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9. Fabrication of Ag@Ag2O-MnOx composite nanowires for high-efficient room-temperature removal of formaldehyde

Author

Chunjin Hang, Shicheng Zhou, Chenxi Wang, Daoyuan Li, Hui Fang, Tadatomo Suga, Yu Du, Yanhong Tian, and He Zhang

Subjects
Materials science, Polymers and Plastics, Formaldehyde, Nanowire, chemistry.chemical_element, 02 engineering and technology, Manganese, 010402 general chemistry, 01 natural sciences, law.invention, Catalysis, chemistry.chemical_compound, law, Materials Chemistry, Calcination, Mechanical Engineering, Metals and Alloys, 021001 nanoscience & nanotechnology, Electrospinning, 0104 chemical sciences, Potassium permanganate, chemistry, Chemical engineering, Mechanics of Materials, Ceramics and Composites, 0210 nano-technology, Silver oxide
Abstract

Efficient removal of pollutant formaldehyde (HCHO) at room temperature using transition-metal oxides remains a huge challenge to date. Manganese oxide can oxidize formaldehyde, however, how to control the valence states of manganese is the key to further improve the removal efficiency. We have successfully prepared porous manganese oxide nanowires (MnOx NWs) with large surface area and multiple valence states of manganese using simple electrospinning followed by thermal calcination and potassium permanganate solution post-treatment (C/S process). The contents of trivalent and tetravalent manganese increased significantly after C/S process. Moreover, the composition of silver oxide coated silver nanowires (Ag@Ag2O NWs) is realized by assistance with oxygen plasma, which further enhanced high valence manganese. The formaldehyde removal efficiency by Ag@Ag2O–MnOx composite nanowires can reach 93.7%. The high-efficient catalytic activity is confirmed to attribute to the higher surface area of composite nanowires, the high-valence manganese and the silver oxide for oxidation of formaldehyde.

Published
2021
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10. Synthesis and characterization of reaction sintered CaTiO3-LnAlO3(Ln=La, Nd) ceramics

Author

Qiang Wu, Hailin Zhang, Sen He, Xianjie Zhou, Huanfu Zhou, Xiuli Chen, Sang Hu, Shicheng Zhou, Xi Wang, Xiaowen Luan, and Hanrui Xu

Subjects
Diffraction, Fabrication, Materials science, Process Chemistry and Technology, Sintering, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Characterization (materials science), Chemical engineering, Phase composition, Phase (matter), visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic, Microwave
Abstract

Owing to the rapid development of wireless communication technologies, microwave dielectric ceramics have been proposed to facilitate an increase in the performance of functional ceramic components. Herein, CaTiO3-LnAlO3(Ln=La, Nd) ceramics were synthesized via reaction sintering to produce low-cost, high-efficiency, materials. The reaction-sintering method, which imparts excellent comprehensive properties, was used to fabricate these ceramics. The subtle variations in the densification behavior, phase transformation, phase composition, microstructural evolution, and performance exhibited by the CaTiO3-LnAlO3(Ln=La, Nd) ceramics were systematically evaluated. The X-ray diffraction patterns obtained from each sample indicate that the Ca0.61La0.39Al0.39Ti0.61O3 (CTLA) and Ca0.7Nd0.3Ti0.7Al0.3O3 (CTNA) phases were generated under certain environmental conditions. The as-synthesized ceramics exhibited excellent performance parameters: er = 39.1, Q × f = 45 635 GHz, τf = −1.48 ppm/°C and er = 44.03, Q × f = 46 269 GHz, τf = +2.63 ppm/°C, respectively. In addition, the ceramics retained their strong performance parameters irrespective of external temperature fluctuations. The reaction sintering method provides an economical, convenient, and facile method for the fabrication of CaTiO3-LnAlO3(Ln=La, Nd) ceramics which, in turn, imparts broad prospects for the application and development of these materials.

Published
2021
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11. Exploration of the enhanced performances for silk fibroin/sodium alginate composite coatings on biodegradable Mg−Zn−Ca alloy

Author

Chenxi Wang, Ge Li, Tadatomo Suga, Hui Fang, Shicheng Zhou, and Yanhong Tian

Subjects
Materials science, Biocompatibility, Alloy, Composite number, Corrosion resistance, Silk fibroin, Fibroin, 02 engineering and technology, Adhesion force, engineering.material, 01 natural sciences, Corrosion, Coating, 0103 physical sciences, Mechanical property, Mg−Zn−Ca alloy, 010302 applied physics, Mining engineering. Metallurgy, fungi, TN1-997, technology, industry, and agriculture, Metals and Alloys, Adhesion, Nanoindentation, equipment and supplies, 021001 nanoscience & nanotechnology, Chemical engineering, Mechanics of Materials, engineering, Sodium alginate, 0210 nano-technology
Abstract

To expand the future clinic applications of biodegradable magnesium alloy, polymer coatings with excellent biocompatibility are the keys to solve the local alkalinity and rapid hydrogen release. Natural−organic silk fibroin provides an approach to fabricate a protective coating on biomedical Mg−Zn−Ca alloy, however, the adhesion force and mechanical properties of the coating on substrates are ought to be further improved without any chemical conversion/intermediate layer. Hereby, based on VUV/O3 surface activation, a hybrid of silk fibroin and sodium alginate is proposed to enhance the adhesion force and mechanical properties of the composite coatings on hydrophilic Mg−Zn−Ca alloy surfaces. Various mass ratios of sodium alginate addition were investigated to achieve the optimum coating strategy. The nanoscratch test and nanoindentation test confirmed that the adhesion force was tripled and mechanical properties index was significantly improved when the mass ratio of silk fibroin/sodium alginate was 70/30 compared to pure silk fibroin or sodium alginate coatings. Meanwhile, the corrosion rate of the coated Mg−Zn−Ca alloy was significantly delayed with the addition of sodium alginate, resulting in a reaction layer during corrosion process. Furthermore, the mechanisms for both adhesion and corrosion processes were discussed in detail. Our findings offer more possibilities for the controllable surface performance of degradable metals.

