Efficiency of a blue organic light-emitting diode enhanced by inserting charge control layers into the emission region 被引量：2

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作者 白娟娟 吴晓明 +7 位作者 华玉林 穆雪 毕文涛 苏跃举 焦志强 申利莹 印寿根 郑加金 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第4期504-507,共4页

We demonstrate high current efficiency of a blue fluorescent organic light-emitting diode （OLED） by using the charge control layers （CCLs） based on Alq3 . The CCLs that are inserted into the emitting layers （EMLs... We demonstrate high current efficiency of a blue fluorescent organic light-emitting diode （OLED） by using the charge control layers （CCLs） based on Alq3 . The CCLs that are inserted into the emitting layers （EMLs） could impede the hole injection and facilitate the electron transport, which can improve the carrier balance and further expand the exciton generation region. The maximal current efficiency of the optimal device is 5.89 cd/A at 1.81 mA/cm2 , which is about 2.19 times higher than that of the control device （CD） without the CCL, and the maximal luminance is 19.660 cd/m2 at 12V. The device shows a good color stability though the green light emitting material Alq3 is introduced as the CCL in the EML, but it has a poor lifetime due to the formation of cationic Alq3 species. 展开更多

关键词 organic light-emitting devices charge control layer current efficiency

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Review:Layer⁃Number Controllable Preparation of High⁃Quality Graphene for Wide Applications 被引量：2

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作者 Yun⁃Bin Xie Mei⁃Rong Huang Xin⁃Gui Li 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2020年第3期136-157,共22页

Graphene, a well-known two-dimensional(2 D) material, has sparked broad enthusiasm in both scientific and industrial communities in these years, due to its exceptional electrical, thermal, mechanical, and versatile pr... Graphene, a well-known two-dimensional(2 D) material, has sparked broad enthusiasm in both scientific and industrial communities in these years, due to its exceptional electrical, thermal, mechanical, and versatile properties. However, many properties and applications of graphene are layer-number dependent. The preparation of high-quality graphene with controlled layer numbers is full of challenge, since the layer number varies much with the synthesis routes and relevant experimental conditions. Hence, there is an urgent need to improve the layer-number controllability of graphene preparation. Generally, graphene can be prepared by two complementary approaches: "top-down" and "bottom-up". Since they have their own advantages, the recent advances in the layer-number tunable preparation of high-quality graphene are separately studied from the two aspects in this review, especially those dedicated to single parameter. Some effective strategies are discussed in detail, mainly including 1) supercritical-CO2 assisted sonication, electrochemical exfoliation of graphite intercalation compounds, and layer-by-layer thinning with plasma or laser, for "top-down" graphene;2) chemical vapor deposition(CVD) on dual-metal substrate, ion-implantation CVD, layer-by-layer CVD, plasma-enhanced CVD, layered-double-hydroxides template-assisted CVD;and 3) graphite-enclosure assisted epitaxial growth and pulsed-magnetron-sputtering assisted physical vapor deposition for "bottom-up" graphene on various substrates. In addition, the respective advantages of graphene with different layer numbers in properties and applications are also presented. Finally, the contribution concludes with some important perspectives on the remained challenges and future perspectives. 展开更多

关键词 GRAPHENE nanosheet preparation controllable layer number tunable morphology high quality graphene

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Dynamic analysis, simulation, and control of a 6-DOF IRB-120 robot manipulator using sliding mode control and boundary layer method 被引量：3

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作者 Mojtaba HADI BARHAGHTALAB Vahid MEIGOLI +2 位作者 Mohammad Reza GOLBAHAR HAGHIGHI Seyyed Ahmad NAYERI Arash EBRAHIMI 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第9期2219-2244,共26页

