Your search keyword '"Yuanfei Gao"' showing total 16 results

1. S/N Co-Doped Ultrathin TiO2 Nanoplates as an Anode Material for Advanced Sodium-Ion Hybrid Capacitors

Author

Yuzhu Li, Qing Lan, Yuanfei Gao, Dan Zhang, Guangyin Liu, and Jinbing Cheng

Subjects

sodium-ion capacitors, TiO2 nanoplates, sulfur and nitrogen co-doping, high electrochemical kinetics, Organic chemistry, QD241-441

Abstract

Anatase titanium dioxide (TiO2) has emerged as a potential anode material for sodium-ion hybrid capacitors (SICs) in terms of its nontoxicity, high structure stability and cost-effectiveness. However, its inherent poor electrical conductivity and limited reversible capacity greatly hinder its practical application. Here, ultrathin TiO2 nanoplates were synthesized utilizing a hydrothermal technique. The electrochemical kinetics and reversible capacity were significantly improved through sulfur and nitrogen co-doping combined with carbon coating (SN-TiO2/C). Sulfur and nitrogen co-doping generated oxygen vacancies and introduced additional active sites within TiO2, facilitating accelerated Na-ion diffusion and enhancing its reversible capacity. Furthermore, carbon coating provided stable support for electron transfer in SN-TiO2/C during repeated cycling. This synergistic strategy of sulfur and nitrogen co-doping with carbon coating for TiO2 led to a remarkable capacity of 335.3 mAh g−1 at 0.1 A g−1, exceptional rate property of 148.3 mAh g−1 at 15 A g−1 and a robust cycling capacity. Thus, the SN-TiO2/C//AC SIC delivered an impressive energy density of 177.9 W h kg−1. This work proposes an idea for the enhancement of reaction kinetics for energy storage materials through a synergistic strategy.

Published

2024

2. Selective N-formylation of amines and carbon dioxide through the utilization of Nd2Sn2O7 supported by Ar-g-C3N4 on dendritic filamentous nanotitanium

Author

Yuanfei Gao, Panpan Rong, Zhaoxia Si, Mengye Zhou, and Seyed Mohsen Sadeghzadeh

Subjects

Photoreduction, Heterogeneous catalyst, Alkanolamines, Formylation, UV-Vis irradiation, N- nanoparticles, Technology

Abstract

Nd2Sn2O7 NPs were synthesized by employing a straightforward synthetic method along with aromatic ring-doped g-C3N4 nanosheets loaded onto dendritic filamentous nanotitanium (DFNT/Ar-g-C3N4@Nd2Sn2O7). The inclusion of DFNT in this process was found to offer an abundance of O-H groups for the uniform charging of g-C3N4 through chemical bonding interaction. The topography and mesoporous anatomy of the DFNT/Ar-g-C3N4@Nd2Sn2O7 composite remained unchanged upon Ar-g-C3N4@Nd2Sn2O7 loading, indicating the sustained crystalline shape. This extraordinary catalyst exhibits a noteworthy capacity in facilitating the N-formylation reaction by establishing N-C bonds through the reaction between amine and carbon dioxide, all while conforming to environmentally favourable circumstances. Here, the DFNT/Ar-g-C3N4@Nd2Sn2O7 photocatalyst was synthesized utilizing a solvothermal approach for the N-formylation of N-methylaniline. The main products obtained were mono-N-formylated compounds, with favourable to excellent yields for all amines. Lastly, an explanation for the reaction between amine and carbon dioxide is put forward by conducting control experiments and verifying spectra.

Published

2024

3. The effect of initial pressure on the thermal behavior of the silica aerogel/PCM/CuO nanostructure inside a cylindrical duct using molecular dynamics simulation

Author

Yuanfei Gao, Ali Basem, S. Mohammad Sajadi, Dheyaa J. Jasim, Navid Nasajpour-Esfahani, Soheil Salahshour, Shadi Esmaeili, and Sh. Baghaei