Published
2021
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12. Novel Covert-Inferior Pelvic Approach with a Subpubic Plate for Anterior Pelvic Ring Fractures: Preliminary Results

Author

Baoming Yuan, Guangkai Ren, Yutao Cui, Feng Gao, Weiwei Miao, Zhengwei Li, Shicheng Zhou, Qingyu Wang, Yanbing Wang, Jin Dai, Chuangang Peng, and Dankai Wu

Subjects
Orthopedics and Sports Medicine, Surgery, General Medicine
Abstract

Anterior pelvic ring injuries can be treated via Pfannenstiel, modified Stoppa, or ilioinguinal approaches, but these require exposing the abdominal soft tissues and may damage pelvic organs. The scar on the abdominal wall is also unacceptable for some patients. The minimally invasive anterior pelvic ring internal fixator (INFIX) is not ideal for thin patients with easily irritated skin, and it is associated with complications such as femoral nerve palsy, vascular occlusion, and lateral femoral cutaneous nerve injury. In this study, we designed a new external pelvic approach for the treatment of an anterior pelvic ring fracture.We retrospectively reviewed 28 patients with 36 pubic ramus fractures that had been treated via the covert-inferior pelvic approach. All patients underwent a surgical procedure between August 2019 and January 2021. According to the Nakatani classification, there were 6 cases of type-I fracture, 25 cases of type-II fracture, and 5 cases of type-III fracture. Operative time, blood loss, and postoperative radiographic and computed tomographic (CT) findings were recorded. Patients were followed for fracture healing time, functional status, esthetic satisfaction, and complications.A total of 27 patients had follow-up for at least 12 months (range, 12 to 29 months). Postoperative radiographs and CT scans showed well-positioned plates and screws. The mean preoperative time was 9.4 ± 3.8 days, the mean operative time was 61.3 ± 22.67 minutes, the mean intraoperative blood loss was 63.6 ± 42.62 mL, the mean fracture healing time was 4.1 ± 1.6 months, and the mean Majeed score was 89.74 ± 8.07. There were no complications of nonunion, internal fixation failure, vascular injury, nerve palsy, or hernia. All of the patients were esthetically satisfied with the scar.The covert-inferior pelvic approach combined with a subpubic plate effectively fixed Nakatani type-I, II, and III fractures. The advantages of this method include rapid recovery after the surgical procedure, safety, simplicity, a short learning curve, no damage to abdominal soft tissue, no effect on pubic symphysis micromotion, and esthetic benefits. It may be another option for anterior pelvic ring fractures and can supplement other approaches.Therapeutic Level III . See Instructions for Authors for a complete description of levels of evidence.

Published
2022

13. Low-Temperature Co-hydroxylated Cu/SiO2 Hybrid Bonding Strategy for a Memory-Centric Chip Architecture

Author

Qiushi Kang, Tian Lu, Peng He, Yanhong Tian, Chenxi Wang, Ge Li, and Shicheng Zhou

Subjects
Grain growth, Surface area, Materials science, Adsorption, Chemical engineering, law, General Materials Science, Integrated circuit, Direct bonding, Dielectric, Flip chip, Active layer, law.invention
Abstract

Cu/SiO2 hybrid bonding with planarized dielectric and isolated metal connections can realize ultradense interconnects (e.g., ≤1 μm) by eliminating the microbumps and underfill through the direct bonding of Cu-Cu and SiO2-SiO2. However, the low-temperature bonding of Cu-Cu (oxide-free surface) and SiO2-SiO2 (hydroxylated surface) is difficult to be compatible in a mechanism. We circumvent this contradiction by constructing a co-hydroxylated functional surface on a Cu/SiO2 hybrid platform. By combining and optimizing the protocol of Ar/O2 plasma activation and formic acid solution immersion, an -OH active layer was successfully established on the Cu and SiO2 surfaces simultaneously, and the increased total surface area provided more adsorption sites for hydroxyl groups. A Cu-Cu interface with sufficient atom diffusion, substantial grain growth, and fewer microvoids was obtained at 200 °C. Notably, the carbon-related interlayer that may degrade the interfacial performance could be effectively inhibited across the optimized SiO2-SiO2 interface even if organic acid was introduced in the protocol. This low-temperature Cu/SiO2 hybrid bonding via a co-hydroxylated strategy may inspire the development of a memory-centric chip architecture and functional integrated circuits delivering a monolithic-like performance in the future hyperscaling era.

Published
2021
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14. Microwave dielectric properties of Ca1.15Sm0.85Al0.85Ti0.15O4 ceramics prepared by reaction sintering

Author

Sen He, Xiaowen Luan, Xi Wang, Xiuli Chen, Shicheng Zhou, Huanfu Zhou, Sang Hu, Xianjie Zhou, and Kangguo Wang

Subjects
010302 applied physics, Valence (chemistry), Materials science, Process Chemistry and Technology, Analytical chemistry, Relative permittivity, chemistry.chemical_element, Sintering, 02 engineering and technology, 021001 nanoscience & nanotechnology, Atomic packing factor, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Samarium, Tetragonal crystal system, chemistry, visual_art, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic, 0210 nano-technology, Temperature coefficient
Abstract

In the present work, a high quality (Q) Ca1.15Sm0.85Al0.85Ti0.15O4 (CSAT) ceramic was prepared via reaction sintering (RS) method. The phase structure, surface morphology, packing fraction (PF), and valence bond of the ceramic were systematically investigated. By studying the X-ray diffraction (XRD) pattern of the ceramic, it was determined to exhibit a single-phase tetragonal structure with the dimensions of a = b = 3.6943(13)A and c = 12.0320(23)A and volume of V = 164.22(10) A3. The influence of the intrinsic quality loss factor on the Q × f value was investigated by calculating the PF. Simultaneously, the bond valence of the samarium (Sm) sites was evaluated to elucidate the relationship with the temperature coefficient of resonant frequency (τf). The CSAT ceramic was sintered at 1550 °C for 6 h and exhibited exceptional characteristics in terms of the relative dielectric constant (er) = 17.5, quality factor (Q × f) = 66700 GHz, and τf = −6.93 ppm/°C. These results highlighted the excellent suitability of the RS method for preparing CSAT ceramics with outstanding microwave dielectric properties.

Published
2021
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15. Phase structure and microwave dielectric properties of 0.85(0.74CaTiO3–0.26SmAlO3)–0.15Ca1.15Sm0.85Al0.85Ti0.15O4 composite ceramics prepared by reaction-sintering process

Author

Kangguo Wang, Sen He, Xiuli Chen, Xianjie Zhou, Xi Wang, Sang Hu, Huanfu Zhou, Xiaowen Luan, Shicheng Zhou, and Hailin Zhang

Subjects
010302 applied physics, Materials science, Composite number, Sintering, Dielectric, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Grain size, Electronic, Optical and Magnetic Materials, Scientific method, visual_art, Phase (matter), 0103 physical sciences, visual_art.visual_art_medium, Ceramic, Electrical and Electronic Engineering, Composite material, Microwave
Abstract

0.85(0.74CaTiO3–0.26SmAlO3)–0.15Ca1.15Sm0.85Al0.85Ti0.15O4 (CSC) composite ceramics were prepared by a reaction-sintering method. The phase structure, sintering behavior and microwave dielectric properties of CSC ceramics were investigated. The preparation process of reaction-sintering route (RS) is simple. XRD patterns show that Ca0.74Ti0.74Sm0.26Al0.26O3 (similar to CaTiO3), SmAlO3 and Ca1.15Sm0.85Al0.85Ti0.15O4 phases are formed in the CSC ceramics. The grain size and dielectric constant of CSC ceramics increase with rising the sintering temperature. As the sintering temperature increases, the quality factor (Q × f) and τf value of the CSC ceramics increase to the maximum values first and then decrease. The bulk density fluctuates up and down around a value, but little change. The ceramics sintered at 1500 °C got the best microwave dielectric performances with er = 35.9, Q × f = 49,221 GHz, τf = − 0.53 ppm/°C.