Because of its ease of implementation,a linear PID controller is generally used to control robotic manipulators.Linear controllers cannot effectively cope with uncertainties and variations in the parameters;therefore,... Because of its ease of implementation,a linear PID controller is generally used to control robotic manipulators.Linear controllers cannot effectively cope with uncertainties and variations in the parameters;therefore,nonlinear controllers with robust performance which can cope with these are recommended.The sliding mode control(SMC)is a robust state feedback control method for nonlinear systems that,in addition having a simple design,efficiently overcomes uncertainties and disturbances in the system.It also has a very fast transient response that is desirable when controlling robotic manipulators.The most critical drawback to SMC is chattering in the control input signal.To solve this problem,in this study,SMC is used with a boundary layer(SMCBL)to eliminate the chattering and improve the performance of the system.The proposed SMCBL was compared with inverse dynamic control(IDC),a conventional nonlinear control method.The kinematic and dynamic equations of the IRB-120 robot manipulator were initially extracted completely and accurately,and then the control of the robot manipulator using SMC was evaluated.For validation,the proposed control method was implemented on a 6-DOF IRB-120 robot manipulator in the presence of uncertainties.The results were simulated,tested,and compared in the MATLAB/Simulink environment.To further validate our work,the results were tested and confirmed experimentally on an actual IRB-120 robot manipulator. 展开更多

关键词 robot manipulator control IRB-120 robot sliding mode control sliding mode control with boundary layer inverse dynamic control

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Turbulent boundary layer control with a spanwise array of DBD plasma actuators 被引量：2

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作者 Yueqiang LI Chao GAO +4 位作者 Bin WU Yushuai WANG Haibo ZHENG Ming XUE Yuling WANG 《Plasma Science and Technology》 SCIE EI CAS CSCD 2021年第2期30-37,共8页

The turbulent boundary layer control on NACA 0012 airfoil with Mach number ranging from 0.3 to 0.5 by a spanwise array of dielectric barrier discharge(DBD)plasma actuators by hot-film sensor technology is investigated... The turbulent boundary layer control on NACA 0012 airfoil with Mach number ranging from 0.3 to 0.5 by a spanwise array of dielectric barrier discharge(DBD)plasma actuators by hot-film sensor technology is investigated.Due to temperature change mainly caused through heat produced along with plasma will lead to measurement error of shear stress measured by hot-film sensor,the correction method that takes account of the change measured by another sensor is used and works well.In order to achieve the value of shear stress change,we combine computational fluid dynamics computation with experiment to calibrate the hot-film sensor.To test the stability of the hot-film sensor,seven repeated measurements of shear stress at Ma=0.3 are conducted and show that confidence interval of hot-film sensor measurement is from−0.18 to 0.18 Pa and the root mean square is 0.11 Pa giving a relative error 0.5%over all Mach numbers in this experiment.The research on the turbulent boundary layer control with DBD plasma actuators demonstrates that the control makes shear stress increase by about 6%over the three Mach numbers,which is thought to be reliable through comparing it with the relative error 0.5%,and the value is hardly affected by burst frequency and excitation voltage. 展开更多

关键词 turbulent boundary layer control DBD plasma actuators hot-film sensor

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Turbulent boundary layer control with DBD plasma actuators 被引量：1

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作者 李跃强 武斌 +3 位作者 高超 郑海波 王玉帅 严日华 《Plasma Science and Technology》 SCIE EI CAS CSCD 2023年第4期184-194,共11页

The flat-plate turbulent boundary layer at Reτ=1140 is manipulated using a spanwise array of bidirectional dielectric barrier discharge(DBD)plasma actuators.Based on the features of no moving mechanical parts in the ... The flat-plate turbulent boundary layer at Reτ=1140 is manipulated using a spanwise array of bidirectional dielectric barrier discharge(DBD)plasma actuators.Based on the features of no moving mechanical parts in the DBD plasma control technology and hot-wire anemometer velocity measurements,a novel convenient method of local drag reduction(DR)measurement is proposed by measuring the single-point velocity within the linear region of the viscous sublayer.We analyze the premise of using the method,and the maximum effective measurement range of-73.1%<DR<42.2%is obtained according to the experimental environment in this work.The local drag decreases downstream of the center of two adjacent upper electrodes and increases downstream of the upper electrodes.The magnitude of the local DR increases with increasing voltage and decreases as it moves away from the actuators.For the spanwise position in between,the streamwise distribution of the local DR is very dependent on the voltage.The variable-interval time-average detection results reveal that all bursting intensities are reduced compared to the baseline,and the amount of reduction is comparable to the absolute values of the local DR.Compared with previous results,we infer that the control mechanism is that many meandering streaks are combined together into single stabilized streaks. 展开更多

