and a tunnel–soil–building finite element model. In the first part, a novel three-dimensional train–curved track coupled model was established and solved in the frequency domain based on the periodic theory. Both vertical and horizontal train loads were calculated by this model. Then, an in situ measurement was performed in the curved tunnel of an operating metro line, and the tunnel vibration responses were obtained and used to calibrate the train–track model. Finally, a case study was selected from Beijing metro line 16, where it is needed to predict and evaluate the environmental impact of vibration from a curved metro line being planned for construction beneath an office building. A three-dimensional tunnel–soil–building finite element model was built, and the building vibrations in vertical and horizontal directions were predicted. The results show that the floor vibrations have peak values of approximately 5.29 and 27.8 Hz, which are exacerbated by the building local mode and the spacing of the rail supports. Below the third floor, the vertical vibration response exceeded the vibration control limit recommended by Chinese national standards. Track solutions for vibration control must be implemented to mitigate the environmental vibrations.

Published
2020

49. Toward Precise Osteotomies: A Coarse-to-Fine 3D Cut Plane Planning Method for Image-Guided Pelvis Tumor Resection Surgery

Author

Li Zhang, Shunli Zhang, Fengzan Li, Yao Sui, Lei Qiu, Lihui Xu, Qing Zhang, Xiaohui Niu, and Yu Zhang

Subjects
Surgical resection, medicine.medical_specialty, Computer science, Tumor resection, Normal tissue, Pelvis, 030218 nuclear medicine & medical imaging, Image (mathematics), Plane (Unicode), 03 medical and health sciences, Imaging, Three-Dimensional, 0302 clinical medicine, Margin (machine learning), Planning method, medicine, Humans, Electrical and Electronic Engineering, Pelvic Neoplasms, Radiological and Ultrasound Technology, Osteotomy, Computer Science Applications, Coarse to fine, medicine.anatomical_structure, Surgery, Computer-Assisted, Radiology, Neoplasm Recurrence, Local, Software
Abstract

Surgical resection is the main clinical method for the treatment of bone tumors. A critical procedure for bone tumor resection is to plan a set of cut planes that enable resecting the bone tumor with a safe margin while preserving the maximum amount of healthy bone. Currently, the surgeons rely on manual methods to plan the cut planes, which highly depend on the surgeons’ experiences and have been demonstrated to be error-prone, and in turn, increase the recurrence rate or resect much healthy bone. This study targets on improving the precision of cut plane planning for the image guided pelvis tumor resection surgeries. A semi-automatic approach to cut plane planning was proposed via a coarse-to-fine strategy. It can efficiently identify a dangerous region in the 3D space, which contains the bone tumor and its surrounding normal tissue with a safe margin. By projecting the dangerous region into an appropriate 2D space, a segmented boundary-constrained linear regression method was leveraged to plan a set of 3D cut planes that ensure the minimum area of the resected specimen in the 2D space while having the dangerous region cleared. Further, a coarse-to-fine 3D cut plane planning method was developed by incorporating a 3D cut plane refinement scheme with our 2D planning method. Extensive experiments, on the surgical data from nine previous pelvis tumor resection surgeries, demonstrated that our proposed approach substantially improved the localization precision of cut planes ( ${p} ) and decreased the amount of resected specimen ( ${p} ), as compared to the manual method.

Published
2020

50. Preparation of Fluorine-Free Superhydrophobic Cotton Fabric with Polyacrylate/SiO2 Nanocomposite

Author

Yong Shen, Liming Wang, Lihui Xu, Hong Pan, and Ying Ding

Subjects
Thermogravimetric analysis, Nanocomposite, Materials science, Scanning electron microscope, Butyl acrylate, Biomedical Engineering, Bioengineering, 02 engineering and technology, General Chemistry, engineering.material, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Surface energy, Contact angle, chemistry.chemical_compound, Coating, Chemical engineering, chemistry, engineering, General Materials Science, Adhesive, 0210 nano-technology
Abstract

Fluorine-free superhydrophobic cotton fabric was fabricated by coating polyacrylate (PA)/SiO₂ nanocomposite. PA/SiO₂ nanocomposite was prepared based on the modified SiO₂ nanoparticles with double bonds and hexadecyl groups by solution polymerization of butyl acrylate (BA), methyl methacrylate (MMA) and octadecylmethacrylate (OMA). The obtained cotton fabric showed excellent superhydrophobicity with a water contact angle of 152.2±0.4° and a water shedding angle of 8.0±0.2°, due to the simultaneous introduction of surface topography constructed by modified SiO₂ nanoparticles and low surface free energy PA adhesive layer and hexadecyl groups onto cotton fibers. The as-obtained products were characterized by Fourier-transform infrared spectrometry (FT-IR), thermal gravimetric analysis (TG), scanning electron microscopy (SEM) and size distribution analysis. The obtained superhydrophobic fabric coated by PA/SiO₂ demonstrated good mechanical stability and self-cleaning. The PA/SiO₂ coating treatment caused little loss in the tensile strength, breathability, and whiteness of the treated fabric. This approach with improved human/environmental friendliness can pave the potential way for the preparation of superhydrophobic surfaces.

Published
2020

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