Published
2021
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16. Preparation, structure and microwave dielectric properties of novel La2MgGeO6 ceramics with hexagonal structure and adjustment of its τ value

Author

Sang Hu, Huanfu Zhou, Sen He, Xiuli Chen, Xiaowen Luan, Shicheng Zhou, Kangguo Wang, Xianjie Zhou, and Xi Wang

Subjects
010302 applied physics, Materials science, Rietveld refinement, Process Chemistry and Technology, Hexagonal phase, Relative permittivity, 02 engineering and technology, Dielectric, Atmospheric temperature range, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, visual_art, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic, Composite material, 0210 nano-technology, Temperature coefficient, Microwave
Abstract

A novel La2MgGeO6 ceramic was synthesized through a solid-state reaction process within a sintering temperature range of 1450–1550 °C. By a combination of X-ray diffraction and Rietveld refinement analyses, the ceramics were found to have a pure hexagonal phase structure belonging to space group R3/146. The scanning electron microscopy images revealed that the ceramic grains were closely connected. The effects of internal (lattice energy, valence bond, and fraction packing) and external factors (density) on the microwave properties of ceramics were also studied. The ceramic exhibited excellent microwave dielectric performances, with a relative permittivity (Ɛr) of 21.2, a quality factor (Q × f) of 52 360 GHz, and a temperature coefficient of resonant frequency (τf) of −44.2 ppm/°C, when sintered at 1500 °C for 4 h. The τf value of the La2MgGeO6 ceramic doped with CaTiO3 could be adjusted to zero. Particularly, 0.2La2MgGeO6-0.8CaTiO3 ceramics have good microwave dielectric properties with τf = +2.1 ppm/°C, Q × f = 15 610 GHz, and Ɛr = 40.3.

Published
2021
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17. Sintering behavior, phase structure and microwave dielectric properties of CeO2 added CaTiO3-SmAlO3 ceramics prepared by reaction sintering method

Author

Sen He, Xiuli Chen, Sang Hu, Xiaowen Luan, Huanfu Zhou, Xi Wang, Xianjie Zhou, Hailin Zhang, and Shicheng Zhou

Subjects
010302 applied physics, Phase reaction, Materials science, Microwave dielectric properties, Process Chemistry and Technology, Sintering, 02 engineering and technology, Dielectric, Crystal structure, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Chemical engineering, visual_art, Phase (matter), 0103 physical sciences, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Ceramic, 0210 nano-technology
Abstract

Novel 0.695CaTiO3-0.305SmAlO3+xwt% CeO2 (x = 0, 0.5, 1.0, 1.5) ceramics were fabricated using a reaction-sintering (RS) approach. The crystal structure, morphology, and microwave dielectric properties of ceramics were systematically studied. The addition of CeO2 could effectively improve the sintering behavior of 0.695CaTiO3-0.305SmAlO3 (CTSA) ceramics. When x = 0.5 wt%, the ceramics exhibited optimal microwave dielectric properties, with er = 43.9, Q×f = 48 779 GHz, and τƒ = −0.24 ppm/°C, thereby indicating that the samples prepared via the RS route possess superior dielectric properties compared to those prepared by the conventional solid phase reaction. The results demonstrate that CaTiO3-SmAlO3 ceramics can be prepared simply and efficiently through a reaction-sintering process.

Published
2021
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18. NaTaO3 microwave dielectric ceramic a with high relative permittivity and as an excellent compensator for the temperature coefficient of resonant frequency

Author

Xianjie Zhou, Sen He, Huanfu Zhou, Sang Hu, Kangguo Wang, Xiuli Chen, Xiaowen Luan, Xi Wang, and Shicheng Zhou

Subjects
010302 applied physics, Materials science, Process Chemistry and Technology, Ferroelectric ceramics, Sintering, Relative permittivity, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, visual_art, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, Miniaturization, visual_art.visual_art_medium, Ceramic, Composite material, 0210 nano-technology, Temperature coefficient, Microwave
Abstract

NaTaO3 ferroelectric ceramics sintered at 1550 °C exhibit high relative permittivity and outstanding microwave dielectric properties of er = 113.76, Q × f = 8824 GHz, and τƒ = +645 ppm/°C in the low-frequency band (3.5195 GHz). The high relative permittivity is advantageous for the miniaturization of modern wireless communication devices. A near zero temperature coefficient of the resonance frequency (τƒ = +1.05 ppm/°C) and good microwave dielectric properties (Q × f = 54,680 GHz, er = 19.42) were obtained for 0.92MgTiO3-0.08NaTaO3 ceramics. Moreover, the sintering temperature of MgTiO3 could be decreased from 1350 °C to 1200 °C. Hence, NaTaO3 is a high-potential microwave dielectric material for adjusting systems with a negative temperature coefficient of resonance frequency.

Published
2021
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19. Single-crystalline SiC integrated onto Si-based substrates via plasma-activated direct bonding

Author

Shicheng Zhou, Qiushi Kang, Chenxi Wang, Jikai Xu, Yanhong Tian, and Fanfan Niu

Subjects
010302 applied physics, Materials science, business.industry, Process Chemistry and Technology, Optical transparency, Heterojunction, 02 engineering and technology, Direct bonding, Plasma, 021001 nanoscience & nanotechnology, 01 natural sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Corrosion, O2 plasma, 0103 physical sciences, Materials Chemistry, Ceramics and Composites, Optoelectronics, 0210 nano-technology, business
Abstract

We propose a plasma-activated direct bonding process at low temperatures (≤200 °C) to form heterostructures between single-crystalline SiC and conventional Si-based substrates (SiO2, Si, and glass) without any interlayers. Surface activation was performed via an inductively coupled O2 plasma for 60 s with a lower bombardment damage position. The SiC surfaces were much more hydrophilic after activation, and the generation of defect states was suppressed. Consequently, void-free and robust bonding interfaces of SiC/SiO2, SiC/Si and SiC/glass were successfully achieved. There were no carbon-enriched layers across the bonding interfaces, which could improve the electrical properties of SiC-based devices. Additionally, the bonding interface of SiC/glass exhibited excellent optical transparency, and interfacial corrosion resistance was confirmed via immersion tests in biological solutions. This bonding method provides a feasible route towards industry-compatible heterogeneous integration of single-crystalline bulk SiC onto Si-based platforms for electronic, optical, mechanical, and biomedical applications.