关键词 turbulent boundary layer control DBD plasma actuators drag reduction measurement

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Optimizing intrinsic cocatalyst activity and light absorption efficiency for efficient hydrogen evolution of 1D/2D ReS_(2)-CdS photocatalysts via control of ReS_(2)nanosheet layer growth 被引量：2

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作者 Ghufran Aulia Bin Azizar Jong Wook Hong 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2024年第1期103-113,共11页

The visible-light-driven hydrogen evolution is extremely important,but the poor charge transfer capa-bility,a sluggish evolution rate of hydrogen,and severe photo-corrosion make photocatalytic hydrogen evolution impra... The visible-light-driven hydrogen evolution is extremely important,but the poor charge transfer capa-bility,a sluggish evolution rate of hydrogen,and severe photo-corrosion make photocatalytic hydrogen evolution impractical.In this study,we present 1D/2D ReS_(2)-CdS hybrid nanorods for photocatalytic hy-drogen evolution,comprised of a ReS_(2)nanosheet layer grown on CdS nanorods.We found that precise control of the contents of the ReS_(2)nanosheet layer allows for manipulating the electronic structure of Re in the ReS_(2)-CdS hybrid nanorods.The ReS_(2)-CdS hybrid nanorods with optimal ReS_(2)nanosheet layer content dramatically improve photocatalytic hydrogen evolution activity.Notably,photocatalytic hydro-gen evolution activity(64.93 mmol g^(−1)h^(−1))of ReS_(2)-CdS hybrid nanorods with ReS_(2)nanosheet layers(Re/Cd atomic ratio of 0.051)is approximately 136 times higher than that of pure CdS nanorods under visible light irradiation.Furthermore,intimated coupling of the ReS_(2)nanosheet layer with CdS nanorods reduced the surface trap-site of the CdS nanorods,resulting in enhanced photocatalytic stability.The de-tailed optical and electrical investigations demonstrate that the optimal ReS_(2)nanosheet layer contents in the ReS_(2)-CdS hybrid nanorods can provide improved charge transfer capability,catalytic activity,and light absorption efficiency.This study sheds light on the development of photocatalysts for highly efficient photocatalytic hydrogen evolution. 展开更多

关键词 Photocatalyst Hydrogen evolution reaction ReS_(2)-CdS heterostructure control of ReS_(2)nanosheet layer growth Optimization of cocatalyst activity and light absorption

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SEPARATION　CONTROL　FOR　THE　OUTWING　OF　A　STRAKE－WING　BY　ROTATING　CONE　PLACED　NEAR　THE　LEADING　EDGE

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作者 Lu Zhiyong (Beijing University of Aeronautics and Astronautics, Beijing, China, 100083) 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 1996年第2期79-85,共7页

Based on the research result on the strake-wing, when the size of a strakeis not large, there is a separation zone near the leading edge of the outwing of thestrake-wing at middle angles of attack. So the idea on sepa... Based on the research result on the strake-wing, when the size of a strakeis not large, there is a separation zone near the leading edge of the outwing of thestrake-wing at middle angles of attack. So the idea on separation control by rotating acone placed near the leading edge is presented. The cone surface consists of the part ofthe wing. The effect of rotating the cone on aerodynamic characteristics of thestrake-wing is investigated. The results show that a rotating surface could play an important role in controlling the flow separation for a 3-dimensional wing. For example,the relative increment in maximum lift coefficient attains 30%. The separation zone issuppressed to a certain extent. 展开更多

关键词 boundary layer control WINGS separated flow wind tunnel tests

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Contouring error modeling and simulation of a four-axis motion control system

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作者 张代林 张旭 +3 位作者 谢经明 袁楚明 陈幼平 汤漾平 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第1期141-149,共9页