Subjects

Phase change materials, Silica aerogel, Initial pressure, Molecular dynamics simulation, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Amidst escalating fuel expenses and growing concerns over greenhouse gas pollution, the adoption of renewable alternative energy sources has become increasingly imperative. In response, scientists are fervently dedicated to identifying energy-saving solutions that are readily adaptable. Notably, silica aerogels have demonstrated remarkable efficacy in temperature management under both hot and cold conditions, while phase change materials are renowned for their capacity to store thermal energy. The study examines the effect of initial pressure on the thermal performance of silica aerogel/PCM/CuO nanostructure in a cylindrical duct. This was investigated using MD simulations and the LAMMPS software. The study will investigate several elements, such as density, velocity, temperature patterns, heat flux, thermal conductivity, and charge time or discharge time of the simulated structure. According to the results, with an increase in the initial pressure, the maximum density increases from 0.0838 atom/Å3 to 0.0852 atom/Å3, and the maximum velocity decreases from 0.0091 Å/fs to 0.0081 Å/fs. Also, the findings show that, by increasing the initial pressure, the temperature decreases from 931.42 K to 895.63 K, and thermal conductivity and heat flux decrease to 1.56 W/m.K and 56.66 W/m2 with increasing the initial pressure to 5 bar. Finally, the results show that charging time increases to 6.34 ns at 5 bar. The increase in charging time with increasing initial pressure may be attributed to the reduced mobility of particles within the structure as a result of the higher pressure. The findings of this study can help for a better understanding of energy-saving solutions, advanced thermal management systems, and the design of efficient energy storage technologies tailored to specific pressure-related operating conditions.

Published

2024

4. Research and analysis of environmental legal compensation mechanisms related to waste incineration in the context of 'double carbon'

Author

Yuanfei Gao and Ruosu Gao

Subjects

environmental monitoring, compensation scheme, analytic hierarchy process, elevated continuous point source diffusion model, carbon neutrality, double carbon, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

In the context of “double carbon,” waste disposal has become a critical issue so far, and how to deal with it is the key to ensuring compliance with the double carbon target, the most practical treatment is still incineration, and how to establish the site selection and legal compensation mechanism is crucial. This paper establishes an environmental dynamic monitoring system for waste incineration power plants based on the Gaussian model and successfully solves the health risk of surrounding residents. Regarding the economic compensation issues, we first applied the AHP to analyze the pollutants comprehensively, constructed the judgment matrix, and conducted a consistency test, determined the weight of each index, and integrated various emissions into one pollutant, which is convenient for the concentration of pollutants. Then, by taking into account the effects of wind direction, rainfall, topography, and other factors on the diffusion of pollutants, we calculated the pollutants around the waste incineration power plant site based on the “elevated continuous point source” “diffusion model.” To obtain the concentration distribution, monitoring points were set up at representative locations, and the environmental monitoring system of the waste incineration power plant was established. Finally, Matlab software was used to draw the contour map of pollutant concentration, and the concentration level of pollutants was divided according to waste incineration. Given the income of the power plant, the economic level of the surrounding residents, the amount of compensation from the local government, and the pollution level, economic compensation plans for the surrounding residents were developed. Through analyzing the proposed compensation scheme, it can be known that the compensation scheme can satisfy the surrounding residents. The highlights of this paper can be described as follows: First, the analytic hierarchy process is used to comprehensively consider the pollutants, simplifying the establishment process of the model. Second, the pollutant concentration is graded, and the concentration equivalent map is drawn to make the monitoring point layout more representative. The economic compensation plan is more reasonable and more convincing to the public.

Published

2022

5. Effect of Processing Parameters on Wear Properties of Hybrid AA1050/Al2O3/TiO2 Composites

Author

Yuanfei Gao, Mohammad Heydari Vini, Saeed Daneshmand, Ameer A. Alameri, Omrane Benjeddou, and Raed H. C. Alfilh

Subjects

AA1050, campsites, TiO2, wear properties, aluminum, Crystallography, QD901-999

Abstract

In this study, hybrid AA1050/Al2O3/TiO2 composites have been produced via combined liquid casting and powder metallurgy techniques. Degassing was utilized to improve the wettability of molten aluminum alloys, and then successful bonding was generated between aluminum matrix and reinforcement particles during the powder metallurgy technique. As the base matrix and reinforcements, AA1050 alloy, Al2O3 and TiO2 particles were taken, respectively. Then, content values of 5Wt.% of Al2O3 in the mesh size of 20 μm and 2.5 and 5 wt. % of TiO2 particles with mesh size of 5μm were added to the AA1050 matrix. For each composite sample, ceramic particles were warmed to 600°C in order to improve wettability and distribution. An identical scattering of subdivisions was observed through aluminum (as matrix) in the microstructural study. To measure the wear resistance, the mechanism of rotary wear test was used. The achieved results illustrated that the fabrication of hybrid composites is an ideal approach to improve the wear resistance of Al-based composites. By increasing of TiO2 Wt.% up to 5% for all composite samples, the wear rate improved to less than half of the monolithic Al alloy value for each composite sample.