Published
2020
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20. Structure and dielectric properties of novel series of 3CaO–RE2O3–2WO3 (RE = La, Nd and Sm) microwave ceramics and the adjustment of τf value

Author

Sen He, Sang Hu, Shicheng Zhou, Xi Wang, Junpeng Shi, Xiaowen Luan, Kangguo Wang, Xianjie Zhou, Xiuli Chen, and Huanfu Zhou

Subjects
010302 applied physics, Materials science, Scanning electron microscope, Analytical chemistry, Relative permittivity, Dielectric, Crystal structure, Condensed Matter Physics, Microstructure, 01 natural sciences, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Phase (matter), visual_art, 0103 physical sciences, visual_art.visual_art_medium, Ceramic, Electrical and Electronic Engineering, Temperature coefficient
Abstract

Using the solid-state reaction method, novel series of 3CaO–RE2O3–2WO3 (RE = La, Nd and Sm) dielectric ceramics materials were fabricated, and the crystal structure and microstructure were studied through X-ray diffraction (XRD) and scanning electron microscope (SEM), respectively. The Ca3La2W2O12 (CLW) ceramic exhibited a single pure phase with a rhombohedral structure, and Ca3Nd2W2O12 (CNW) and Ca3Sm2W2O12 (CSW) ceramics had similar crystal structures with CLW. 3CaO–RE2O3–2WO3 (RE = La, Nd and Sm) ceramics are packed tightly, and the grains exhibited clear boundaries and uniform size. The CLW, CNW, and CSW ceramics sintered at 1375 °C for 4 h possessed excellent microwave dielectric properties: Ɛr = 19.1, Q × f = 34370 GHz, τf = − 80 ppm/°C; Ɛr = 19.3, Q × f = 36610 GHz, τf = − 74 ppm/°C and Ɛr = 18.8, Q × f = 23240 GHz, and τf = − 68 ppm/°C, respectively. Moreover, the (1 − x)CNW–xTiO2 (0.3 ≤ x ≤ 0.6) and (1 − y)CNW–yCaTiO3 (0.4 ≤ y ≤ 0.7) ceramics were designed and prepared to get a thermally stable material. The addition of TiO2 and CaTiO3 had a significant impact on the performances of ceramics. With increasing the TiO2 and CaTiO3 content, the relative permittivity (Ɛr) and temperature coefficient of resonance frequency (τf) values of ceramics increased, but the quality factor (Q × f) values of ceramics decreased. Especially, 0.55CNW–0.45TiO2 and 0.45CNW–0.55CaTiO3 ceramics sintered at 1375 °C for 4 h had microwave dielectric properties of Ɛr = 22.4, Q × f = 32,490 GHz, and τf = − 0.5 ppm/°C and Ɛr = 23.4, Q × f = 6440 GHz, and τf = − 1.5 ppm/°C, respectively.

Published
2020
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21. Rapid pressureless and low-temperature bonding of large-area power chips by sintering two-step activated Ag paste

Author

Yanhong Tian, Qiushi Kang, Hui Fang, Dongsheng Yang, Te Wang, Chenxi Wang, Shicheng Zhou, and Tadatomo Suga

Subjects
Materials science, Two step, Sintering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Adsorption, Thermal conductivity, chemistry, Shear strength, Hydroxide, Methanol, Electrical and Electronic Engineering, Composite material, Silver oxide
Abstract

Pressureless and low-temperature sintering of Ag paste has been mentioned as a promising strategy to solve the poor performance of large-area chips. In this paper, we develop a two-step surface activation process to achieve rapid pressureless and low-temperature bonding of Cu in air using a micron-scale Ag paste for large-area chips. The organics that adsorb on the Ag particles are initially removed by oxygen plasma cleaning, and the silver oxide byproducts are subsequently deoxidized by a methanol/hydroxide mixed vapor treatment. The two-step activation significantly improves the sinterability of the micron-scale Ag paste, leading to excellent interfacial properties after rapid sintering at 200 °C for only 10 min in air. Robust-bonded joints are achieved with a shear strength and thermal conductivity that are four times higher than those of the non-activated bonded joints. The bonding strength and thermal conductivity of the Cu joint structure are approximately 25 MPa and 96 W/mK, respectively, which are superior to those of traditional Sn–Pb solders. Void-free bonding interfaces are confirmed by large-area chips even without pressure in air; this method shows great potential for the cost-effective commercial packaging of power electronics.

Published
2020
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22. Thermosensitive vancomycin@PLGA-PEG-PLGA/HA hydrogel as an all-in-one treatment for osteomyelitis

Author

Baoming Yuan, Yanfeng Zhang, Qian Wang, Guangkai Ren, Yanbing Wang, Shicheng Zhou, Qingyu Wang, Chuangang Peng, and Xueliang Cheng

Subjects
Drug Carriers, Polymers, Bone Cements, Pharmaceutical Science, Hydrogels, Biocompatible Materials, Osteomyelitis, Polyethylene Glycols, Anti-Bacterial Agents, Durapatite, Vancomycin, Delayed-Action Preparations, Spectroscopy, Fourier Transform Infrared, Humans, Micelles
Abstract

Osteomyelitis is a difficult-to-treat infectious disease. Treatment, which includes controlling the infection and removing necrotic tissues, is challenging. Considering the side effects and drug resistance of systemic antibiotics, local drug delivery systems are being explored. Antibiotic-loaded bone cement is the main treatment strategy; however, it has several disadvantages. Thus, based on its thermosensitive gelation properties, poly(D, L-lactide-co-glycolide)-poly(ethylene glycol)-poly(D, L-lactide-co-glycolide) (PLGA-PEG-PLGA) copolymer was used as a sustained-release drug carrier by calibrating its synthesis parameters. We prepared and characterized vancomycin@PLGA-PEG-PLGA/hydroxyapatite (HA) thermosensitive hydrogel with an LA/GA ratio of 15:1. The rheological characteristics, sol-gel phase-transition properties, and critical micelle concentration value of the PLGA-PEG-PLGA/HA complex confirmed that it undergoes a temperature-sensitive sol-gel phase transition. Furthermore, the HA in the composite increased the storage modulus of the system. FT-IR, XRD, and TEM findings showed that HA could be dispersed uniformly in the PLGA-PEG-PLGA polymer. Moreover, HA neutralized acidity during polymer degradation, improving in vitro cytocompatibility. In vitro and in vivo antibacterial experiments showed that the composite sustained-release system exhibited good bone repair characteristics owing to its efficacy in infection treatment. Therefore, vancomycin@PLGA-PEG-PLGA/HA allows sustained release of antibiotics and promotes bone tissue repair, showing potential for wide clinical applicability.

Published
2022

23. Intratumoral synthesis of transformable metal-phenolic nanoaggregates with enhanced tumor penetration and retention for photothermal immunotherapy

Author

Xianglian He, Hongfu Zhu, Jiaojiao Shang, Meifeng Li, Yaoyao Zhang, Shicheng Zhou, Guidong Gong, Yunxiang He, Anna Blocki, and Junling Guo

Subjects
Cell Line, Tumor, Iron, Neoplasms, Tumor Microenvironment, Medicine (miscellaneous), Humans, Immunologic Factors, Polyphenols, Immunotherapy, Phototherapy, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), B7-H1 Antigen
Published
2022

25. A Cybersecurity Knowledge Graph Completion Method for Penetration Testing

Author

Peng Wang, Jingju Liu, Xiaofeng Zhong, and Shicheng Zhou

Subjects
penetration testing, cyberspace situation awareness, cybersecurity, knowledge graph completion, Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Electrical and Electronic Engineering
Abstract

Penetration testing is an effective method of making computers secure. When conducting penetration testing, it is necessary to fully understand the various elements in the cyberspace. Prediction of future cyberspace state through perception and understanding of cyberspace can assist defenders in decision-making and action execution. Accurate cyberspace detection information is the key to ensuring successful penetration testing. However, cyberspace situation awareness still faces the following challenges. Due to the limited detection capability, the information obtained from cyberspace detection intelligence is incomplete. There are some errors in the cyberspace detection intelligence, which may mislead the penetration testing workers. The knowledge graph can store and manage the cybersecurity data. In order to ensure the integrity and accuracy of cyberspace information, we design a knowledge graph completion model called CSNT to complete cybersecurity data. CSNT uses the BiLSTM to capture the interaction information between entities and relationships. It models the relationship between entities by combining the neural network and tensor decomposition. The Pearson Mix Net is designed to control the generation of joint vectors. We also design a novel self-distillation strategy to reduce catastrophic forgetting during model training. After learning the relationship pattern between entities in the cyberspace detection intelligence, the model can be used to mine the knowledge not found in the cybersecurity detection intelligence and correct the erroneous records. Experiments show that our method has certain advantages for the knowledge graph completion.