A layered modeling method is proposed to resolve the problems resulting from the complexity of the error model of a multi-axis motion control system. In this model, a low level layer can be used as a virtual axis by t... A layered modeling method is proposed to resolve the problems resulting from the complexity of the error model of a multi-axis motion control system. In this model, a low level layer can be used as a virtual axis by the high level layer. The first advantage of this model is that the complex error model of a four-axis motion control system can be divided into several simple layers and each layer has different coupling strength to match the real control system. The second advantage lies in the fact that the controller in each layer can be designed specifically for a certain purpose. In this research, a three-layered cross coupling scheme in a four-axis motion control system is proposed to compensate the contouring error of the motion control system. Simulation results show that the maximum contouring error is reduced from 0.208 mm to 0.022 mm and the integration of absolute error is reduced from 0.108 mm to 0.015 mm, which are respectively better than 0.027 mm and 0.037 mm by the traditional method. And in the bottom layer the proposed method also has remarkable ability to achieve high contouring accuracy. 展开更多

关键词 layered modeling ship model machining motion control cross coupling control

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THE HYBRID CONTROL OF VIBRATION OF THIN PLATE WITH ACTIVE CONSTRAINED DAMPING LAYER

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作者 张希农 张景绘 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI 1998年第12期0-0,0-0+0-0+0-0+0-0+0-0+0-0+0-0,共16页

关键词 OI THE HYBRID control OF VIBRATION OF THIN PLATE WITH ACTIVE CONSTRAINED DAMPING LAYER

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Clean and tunable fabrication of ternary graphene-cobalt based promoter by chemical vapor deposition for lithium-sulfur batteries

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作者 Hua Gao Yunfeng Zhang +6 位作者 Chaoxu Hao Bo Zhao Menglei Wang Haina Ci Lixian Song Zhongyuan Lu Yingze Song 《Journal of Energy Chemistry》 2025年第8期194-202,共9页

Graphene-metal based materials have been utilized in lithium-sulfur(Li–S)batteries owing to their integrated functionalities thus far.However,their synthesis has predominantly relied on wet-chemistry routes,which lim... Graphene-metal based materials have been utilized in lithium-sulfur(Li–S)batteries owing to their integrated functionalities thus far.However,their synthesis has predominantly relied on wet-chemistry routes,which limited their practical activity in Li–S reaction systems.In this study,we introduce a chemical vapor deposition(CVD)-triggered dry-chemistry approach for the preparation of graphene-cobalt(Co)based catalysts.The versatile CVD technique provides a dry and controllable reaction environment,effectively pledging the compact and clean catalytic interfaces between graphene and Co-based components.Additionally,programmed reactions introduce defects such as vacancies and nitrogen heteroatoms into the catalysts.Notably,the graphene layer number and Co valence state can be delicately manipulated by altering the CVD reaction temperature.Specifically,few-layer graphene wrapped Co/Co_(3)O_(4)(FGr-Co/Co_(3)O_(4))prepared at 450 ℃ shows higher catalytic activity than the multi-layer graphene wrapped Co/CoO(MGr-Co/CoO)synthesized at 550 ℃,attributed to its comprehensive control of clean interface,valence distribution range and defects.Leveraging these advantages,the battery with FGr-Co/Co_(3)O_(4)shows favorable working stability with a degradation rate of only 0.08%over 500 cycles at 1.0 C.Furthermore,under an elevated sulfur loading of 6.1 mg cm^(–2),the battery harvests a remarkable areal capacity of 5.9 mA h cm^(–2)along with stable cyclic operation. 展开更多

关键词 Lithium-sulfur battery Chemical vapor deposition Graphene wrapped Co-based promoter Graphene layer control Co valence state altering

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Thermodynamic-driven graphene layer control:converging paradigms from self-correcting and edge-feeding growth

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作者 Yi Cheng James M.Tour 《Science Bulletin》 2025年第22期3679-3681,共3页

