Humidity sensing plays an important role in the professional field and our daily life,such as chemical preparation proce......

Fiber-shaped dye-sensitized solar cells (FDSSCs) represent promising futuristic flexible or wearable power sources,owing......

The nonradiative decay of plasmons results in hot electrons,which can transfer across the Schottky barrier of the metal-......

Various types of protein immunoassay are widely used for high-throughput proteomic analysis, but to date, the low sensit......

High-performance organic solar cells have been developed by our group based on various nanotechnology in recent years.[1......

Broadband absorption enhancement in metal nanomaterials for high-performance organic solar cells (OSCs) is highly desira......

Advanced designs of nanomaterials require a large amount of control over the assembly of nanoscale components.Constructi......

Localized surface plasmon resonance(LSPR)based well-defined metal nanostructures have great potential to be developed in......

As global energy and environmental problems to be attracted attention,it is a promising route to use particulate semicon......

在纳米尺度上实时检测催化反应，可以提供更丰富的微观尺度上的反应过程信息[1]，这对于反应催化机理的研究等有着重要的意义。相比于......

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the concept of plasmonic structure was investigated quite intensively in recent years due to the interesting physics and......

Glycoproteins being vital in numerous biological processes are considered as important targets for many clinical diagnos......

The zero bandgap of graphene limits its application for optoelectronics, which has motivated considerable efforts recent......

Lung cancer( LC) is the leading cause of cancer mortality,with more than I million deaths worldwide every year.Early and......

Noble metal nanostructures have attracted much attention recently and have led to a variety of research fields ranging f......

从理论上和数值上研究了一种基于金属-绝缘体-金属波导耦合纳米腔的等离子体三波分复用结构。该结构由三个输出通道组成, 每个通道......

Recently, the subject on “plasmonics’’ has received significant attention in designing surface plasmon resonance (SPR......

A key issue for redox reactions in plasmon-induced photocatalysis, particularly for water oxidation, is the concentratio......

Designing and manufacturing cost-effective absorbers that can cover the full-spectrum of solar irradiation is still crit......

Photocatalytic N2xation has attracted substantial attention in recent years,as it represents a green and sustainable dev......

Metallic nanoparticle(NP)/ceramic composite cermets present desirable broadband absorption of the solar spectrum and thu......

The plasmonic property of heavily doped p-type silicon is studied here.Although most of the plasmonic devices use metal-......

There is an increasing demand for new technologies to rapidly measure individual nanoparticles in situ for applications,......

In view of wide applications of structured light fields and plasmonic vortices,we propose the concept of compound plasmo......

　　A novel plasmonic waveguide based on hybrid structure (metal-low index dielectric-high index dielectric structure) i......

We demonstrated the combination of QDs (e.g.CdSe, CdTe and HgCdTe) and ZnO nanowires for photoelectrochemical water spli......

Designing and manufacturing cost-effective absorbers that can cover the full-spectrum of solar irradiation is still crit......

In recent years, the excessive use of antibiotics has become a serious problem for human health. BiVO4 regarded as one o......

The circular dichroism(CD)signal of a molecule is usually weak,however,a strong CD signal in optical spectrum is desirab......

Closing the carbon loop,through CO2capture and utilization,is a promising route to mitigate climate change.Solar energy ......

Circulators play a significant role in radar and microwave communication systems.This paper proposes a broadband and hig......

Hydrogen peroxide(H2O2),as a signaling molecule,plays a vital role in a wide variety of signaling transduction processes......

The development of water purification device using solar energy has received tremendous attention.Despite extensive prog......

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本文通过对荣华二采区10...

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7......

微纳米尺度物质与光的相互作用研究对于光电转换、生物传感等领域的发展具有重要的科学意义.基于等离激元效应和介质光耦合机理增......

The development of water purification device using solar energy has received tremendous attention.Despite extensive prog......

利用软膜紫外光固化纳米压印技术和反应离子刻蚀技术在玻璃衬底上制备了等离子体纳米孔阵列。为了实现高分辨低成本软膜紫外光固化......

采用一种考虑热损失的光热转换计算模型,实验研究Ag纳米流体的光热转换特性。在传统工质水中加入纳米颗粒,使工质对光的吸收和散射......

由MoO3/Ag/MoO3（MAM）组成的多层膜结构非常有希望替代ITO作为有机太阳能电池中的透明阳极.然而,基于MAM结构的有机太阳能电池光吸收......

以从废纸中再生的纤维素纤维为固相担体,表面改性后通过自组装将纳米金粒子负载到纤维素表面制备纤维素纤维纳米金柔性SERS基底。......

为了解决典型宽禁带半导体光电探测器件的工作波段限制材料禁带宽度的问题，对基于表面等离激元热电子效应的光电晶体管进行了制备和......

基于有限元方法（finite element method，FEM）和等离激元杂化理论（plasmon hybridization theory，PHT）模拟并分析了方形劈裂环-方形环（squa......