Published
2023
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27. A Cybersecurity Knowledge Graph Completion Method Based on Ensemble Learning and Adversarial Training

Author

Peng Wang, Jingju Liu, Dongdong Hou, and Shicheng Zhou

Subjects
Fluid Flow and Transfer Processes, cybersecurity knowledge graph, knowledge graph completion, ensemble learning, adversarial training, Process Chemistry and Technology, General Engineering, General Materials Science, Instrumentation, Computer Science Applications
Abstract

The application of cybersecurity knowledge graphs is attracting increasing attention. However, many cybersecurity knowledge graphs are incomplete due to the sparsity of cybersecurity knowledge. Existing knowledge graph completion methods do not perform well in domain knowledge, and they are not robust enough relative to noise data. To address these challenges, in this paper we develop a new knowledge graph completion method called CSEA based on ensemble learning and adversarial training. Specifically, we integrate a variety of projection and rotation operations to model the relationships between entities, and use angular information to distinguish entities. A cooperative adversarial training method is designed to enhance the generalization and robustness of the model. We combine the method of generating perturbations for the embedding layers with the self-adversarial training method. The UCB (upper confidence bound) multi-armed bandit method is used to select the perturbations of the embedding layer. This achieves a balance between perturbation diversity and maximum loss. To this end, we build a cybersecurity knowledge graph based on the CVE, CWE, and CAPEC cybersecurity databases. Our experimental results demonstrate the superiority of our proposed model for completing cybersecurity knowledge graphs.

Published
2022
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29. Low-temperature Cu/SiO2 hybrid bonding using a novel two-step cooperative surface activation

Author

Chenxi Wang, Yanhong Tian, Ge Li, Qiushi Kang, and Shicheng Zhou

Subjects
Interconnection, Materials science, business.industry, Plasma activation, Semiconductor device modeling, Oxide, Metal, Atomic layer deposition, chemistry.chemical_compound, chemistry, visual_art, Vertical direction, visual_art.visual_art_medium, Optoelectronics, business, Flip chip
Abstract

Compared with continuous node scaling in a two-dimensional (2D) plane, advanced three-dimensional (3D) integration finds a new pathway to expand Moore's Law in the vertical direction. The essence of advanced 3D integration technology relies on the dense vertical interconnection, and state-of-the-art metal/oxide hybrid bonding provides such an ideal fine-pitch structure (≤ 1 µm) by eliminating microbump and underfill. Of the various hybrid bonding platform, Cu/SiO 2 hybrid bonding structure is the most promising candidate due to the excellent electrical and mechanical properties of Cu and SiO 2 , respectively. However, the feasible Cu/SiO 2 hybrid bonding technology often requires high temperature (-400°C) currently, which is not desirable for temperature-sensitive chips. Here, we develop a novel two-step cooperative surface activation method to overcome this bottleneck. Based on the combination of plasma activation and acid treatment of this cooperative surface activation, the atomic smooth Cu and SiO 2 surface with hydrophilic layers were obtained, and the strong homogeneous bonding of Cu-Cu and SiO 2 -SiO 2 was realized at 200°C. Eventually, the Cu/SiO 2 hybrid bonding device was successfully achieved, which void-free and atomically interconnected Cu-Cu, SiO 2 -SiO 2 , and even Cu-SiO 2 interfaces were obtained simultaneously. This hybrid bonding structure realized by cooperative surface activation brings unprecedented 3D integration feasibility and flexibility.

Published
2021
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30. The dual delivery of growth factors and antimicrobial peptide by PLGA/GO composite biofilms to promote skin-wound healing

Author

Ziyan Zhang, Shicheng Zhou, Dankai Wu, Xiao-Yu Yang, and Yanzhe Zhang

Subjects
Basic fibroblast growth factor, Composite number, Biofilm, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, PLGA, chemistry, In vivo, Materials Chemistry, Surface modification, 0210 nano-technology, Wound healing, Antibacterial activity, Biomedical engineering
Abstract

Biodegradable biomaterials coated with active factors are effective medical devices to promote wound healing. However, the current strategies of adding active factors generally cause the degradation of biomaterials or damage to the bioactivity of the active factors. In this study, aimed at developing a simple strategy for promoting the surface-active factor functionalization of biomaterials, graphene oxide (GO) was chosen as an adhesive polymeric bridge-layer between the substrate poly(lactide-co-glycolide) (PLGA), ponericin G1, and basic fibroblast growth factor (bFGF). The surface morphology, physical properties, hydrophilicity, cytocompatibility, and antibacterial activity of the resultant composite biofilms were studied. According to the results obtained, the ponericin G1 and bFGF-grafted PLGA/GO composite biofilms (bFGF/ponericin G1@PLGA/GO) showed improved mechanical properties, excellent hydrophilicity, good compatibility, and effective antibacterial activity. Finally, the effect of the bFGF/ponericin G1@PLGA/GO composite biofilms on wound healing was investigated on a rat full-thickness skin wound model. In vivo wound closure and histological and immunofluorescence evaluations revealed that the bFGF/ponericin G1@PLGA/GO composite biofilms could effectively accelerate wound healing and exhibit a lower inflammatory reaction. Hence, the above-mentioned results suggest that the bFGF/ponericin G1@PLGA/GO composite biofilms may have huge potential in biomedical and skin-wound repair applications.