Bilayer and multilayer two-dimensional(2D)van der Waals materials,such as graphene,hexagonal boron nitride(hBN),and transition metal dichalcogenides(TMDs),possess transformative potential across electronics,photonics,... Bilayer and multilayer two-dimensional(2D)van der Waals materials,such as graphene,hexagonal boron nitride(hBN),and transition metal dichalcogenides(TMDs),possess transformative potential across electronics,photonics,and quantum technologies due to their tunable electronic band structures,exceptional electrical and optical properties,extraordinary mechanical strength,and superior barrier performance[[1],[2],[3]].Taking graphene as a representative example,the control of stacking critically governs its electronic states and device functionalities. 展开更多

关键词 graphene quantum technologies edge feeding growth layer control graphenehexagonal boron nitride hbn self correcting thermodynamic driven transition metal dichalcogenides tmds possess

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Turbulent drag reduction by spanwise slot blowing pulsed plasma actuation 被引量：1

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作者 Borui ZHENG Yuanzhong JIN +3 位作者 Minghao YU Yueqiang LI Bin WU Quanlong CHEN 《Plasma Science and Technology》 SCIE EI CAS CSCD 2022年第11期26-36,共11页

This work studies the turbulent drag reduction(TDR)effect of a flat plate model using a spanwise slot blowing pulsed plasma actuator(SBP-PA).Wind tunnel experiments are carried out under a Reynolds number of 1.445... This work studies the turbulent drag reduction(TDR)effect of a flat plate model using a spanwise slot blowing pulsed plasma actuator(SBP-PA).Wind tunnel experiments are carried out under a Reynolds number of 1.445×10^(4).Using a hot-wire anemometer and an electrical data acquisition system,the influences of millisecond pulsed plasma actuation with different burst frequencies and duty cycles on the microscale coherent structures near the wall of the turbulent boundary layer(TBL)are studied.The experimental results show that the SBP-PA can effectively reduce the frictional drag of the TBL.When the duty cycle exceeds 30%,the TDR rate is greater than 11%,and the optimal drag reduction rate of 13.69%is obtained at a duty cycle of 50%.Furthermore,optimizing the electrical parameters reveals that increasing the burst frequency significantly reduces the velocity distribution in the logarithmic region of the TBL.When the normalized burst frequency reaches f+=2πf_(p)d/U_(∞)=7.196,the optimal TDR effectiveness is 16.97%,indicating a resonance phenomenon between the pulsed plasma actuation and the microscale coherent structures near the wall.Therefore,reasonably selecting the electrical parameters of the plasma actuator is expected to significantly improve the TDR effect. 展开更多

关键词 turbulent boundary layer control plasma flow control HOT-WIRE turbulent frictional drag turbulent drag reduction

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Quantifying a critical marl thickness for vertical fracture extension using field data and numerical experiments 被引量：2

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作者 Filiz Afsar Elco Luijendijk 《Geoscience Frontiers》 SCIE CAS CSCD 2019年第6期2135-2145,共11页

In fractured reservoirs characterized by low matrix permeability,fracture networks control the main fluid flow paths.However,in layered reservoirs,the vertical extension of fractures is often restricted to single laye... In fractured reservoirs characterized by low matrix permeability,fracture networks control the main fluid flow paths.However,in layered reservoirs,the vertical extension of fractures is often restricted to single layers.In this study,we explored the effect of changing marl/shale thickness on fracture extension using comprehensive field data and numerical modeling.The field data were sampled from coastal exposures of Liassic limestone-marl/shale alternations in Wales and Somerset(Bristol Channel Basin,UK).The vertical fracture traces of more than 4000 fractures were mapped in detail.Six sections were selected to represent a variety of layer thicknesses.Besides the field data also thin sections were analyzed.Numerical models of fracture extension in a two-layer limestone-marl system were based on field data and laboratory measurements of Young's moduli.The modeled principal stress magnitude σ3 along the lithological contact was used as an indication for fracture extension through marls.Field data exhibit good correlation(R^2=0.76) between fracture extension and marl thickness,the thicker the marl layer the fewer fractures propagate through.The model results show that almost no tensile stress reaches the top of the marl layer when the marls are thicker than 30 cm.For marls that are less than 20 cm,the propagation of stress is more dependent on the stiffness of the marls.The higher the contrast between limestone and marl stiffness the lower the stress that is transmitted into the marl layer.In both model experiments and field data the critical marl thickness for fracture extension is ca.15-20 cm.This quantification of critical marl thicknesses can be used to improve predictions of fracture networks and permeability in layered rocks.Up-or downsampling methods often ignore spatially continuous impermeable layers with thicknesses that are under the detection limit of seismic data.However,ignoring these layers can lead to overestimates of the overall permeability.Therefore,the understanding of how fractures propagate and terminate through impermeable layers will help to improve the characterization of conventional reservoirs. 展开更多