Published

2023

6. Single- and Twin-Photons Emitted from Fiber-Coupled Quantum Dots in a Distributed Bragg Reflector Cavity

Author

Xiangjun Shang, Shulun Li, Hanqing Liu, Xiangbin Su, Huiming Hao, Deyan Dai, Xiaoming Li, Yuanyuan Li, Yuanfei Gao, Xiuming Dou, Haiqiao Ni, and Zhichuan Niu

Subjects

InAs quantum dot, fine structure splitting, thermal stress, light hole level, photon pair, polarization correlation, Chemistry, QD1-999

Abstract

In this work, we develop single-mode fiber devices of an InAs/GaAs quantum dot (QD) by bonding a fiber array with large smooth facet, small core, and small numerical aperture to QDs in a distributed Bragg reflector planar cavity with vertical light extraction that prove mode overlap and efficient output for plug-and-play stable use and extensive study. Modulated Si doping as electron reservoir builds electric field and level tunnel coupling to reduce fine-structure splitting (FSS) and populate dominant XX and higher excitons XX+ and XXX. Epoxy package thermal stress induces light hole (lh) with various behaviors related to the donor field: lh h1 confined with more anisotropy shows an additional XZ line (its space to the traditional X lines reflects the field intensity) and larger FSS; lh h2 delocalized to wetting layer shows a fast h2–h1 decay; lh h2 confined shows D3h symmetric higher excitons with slow h2–h1 decay and more confined h1 to raise h1–h1 Coulomb interaction.

Published

2022

7. Analysis of amorphous structure with polycaprolactone-hydroxyapatite nanoparticles fabricated by 3D bioprinter technique for bone tissue engineering

Author

Yuanfei Gao, Ata Jahangir Moshayedi, Ehsan Sanatizadeh, Pouya Behfarnia, M. Karimzadeh Kolamroudi, D.T. Semirumi, and M.Y.P.M. Yusof

Subjects

Process Chemistry and Technology, Materials Chemistry, Ceramics and Composites, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2023

8. Effect of nano Al2O3 particles on the mechanical and wear properties of Al/Al2O3 composites manufactured via ARB

Author

Yuanfei Gao, Mohammad Heydari Vini, and Saeed Daneshmand

Subjects

General Materials Science, Condensed Matter Physics

Abstract

This study first tried to fabricate AA1060/Al2O3 composites via the stir casting and accumulative roll bonding process. Then, the effect of nano Al2O3 Vol% on mechanical, wear, and microstructural properties of these kinds of composites have been investigated. An excellent particle distribution through the aluminum matrix has been achieved after the fourth cycle. Then, mechanical properties, wear resistance, and microstructural properties have been investigated. The results showed that the strength of these composites was enhanced and the elongation of samples decreased by higher alumina Vol% contents. Also, there is a significant increase in wear resistance by increasing alumina content in the Al matrix through the stir casting process.

Published

2022

9. Controlled entanglement source for quantum cryptography

Author

Qiang Zeng, Haoyang Wang, Huihong Yuan, Yuanbin Fan, Lai Zhou, Yuanfei Gao, Haiqiang Ma, and Zhiliang Yuan

Subjects

Quantum Physics, General Physics and Astronomy, FOS: Physical sciences, Quantum Physics (quant-ph), Physics - Optics, Optics (physics.optics)

Abstract

Quantum entanglement has become an essential resource in quantum information processing. Existing works employ entangled quantum states to perform various tasks, while little attention is paid to the control of the resource. In this work, we propose a simple protocol to upgrade an entanglement source with access control through phase randomization at the optical pump. The enhanced source can effectively control all users in utilizing the entanglement resource to implement quantum cryptography. In addition, we show this control can act as a practical countermeasure against memory attack on device-independent quantum key distribution at a negligible cost. To demonstrate the feasibility of our protocol, we implement an experimental setup using just off-the-shelf components and characterize its performance accordingly., Comment: 9 pages, 7 figures, comments are welcome! Looking forward to collaborations!

Published

2023

10. Phonon-assisted upconversion photoluminescence of quantum emitters

Author

Yuanfei Gao, Jia-Min Lai, and Jun Zhang

Subjects

Materials Chemistry, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials

Abstract

Quantum emitters are widely used in quantum networks, quantum information processing, and quantum sensing due to their excellent optical properties. Compared with Stokes excitation, quantum emitters under anti-Stokes excitation exhibit better performance. In addition to laser cooling and nanoscale thermometry, anti-Stokes excitation can improve the coherence of single-photon sources for advanced quantum technologies. In this review, we follow the recent advances in phonon-assisted upconversion photoluminescence of quantum emitters and discuss the upconversion mechanisms, applications, and prospects for quantum emitters with anti-Stokes excitation.