Published
2020
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31. Mechanical analysis of femoral stress-riser fractures

Author

Seungyun Jung, Shicheng Zhou, and Jihyo Hwang

Subjects
Adult, Male, Adolescent, Fractures, Stress, Bone Screws, Perforation (oil well), Osteoporosis, Biophysics, Bone Nails, Weight-Bearing, Fracture Fixation, Internal, Young Adult, 03 medical and health sciences, Femoral head, 0302 clinical medicine, Risk Factors, medicine, Humans, Orthopedics and Sports Medicine, Femur, Aged, Retrospective Studies, Stress concentration, Aged, 80 and over, Orthodontics, business.industry, Bone Cements, 030229 sport sciences, Middle Aged, medicine.disease, Biomechanical Phenomena, medicine.anatomical_structure, Fracture (geology), Female, Cortical bone, Stress, Mechanical, Implant, business, Femoral Fractures, 030217 neurology & neurosurgery
Abstract

Background A stress-riser fracture develops when stress in an object is higher than that in the surrounding material. The aim of this retrospective study was to evaluate all consecutive femoral stress-riser fractures during a period of >10 years and to verify high-risk factors by using mechanical analysis. Methods Forty clinical fractures caused by local stress concentration in the femoral cortical bone were included. Risk factors were analyzed, and Sawbones models were used to verify their effect. One hundred thirty-six models were divided into 6 groups to simulate clinical cases of stress-riser fractures. A dynamic test instrument was used to simulate weight-bearing on the femoral head by continuous application of increasing axial force; the lever arm was applied at a constant speed of 0.1 mm/s until a fracture developed. Results Female gender (57.5%), subtrochanteric area (40%), osteoporosis (40%), and technical or surgical errors (50%) were risk factors for stress-riser fractures in clinical analysis. Cortical perforation, tiny cracks, sharp corners, and changes in hardness were the main risk factors in biomechanical aspects. Mechanical analysis identified that these factors contributed to stress-riser fractures (P = 0.000), especially cortical perforations and sharp corners. Conclusion A cortical perforation (screw hole), tiny crack (fracture line), sharp corner (bone cut), and change in hardness (tip of an implant or cement) can act as a stress riser. Screw holes are the most common and critical contributor to femoral stress-riser fractures.

Published
2019
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32. Improved Deep Recurrent Q-Network of POMDPs for Automated Penetration Testing

Author

Yue Zhang, Jingju Liu, Shicheng Zhou, Dongdong Hou, Xiaofeng Zhong, and Canju Lu

Subjects
Fluid Flow and Transfer Processes, Process Chemistry and Technology, General Engineering, General Materials Science, automated penetration testing, deep reinforcement learning, POMDP, LSTM, Instrumentation, Computer Science Applications
Abstract

With the development of technology, people’s daily lives are closely related to networks. The importance of cybersecurity protection draws global attention. Automated penetration testing is the novel method to protect the security of networks, which enhances efficiency and reduces costs compared with traditional manual penetration testing. Previous studies have provided many ways to obtain a better policy for penetration testing paths, but many studies are based on ideal penetration testing scenarios. In order to find potential vulnerabilities from the perspective of hackers in the real world, this paper models the process of black-box penetration testing as a Partially Observed Markov Decision Process (POMDP). In addition, we propose a new algorithm named ND3RQN, which is applied to the automated black-box penetration testing. In the POMDP model, an agent interacts with a network environment to choose a better policy without insider information about the target network, except for the start points. To handle this problem, we utilize a Long Short-Term Memory (LSTM) structure empowering agent to make decisions based on historical memory. In addition, this paper enhances the current algorithm using the structure of the neural network, the calculation method of the Q-value, and adding noise parameters to the neural network to advance the generalization and efficiency of this algorithm. In the last section, we conduct comparison experiments of the ND3RQN algorithm and other recent state-of-the-art (SOTA) algorithms. The experimental results vividly show that this novel algorithm is able to find a greater attack-path strategy for all vulnerable hosts in the automated black-box penetration testing. Additionally, the generalization and robustness of this algorithm are far superior to other SOTA algorithms in different size simulation scenarios based on the CyberBattleSim simulation developed by Microsoft.

Published
2022
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34. Low-temperature direct and indirect bonding using plasma activation for 3D integration

Author

Qiushi Kang, Chenxi Wang, Xiaoyun Qi, and Shicheng Zhou

Subjects
Fabrication, Materials science, Chemical engineering, Silicon, chemistry, Wafer bonding, Plasma activation, technology, industry, and agriculture, Sintering, chemistry.chemical_element, Direct bonding, Substrate (electronics), Inductively coupled plasma
Abstract

In this study, plasma activation is demonstrated as a surface activation method in SiCOI (SiC-on-insulator) substrate fabrication, silicon-based wafer bonding, and pressure-less Ag nanopaste sintering for 3D integration. Oxygen inductive coupled plasma (ICP) shows high efficiency in organic removal and surface activation, which not only achieves a tight and reliable direct bonding but also serves for pressure-less sintering of Ag nanopaste by pre-decomposing the organic components. The oxygen plasma activation has exerted its multi-functional nature and excellent performance in both direct and indirect bonding methods. We believe that the plasma activation has sufficient potential as a versatile and efficient approach for heterogeneous integration and high-density packaging.

Published
2020
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37. Communication—Hollow MnO x @Nanoparticles Electrospun Fibers with High Porosity for Formaldehyde Removal at Room Temperature

Author

Shicheng Zhou, Chenxi Wang, Hui Fang, Daoyuan Li, Yu Du, and Xiaoyun Qi

Subjects
Renewable Energy, Sustainability and the Environment, Materials Chemistry, Electrochemistry, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Abstract

MnO x nanomaterials are regarded as promising catalysts for degrading formaldehyde (HCHO). However, the catalytic nanoparticles (NPs) suffer from the catalysis performance and stability loss due to their weak combination with the substrates and easy-aggregation nature. Herein, we develop a facile method to synthesize hollow porous MnO x @NPs fibers via electrospinning and two-step oxidation. The NPs, e.g., TiO2 and SnO2, can be efficiently loaded into MnO x fibers’ inner frame through a simple dispersion process. The hollow porous structures obtained through two-step oxidation increase the HCHO removal efficiency by 8 times, while MnO x @SnO2 fibers exhibit the enhanced catalytic performance by 23.0% more.

Published
2022
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38. Autonomous Penetration Testing Based on Improved Deep Q-Network

Author

Yue Zhang, Jingju Liu, Dongdong Hou, Shicheng Zhou, and Xiaofeng Zhong

Subjects
reinforcement learning, Technology, cybersecurity, QH301-705.5, Computer science, QC1-999, DQN algorithm, penetration testing, Convergence (routing), Reinforcement learning, General Materials Science, Biology (General), QD1-999, Instrumentation, Fluid Flow and Transfer Processes, Artificial neural network, business.industry, Physics, Process Chemistry and Technology, General Engineering, Estimator, Engineering (General). Civil engineering (General), Computer Science Applications, Chemistry, Range (mathematics), Subject-matter expert, Action (philosophy), Artificial intelligence, Markov decision process, TA1-2040, business
Abstract

Penetration testing is an effective way to test and evaluate cybersecurity by simulating a cyberattack. However, the traditional methods deeply rely on domain expert knowledge, which requires prohibitive labor and time costs. Autonomous penetration testing is a more efficient and intelligent way to solve this problem. In this paper, we model penetration testing as a Markov decision process problem and use reinforcement learning technology for autonomous penetration testing in large scale networks. We propose an improved deep Q-network (DQN) named NDSPI-DQN to address the sparse reward problem and large action space problem in large-scale scenarios. First, we reasonably integrate five extensions to DQN, including noisy nets, soft Q-learning, dueling architectures, prioritized experience replay, and intrinsic curiosity model to improve the exploration efficiency. Second, we decouple the action and split the estimators of the neural network to calculate two elements of action separately, so as to decrease the action space. Finally, the performance of algorithms is investigated in a range of scenarios. The experiment results demonstrate that our methods have better convergence and scaling performance.