关键词 Boundary element modelling Marl/limestone multilayer Layer thickness and stiffness control PERMEABILITY Fractured reservoirs

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Tomographic PIV investigation on coherent vortex structures over shark-skin-inspired drag-reducing riblets 被引量：9

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作者 Shao-Qiong Yang Shan Li +2 位作者 Hai-Ping Tian Qing-Yi Wang Nan Jiang 《Acta Mechanica Sinica》 SCIE EI CAS CSCD 2016年第2期284-294,共11页

Nature has shown us that the microstructure of the skin of fast-swimming sharks in the ocean can reduce the skin friction drag due to the well-known shark-skin effect.In the present study,the effect of shark-skin-insp... Nature has shown us that the microstructure of the skin of fast-swimming sharks in the ocean can reduce the skin friction drag due to the well-known shark-skin effect.In the present study,the effect of shark-skin-inspired riblets on coherent vortex structures in a turbulent boundary layer（TBL） is investigated.This is done by means of tomographic particle image velocimetry（TPIV） measurements in channel fl ws over an acrylic plate of drag-reducing riblets at a friction Reynolds number of 190.The turbulent fl ws over drag-reducing riblets are verifie by a planar time-resolved particle image velocimetry（TRPIV） system initially,and then the TPIV measurements are performed.Two-dimensional（2D） experimental results with a dragreduction rate of around 4.81% are clearly visible over triangle riblets with a peak-to-peak spacing s＋of 14,indicating from the drag-reducing performance that the buffer layer within the TBL has thickened;the logarithmic law region has shifted upward and the Reynolds shear stress decreased.A comparison of the spatial topological distributions of the spanwise vorticity of coherent vortex structures extracted at different wall-normal heights through the improved quadrant splitting method shows that riblets weaken the amplitudesof the spanwise vorticity when ejection（Q2） and sweep（Q4） events occur at the near wall,having the greatest effect on Q4 events in particular.The so-called quadrupole statistical model for coherent structures in the whole TBL is verified Meanwhile,their spatial conditional-averaged topological shapes and the spatial scales of quadrupole coherent vortex structures as a whole in the overlying turbulent fl w over riblets are changed,suggesting that the riblets dampen the momentum and energy exchange between the regions of near-wall and outer portion of the TBL by depressing the bursting events（Q2 and Q4）,thereby reducing the skin friction drag. 展开更多

关键词 Turbulent boundary layer（TBL） Coherent vortex structure Flow control Drag reduction Shark-skininspired riblet Tomographic particle image velocimetry（TPIV）

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Integrated electronic controller for dynamic self-configuration of photonic circuits

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作者 Emanuele Sacchi Francesco Zanetto +5 位作者 Andres Ivan Martinez SeyedMohammad SeyedinNavadeh Francesco Morichetti Andrea Melloni Marco Sampietro Giorgio Ferrari 《Light: Science & Applications》 2025年第11期3715-3725,共11页