Published

2023

11. Construction and Application of International Commercial Dispute Resolution Mechanism Model

Author

Yuanfei Gao and Yuan Liu

Subjects

Article Subject, Computer Networks and Communications, ComputingMilieux_LEGALASPECTSOFCOMPUTING, Information Systems

Abstract

In specific judicial practice, the ODR mechanism has played an important role in the settlement of e-commerce disputes and network disputes. However, ODR is still in the exploratory stage in many aspects, and it is inevitable that there will be some problems. This article focuses on the A priori algorithm and frequent pattern growth algorithm in association with rule mining learning. The shortcomings of A priori algorithm and frequent pattern growth algorithm are described and researched accordingly, and an improved algorithm for learning A priori association rules based on matrix is proposed. By analyzing the international commercial dispute resolution mechanism in the Internet era, this article constructs an international commercial dispute resolution mechanism platform. By analyzing the process of disputes in foreign trade e-commerce transactions, this article proposes a method to automatically capture gateway dispute information through automated management system tools to improve the efficiency of the gateway. The algorithm in this paper scans the transaction database only once, and according to the matrix structure, it performs the logical AND operation of the row vector representing the data item in the matrix, and it learns frequent item sets quickly and accurately. The entire process effectively reduces the time consumption and space occupation required for frequent item set learning. According to the effective measurement method of the association rules, the effective association rules are extracted from the frequent item set. Through the realization of functions such as allocation, viewing, dispute handling, and statistics in the management tool, the progress and processing efficiency of the gateway dispute handling can be effectively managed. In addition, this article gives the dispute handling process of the website itself, adds the process of automatic completion of disputes by buyers and sellers through agreements, and improves the tools of the CS manual handling management system. The data results show that the method in this paper greatly improves the efficiency of handling disputes in foreign trade e-commerce transactions.

Published

2022

12. Single- and Twin-Photons Emitted from Fiber-Coupled Quantum Dots in a Distributed Bragg Reflector Cavity

Author

Xiangjun Shang, Shulun Li, Hanqing Liu, Xiangbin Su, Huiming Hao, Deyan Dai, Xiaoming Li, Yuanyuan Li, Yuanfei Gao, Xiuming Dou, Haiqiao Ni, and Zhichuan Niu

Subjects

General Chemical Engineering, General Materials Science, InAs quantum dot, fine structure splitting, thermal stress, light hole level, photon pair, polarization correlation, single-mode fiber coupling

Abstract

In this work, we develop single-mode fiber devices of an InAs/GaAs quantum dot (QD) by bonding a fiber array with large smooth facet, small core, and small numerical aperture to QDs in a distributed Bragg reflector planar cavity with vertical light extraction that prove mode overlap and efficient output for plug-and-play stable use and extensive study. Modulated Si doping as electron reservoir builds electric field and level tunnel coupling to reduce fine-structure splitting (FSS) and populate dominant XX and higher excitons XX+ and XXX. Epoxy package thermal stress induces light hole (lh) with various behaviors related to the donor field: lh h1 confined with more anisotropy shows an additional XZ line (its space to the traditional X lines reflects the field intensity) and larger FSS; lh h2 delocalized to wetting layer shows a fast h2–h1 decay; lh h2 confined shows D3h symmetric higher excitons with slow h2–h1 decay and more confined h1 to raise h1–h1 Coulomb interaction.

Published

2021

13. Impact angle-constrained integrated guidance and control for supersonic skid-to-turn missiles using backstepping with global fast terminal sliding mode control

Author

Zhibing Li, Quanlin Dong, Xiaoyue Zhang, and Yuanfei Gao

Subjects

Aerospace Engineering

Published

2022

14. Synthesis of Si3N4 powder with tunable α/β-Si3N4 content from waste silica fume using carbothermal reduction nitridation

Author

Xiaowen Wu, Haipeng Ji, Minghao Fang, Zhaohui Huang, Yangai Liu, Wenjuan Li, Kai Chen, and Yuanfei Gao

Subjects

Materials science, Silica fume, General Chemical Engineering, Metallurgy, chemistry.chemical_element, Coke, Carbon black, Atmospheric temperature range, chemistry.chemical_compound, Chemical engineering, Silicon nitride, chemistry, Carbothermic reaction, Graphite, Carbon