Published
2021
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39. Percutaneous thermal ablation of hepatocellular carcinoma in the older population

Author

Terrence Chi Hong Hui, Uei Pua, and Shicheng Zhou

Subjects
medicine.medical_specialty, Percutaneous, Carcinoma, Hepatocellular, business.industry, Liver Neoplasms, Thermal ablation, MEDLINE, medicine.disease, Older population, Treatment Outcome, Oncology, Hepatocellular carcinoma, Catheter Ablation, Medicine, Humans, Radiology, Geriatrics and Gerontology, Neoplasm Recurrence, Local, business
Published
2019

40. Fabrication of SiC-on-insulator substrate via a low-temperature plasma activated bonding process

Author

Shicheng Zhou, Qiushi Kang, Rong An, Jikai Xu, Chenxi Wang, and Yanhong Tian

Subjects
Materials science, Fabrication, Annealing (metallurgy), business.industry, Plasma activation, Insulator (electricity), Direct bonding, chemistry.chemical_compound, chemistry, Silicon carbide, Optoelectronics, Plasma-activated bonding, Wafer, business
Abstract

Silicon carbide is well known as a compelling third-generation semiconductor material. SiC-on-insulator substrate performs superior electronic isolation and operates as a high-speed and high-power platform. In contrast to existing manufacturing methods, there is an urgent need for a low temperature process with lower interfacial stress and high quality. Wafer direct bonding has been developed for many years because this technology enables composite structures regardless of material. However, the bonded sample should anneal to further improve the strength. The interfacial stress caused by high temperature is still unsolved. Plasma activated bonding is known as a method that requires a lower annealing process. Here, we adopt O 2 plasma activation as a pre-treatment and bond hydrophilic surfaces at room temperature. Furthermore, we designed a step annealing curve to reduce the maximum temperature to 200 °C while ensuring bonding strength. A uniform and defect-free bonding interface can be observed by transmission electron microscopy. This technique is suitable for fabricating high quality SiC-on-insulator platforms for optoelectronic devices.

Published
2019
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41. Puerarin improves intestinal barrier function through enhancing goblet cells and mucus barrier

Author

Zhenjiang Xu, Yafei Li, Zheng Ruan, Li Zhang, Yuhuan Liu, Jiaojiao Li, Shicheng Zhou, Tao Wu, Yi Wu, and Hua Feng

Subjects
0301 basic medicine, Medicine (miscellaneous), Vasodilation, Butyrate, Pharmacology, digestive system, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Puerarin, TX341-641, Intestinal barrier, Barrier function, Goblet cells, 030109 nutrition & dietetics, Nutrition and Dietetics, biology, Nutrition. Foods and food supply, Mucin, Akkermansia, 04 agricultural and veterinary sciences, Isoflavones, biology.organism_classification, 040401 food science, Mucus, chemistry, Indole-3-propionic acid, Food Science
Abstract

Puerarin is a kind of isoflavones in Puerariae Lobatae Radix with physiological activities, such as anti-inflammatory and vasodilatory activities. The aim of this study was to investigate the effects of puerarin on intestinal barrier dysfunction induced by 2,4,6 trinitrobenzene sulfonic acid (TNBS) and its underlying mechanism. Puerarin treatment attenuated the mucus barrier dysfunction, and increased the level of mucins (Muc2 and Muc4) and the number of goblet cells compared to TNBS group. Puerarin treatment significantly increased the content of indole-3-propionic acid, compared to TNBS group, and not indoleacrylic acid and butyrate. Puerarin treatment changed the structure of the commensal microbiota as evidenced by the obvious decrease in the relative abundances of Bacteroidetes. Additionally, puerarin increased the proportion of the mucin-utilizing bacterium Akkermansia. Puerarin improves intestinal barrier function through enhancing goblet cells and mucus barrier. Food enriched with puerarin could protect and repair intestinal barrier for improving gut health.

Published
2020
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43. Enhanced adhesion and anticorrosion of silk fibroin coated biodegradable Mg-Zn-Ca alloy via a two-step plasma activation

Author

Tadatomo Suga, Chenxi Wang, Hui Fang, Tian Lu, Yanhong Tian, Zhen Zheng, Shicheng Zhou, and Ge Li

Subjects
Materials science, 020209 energy, General Chemical Engineering, Plasma activation, Alloy, Fibroin, 02 engineering and technology, General Chemistry, Adhesion, engineering.material, 021001 nanoscience & nanotechnology, Corrosion, Chemical engineering, Coating, 0202 electrical engineering, electronic engineering, information engineering, engineering, General Materials Science, Magnesium alloy, 0210 nano-technology, Layer (electronics)
Abstract

Based on a two-step plasma surface activation process (O2 followed by N2 plasma), silk fibroin coating was prepared on Mg-Zn-Ca alloy without conversion layer to retard the corrosion. This method achieved homogenized surfaces with better hydrophilicity and increased functional groups, significantly improving the adhesion force. The corrosion resistance of coated magnesium alloy was significantly enhanced compared to that of bare samples. Nanoscratch combined with corrosion behavior indicated that the remarkably improvement of anticorrosion ability attributed to the protective layer and the increased adhesion force. Our findings provided more possibilities for corrosion protection of degradable metals.

Published
2020
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44. VUV/O3 activated bonder for low-temperature direct bonding of Si-based materials

Author

Jikai Xu, Chenxi Wang, Bin Wu, Xiaoyun Qi, Shicheng Zhou, and Yanhong Tian

Subjects
010302 applied physics, Materials science, Silicon, Annealing (metallurgy), chemistry.chemical_element, 02 engineering and technology, Direct bonding, 021001 nanoscience & nanotechnology, 01 natural sciences, Contact angle, Vacuum ultraviolet, chemistry, Transmission electron microscopy, 0103 physical sciences, Surface roughness, Wetting, Composite material, 0210 nano-technology
Abstract

Direct bonding at low temperature is an attractive technology for joining dissimilar materials without large thermal stress. Vacuum ultraviolet (VUV) activation is an effective way for surface cleaning with less damage. Meanwhile, the obtained hydrophilic surfaces are also beneficial for the direct bonding. In this paper, we developed a VUV/O3 activated bonder for the direct bonding of Si-based materials at low temperature. High bonding strength for Si/glass and glass/glass bonded pairs was achieved after annealing at 200 oC. Atomic force microscopy (AFM) and water contact angle tester were conducted to analyze effects of VUV on surface roughness and wettability. Si-Si, Si-glass and glass-glass bonding interfaces were also observed by transmission electron microscopy (TEM). Defect-free and tight interfaces of Si/Si and Si/glass were obtained. However, the glass/glass bonding interface was full of microvoids which can be attributed to the less deformation of subsurfaces during the annealing process. Moreover, based on the surface and interface studies, bonding mechanisms for Si-based materials direct bonding via VUV activation was discussed.