Reconfigurable photonic integrated circuits(PICs)can implement arbitrary operations and signal processing functionalities directly in the optical domain.Run-time configuration of these circuits requires an electronic ... Reconfigurable photonic integrated circuits(PICs)can implement arbitrary operations and signal processing functionalities directly in the optical domain.Run-time configuration of these circuits requires an electronic control layer to adjust the working point of their building elements and compensate for thermal drifts or degradations of the input signal.As the advancement of photonic foundries enables the fabrication of chips of increasing complexity,developing scalable electronic controllers becomes crucial for the operation of complex PICs.In this paper,we present an electronic application-specific integrated circuit(ASIC)designed for reconfiguration of PICs featuring numerous tunable elements.Each channel of the ASIC controller independently addresses one optical component of the PIC,and multiple parallel local feedback loops are operated to achieve full control.The proposed design is validated through real-time reconfiguration of a 16-channel silicon photonics adaptive universal beam coupler.Results demonstrate automatic coupling of an arbitrary input beam to a single-mode waveguide,dynamic compensation of beam wavefront distortions and successful transmission of a 50 Gbit/s signal through an optical free-space link.The low power consumption and compactness of the electronic chip provide a scalable paradigm that can be seamlessly extended to larger photonic architectures. 展开更多

关键词 photonic foundries adjust working point their building elements signal processing dynamic self configuration integrated electronic controller photonic circuits reconfigurable photonic integrated circuits electronic control layer

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Advances of drag-reducing surface technologies in turbulence based on boundary layer control 被引量：10

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作者 LUO Yuehao WANG Liguo +3 位作者 GREEN Lork SONG Kenan WANG Liang SMITH Robert 《Journal of Hydrodynamics》 SCIE EI CSCD 2015年第4期473-487,共15页

Our living environment is surrounded by turbulence, which is also a concern of the global energy consumption and the greenhouse gas emission, and the viscous force on the solid-liquid/solid-gas interface is an importa... Our living environment is surrounded by turbulence, which is also a concern of the global energy consumption and the greenhouse gas emission, and the viscous force on the solid-liquid/solid-gas interface is an important part of the turbulence. Reducing friction force in turbulence to the greatest extent is becoming an urgent issue to be resolved at present. In this paper, the various state-of-the-art approaches of drag-reducing and energy-saving technologies based on the boundary layer control are reviewed, focusing on the polymer drag reduction additives, the micro-morphology, the super-hydrophobic surface, the micro air bubbles, the heating wall, the vibrant flexible wall and the composite drag reduction methods. In addition, the mechanisms of different drag reductions based on the boundary layer control and the potential applications in fluid engineering are discussed. This paper aims not only to contribute to a better understanding of drag reduction mechanisms, but also to offer new perspectives to improve the current drag-reducing and energy saving technologies. 展开更多

关键词 fluid drag reduction HYDRODYNAMICS energy saving turbulent flowing boundary layer control

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Drag reduction via turbulent boundary layer flow control 被引量：15

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作者 ABBAS Adel BUGEDA Gabriel +5 位作者 FERRER Esteban FU Song PERIAUX Jacques PONS-PRATS Jordi VALERO Eusebio ZHENG Yao 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2017年第9期1281-1290,共10页

Turbulent boundary layer control(TBLC) for skin-friction drag reduction is a relatively new technology made possible through the advances in computational-simulation capabilities,which have improved the understanding ... Turbulent boundary layer control(TBLC) for skin-friction drag reduction is a relatively new technology made possible through the advances in computational-simulation capabilities,which have improved the understanding of the flow structures of turbulence.Advances in micro-electronic technology have enabled the fabrication of active device systems able to manipulating these structures.The combination of simulation,understanding and micro-actuation technologies offers new opportunities to significantly decrease drag,and by doing so,to increase fuel efficiency of future aircraft.The literature review that follows shows that the application of active control turbulent skin-friction drag reduction is considered of prime importance by industry,even though it is still at a low technology readiness level(TRL).This review presents the state of the art of different technologies oriented to the active and passive control for turbulent skin-friction drag reduction and contributes to the improvement of these technologies. 展开更多

关键词 turbulent boundary layer flow control drag reduction skin-friction drag reduction

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A Model Predictive Control Method for Hybrid Energy Storage Systems 被引量：5

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作者 Siyuan Chen Qiufan Yang +1 位作者 Jianyu Zhou Xia Chen 《CSEE Journal of Power and Energy Systems》 SCIE CSCD 2021年第2期329-338,共10页