Abstract

article i nfo Silicon nitride (Si3N4) powder with tunable α/β-Si3N4 relative contents was synthesized from waste silica fume using carbothermal reduction nitridation (CRN) at a relatively low temperature range of 1400-1500°C. The ef- fects of the carbon source, CRN temperature and raw materials ratio (Carbon-to-Silica fume) on phase assembly and micro-morphology of the products were investigated. Fabrication of α-Si3N4/β-Si3N4 from waste silica fume by CRN was achieved at temperatures as low as 1400°C. Carbon black was found to be more suitable than coke and graphite for use as the reductant. Elevated temperature was beneficial for the formation of β-Si3N4, whilst excessive carbon black promoted the formation of α-Si3N4. Thus, the α-Si3N4/β-Si3N4 relative contents could be effectively tailored by adjusting the CRN temperature and carbon concentration of the initial mixtures. In ad- dition, the bi-modal crystals of the whiskers and the short columns strongly influenced the morphologies of the product.

Published

2014

15. The Influence of Platelet-Like LaMgAl11O19on the Toughness of 3 mol% Yttria Partially Stabilized Zirconia Ceramic

Author

Meiling Hu, Tingting Qian, Yuanfei Gao, Minghao Fang, Zhaohui Huang, Chao Tang, Xin Min, Yangai Liu, and Fengjiao Liu

Subjects

Marketing, Toughness, Materials science, Fracture mechanics, Condensed Matter Physics, Microstructure, Fracture toughness, Flexural strength, visual_art, Materials Chemistry, Ceramics and Composites, visual_art.visual_art_medium, Cubic zirconia, Ceramic, Composite material, Yttria-stabilized zirconia

Abstract

LaMgAl11O19-3 mol% yttria partially stabilized zirconia ceramics were successfully prepared by pressureless sintering at 1550°C for 3 h. The ceramic's mechanical properties were measured, and the phase composition and microstructure observed using X-ray diffraction and scanning electron microscopy. The results show that the mechanical properties of the ceramic were initially improved on addition of LaMgAl11O19, but further additions were detrimental. When the amount of LMA added was equal to 2 wt.%, the bending strength and fracture toughness reached 812 ± 37 MPa and 14.0 ± 0.3 MPa·m1/2. This equates to an increase of 8.0% and 6.9% compared with untreated 3 mol% yttria partially stabilized zirconia (3YSZ) ceramic, respectively. However, the bending strength and fracture toughness both decreased when the amount of LaMgAl11O19 added was 4 and 6 wt.%. A crack propagation and force analysis of the crack tips in LaMgAl11O19-platelet-reinforced 3YSZ ceramic were also carried out. The results indicate that phase transformation and crack deflection were the dominant toughening mechanisms in the LaMgAl11O19-3YSZ ceramic. At the same time, energy dissipation by the LaMgAl11O19 platelets also helps to restrain crack propagation in the matrix, which improves toughness more effectively. © 2013 The American Ceramic Society.

Published

2013

16. Synthesis of Al8B4C7 ceramic powder from Al/B4C/C mixtures

Author

Minghao Fang, Yangai Liu, Saifang Huang, Xin Ouyang, Yuanfei Gao, and Zhaohui Huang

Subjects

Materials science, Scanning electron microscope, General Chemical Engineering, Metallurgy, chemistry.chemical_element, Sintering, Carbon black, Coke, Boron carbide, chemistry.chemical_compound, chemistry, Aluminium, visual_art, visual_art.visual_art_medium, Graphite, Ceramic, Nuclear chemistry

Abstract

Aluminium boron carbide (Al 8 B 4 C 7 ) ceramic powder was synthesized via a solid state reaction method using Al, B 4 C and graphite powders as raw materials. The effects of synthesis temperature, carbon source (graphite and coke powder) and raw materials ratio on the phase transformation and micro-morphology of Al 8 B 4 C 7 were investigated by means of X-ray diffraction (XRD) and scanning electron microscopy (SEM). The results indicated that the optimized process for preparing the Al 8 B 4 C 7 was 3 h sintering at 1600 °C in flowing argon atmosphere. Graphite was more appropriate than coke powder and carbon black as carbon source for synthesizing pure Al 8 B 4 C 7 , and 10 mol% excess of graphite resulted in higher purity of Al 8 B 4 C 7 . The stoichiometric amount of aluminium was essential for obtaining pure Al 8 B 4 C 7 , because second phase-Al 4 C 3 would occur if excessive aluminium was used.

Published

2012