Published
2018
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45. Pressureless low-temperature sintering of plasma activated Ag nanoparticles for high-power device packaging

Author

Te Wang, Shicheng Zhou, Chenxi Wang, Yilong Huang, Yanhong Tian, Hui Fang, and Hong Wang

Subjects
Materials science, Mechanical Engineering, Plasma activation, Sintering, Nanoparticle, 02 engineering and technology, Plasma, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Microstructure, 01 natural sciences, 0104 chemical sciences, Power (physics), Thermal conductivity, Chemical engineering, Mechanics of Materials, Shear strength, General Materials Science, 0210 nano-technology
Abstract

A controllable plasma-activated method to achieve pressureless sintering of Ag nanoparticles is proposed for low-temperature bonding. O2 plasma activation is employed to effectively decompose organics coated on the nanoparticles prior to sintering, avoiding the loose interfacial microstructures. Therefore, robust bonding Cu-Cu joints with high shear strength (>20 MPa) can be formed at a low temperature of 200 °C without requiring additional pressure. This rapid and controllable activation method significantly enhances the sinterability of the Ag particles, leading to a dense microstructure. The improved thermal conductivity is three times higher than the one prepared without plasma activation.

Published
2019
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46. Moiré-Based Alignment Using Centrosymmetric Grating Marks for High-Precision Wafer Bonding

Author

Chenxi Wang, Hui Fang, Boyan Huang, Tadatomo Suga, and Shicheng Zhou

Subjects
Materials science, Opacity, measurement range, Wafer bonding, lcsh:Mechanical engineering and machinery, Stacking, wafer bonding, 02 engineering and technology, Grating, moiré fringe, Article, alignment mark, 020210 optoelectronics & photonics, Optics, Dimension (vector space), Hardware_INTEGRATEDCIRCUITS, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TJ1-1570, Wafer, Electrical and Electronic Engineering, alignment accuracy, business.industry, Mechanical Engineering, Moiré pattern, 021001 nanoscience & nanotechnology, centrosymmetric grating, Control and Systems Engineering, 0210 nano-technology, business
Abstract

High-precision aligned wafer bonding is essential to heterogeneous integration, with the device dimension reduced continuously. To get the alignment more accurately and conveniently, we propose a moir&eacute, based alignment method using centrosymmetric grating marks. This method enables both coarse and fine alignment steps without requiring additional conventional cross-and-box alignment marks. Combined with an aligned wafer bonding system, alignment accuracy better than 300 nm (3&sigma, ) was achieved after bonding. Furthermore, the working principle of the moir&eacute, based alignment for the backside alignment system was proposed to overcome the difficulty in bonding of opaque wafers. We believe this higher alignment accuracy is feasible to satisfy more demanding requirements in wafer-level stacking technologies.

Published
2019
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47. Failure of a Rotation Control Gamma 3 Lag Screw Used to Treat a Trochanteric Fracture

Author

Jihyo Hwang, Shicheng Zhou, Kyung-Ho Choi, and Yong Tae Kim

Subjects
musculoskeletal diseases, Orthodontics, 030222 orthopedics, Proximal femur, business.industry, medicine.medical_treatment, Case Report, Lag screw, musculoskeletal system, 03 medical and health sciences, 0302 clinical medicine, Fracture (geology), Medicine, Internal fixation, Orthopedics and Sports Medicine, Surgery, 030212 general & internal medicine, Gamma 3 nail, business, Rotation control, Reduction (orthopedic surgery), Trochanteric fracture
Abstract

Gamma 3 rotation control lag screws (U-blade) are particularly useful when treating rotational and unstable fractures of the proximal femur. A 93-year-old woman who underwent closed reduction of a trochanteric fracture and internal fixation with a Gamma 3 nail rotation control lag screw. The patient presented with metal failure and U-blade bending following a fall occurring 4 weeks after surgery. Here, we present a case report summarizing removal of the failed lag screw.

Published
2018
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48. Hardware-in the-loop Simulation of Process Control Based on OPC Technology and MATLABSIMULINK

Author

Bin Yang, Dongsheng Chen, Yijia Zhang, Cheng Liang, Qingsong Meng, Hao Liu, and Shicheng Zhou

Subjects
SIMPLE (military communications protocol), business.industry, Computer science, Process (computing), Hardware-in-the-loop simulation, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Control engineering, Set (abstract data type), Software, Data acquisition, Embedded system, Process control, business, MATLAB, computer, computer.programming_language
Abstract

The degree of the application of Matlab/Simulink Software will be greatly enhanced when the Hardware-in-the-loop Simulation on the basis of Matlab/Simulink is exerted. This paper has applied the technology of OPC to establish communication between simulink and the data acquisition card, and developed a new set of Hardware-in-the-loop Simulation system with the original experimental devices as its controlled object. This system can facilitate the achievement of the controlling structure in the process of various control and the complex control algorithms. It has been proved that through the experiment that method is simple, of low price and can be applied universally.

Published
2014
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49. A novel jamming signal generation method for deceptive SAR jammer

Author

Qingyang Sun, Bin Tang, Wenxian Yu, Ting Shu, and Shicheng Zhou

Subjects
Synthetic aperture radar, Early-warning radar, Computer science, Pulse-Doppler radar, Real-time computing, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Jamming, Side looking airborne radar, Radar lock-on, law.invention, Continuous-wave radar, Inverse synthetic aperture radar, Man-portable radar, Monopulse radar, law, Radar jamming and deception, Radar imaging, 3D radar, Digital radio frequency memory, Radar, Electronic warfare, Electronic counter-countermeasures, Remote sensing
Abstract

In this paper, a novel deceptive jamming signal generation method against the space-borne Synthetic Aperture Radar (SAR) is proposed for the electronic warfare (EW) system. By using the off-line parallel computing for jamming modulation function in the distributed sub-scenes, the proposed algorithm can highly reduce the computation burden of extended scenes for real-time deceptive jamming. The measured data from an experimental jammer system and the simulation results are used to demonstrate the performance of the proposed method. It is shown that the proposed method provides reliable jamming performance and can be implemented in real-time application.

Published
2014
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50. Multi-Slice Computer Tomography Dynamic Enhanced Expression and Clinical Significance of Hepatic Perfusion Abnormalities

Author

Shicheng Zhou and Jiangwei Shi

Subjects
Pharmacology (medical)
Abstract

Objective: To investigate the imaging features and clinical significance of the dynamic enhanced CT perfusion of the liver. Method: 112 cases of hepatic perfusion disorders were collected, including 22 cases of hepatocellular carcinoma with tumor thrombus, 12 cases of bile duct carcinoma, 16 cases of cholangitis, 31 cases of hemangioma, 10 cases of liver cirrhosis and liver laceration injury in 5 cases, 16 cases of liver abscess, all cases were surgically or clinically confirmed. All cases were performed with three phase enhanced scanning, and the images were loaded into the PACS system. Results: In 26 cases, 76 cases with patchy enhancement around the focus were shown in 10 cases with patchy enhancement. Arterial phase was in 47 cases, 12 cases with high perfusion, and 53 cases with high perfusion. Conclusion: Correct understanding of liver perfusion abnormalities in the diagnosis of lesions and reduce the true extent of the lesion is important.

Published
2014
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