The traditional PI controller for a hybrid energy storage system(HESS)has certain drawbacks,such as difficult tuning of the controller parameters and the additional filters to allocate high-and low-frequency power flu... The traditional PI controller for a hybrid energy storage system(HESS)has certain drawbacks,such as difficult tuning of the controller parameters and the additional filters to allocate high-and low-frequency power fluctuations.This paper proposes a model predictive control(MPC)method to control three-level bidirectional DC/DC converters for grid-connections to a HESS in a DC microgrid.First,the mathematical model of a HESS consisting of a battery and ultra capacitor(UC)is established and the neutral point voltage imbalance of a three-level converter is solved by analyzing the operating modes of the converter.Secondly,for the control of the grid-connected converters,an MPC method is proposed for calculating steady-state reference values in the outer layer and the dynamic rolling optimization in the inner layer.The outer layer ensures the voltage regulation and establishes the current predictive model,while the inner layer,using the model predictive current control,makes the current follow the predictive value,thus reducing the system current ripple.This cascaded topology has two independent controllers and is free of filters to realize the high-and low-frequency power allocation for a HESS.Therefore,it allows two types of energy storage devices to independently regulate the voltage and realizes the power allocation of the battery and UC.Finally,simulation studies are conducted in PSCAD/EMTDC,and the effectiveness of the proposed HESS control strategy is verified in a case,such as a controller comparison and fault scenario. 展开更多

关键词 Double layer control method hybrid energy storage system(HESS) model predictive control(MPC) three-level DC/DC converter

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Angle-insensitive coloration in translucent perovskite solar cells employing oxide/metal/oxide multipair-configuration electrodes

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作者 Soo-Won Choi Jun Ryu +1 位作者 Dong-Won Kang Jung-Dae Kwon 《Journal of Materials Science & Technology》 2025年第35期36-44,共9页

The increasing demand for solar energy,driven by the climate crisis and carbon neutrality goals,un-derscores the critical importance of aesthetics in solar panel integration across diverse environments,such as buildin... The increasing demand for solar energy,driven by the climate crisis and carbon neutrality goals,un-derscores the critical importance of aesthetics in solar panel integration across diverse environments,such as building-integrated photovoltaics.This study addresses this need by developing angle-insensitive coloration for translucent perovskite-colored solar cells(TPCSCs)to enhance both functionality and con-sumer appeal.By engineering oxide/metal/oxide(OMO)multilayer structures,we achieved consistent col-oration regardless of the viewing angle,overcoming a major challenge in colored solar cell technology.Specifically,ZnO:Al/Ag/ZnO:Al-based OMO layers were meticulously optimized to balance visual appeal with photovoltaic efficiency.Our results demonstrate exceptional angular stability,with negligible color shifts observed even at viewing angles exceeding 60°,significantly surpassing the limitations of previ-ous designs,which exhibited sensitivity at 40°.The OMO electrodes exploited distributed Bragg reflector(DBR)properties to amplify interference effects and utilized delocalized plasmonic modes and metal-dielectric-metal(MDM)cavity resonances to achieve vibrant colors.Advanced 3-pair OMO transparent conductive electrodes(TCEs)exhibited stable,angle-insensitive blue coloration,and the resulting translu-cent perovskite solar cell achieved a record-high power conversion efficiency(PCE)of 8.25%and an av-erage transmittance of 15.23%,maintaining consistent coloration up to a 60°viewing angle.Additionally,the optoelectronic control layer(OCL)thickness was fine-tuned to precisely target specific wavelengths,enabling a versatile spectrum of colors,including blue,green,yellowish-green,orange,and peach.This pioneering approach not only ensures color fidelity but also enhances the reflectance properties of TPC-SCs.By integrating aesthetic and functional advancements,our research makes a significant contribution to the development of sustainable energy solutions for future smart cities. 展开更多

关键词 Oxide/metal/oxide Optoelectronic control layer Plasmonics Angle-insensitive color realization Translucent perovskite solar cells

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