Chemical doping is verified to be a promising strategy to regulate local electron distribution and further promote the p......

Carbon dioxide(CO2) is an important and valuable C1 resource for the synthesis of numerous of value-added products.Howev......

In this work,we studied the elec-tronic band structure of the halogen (F,Cl,and Br) functionalized graphdiynes(GDYs) by ......

石墨炔(GDY,g-CnH2n-2)作为一种新型的由sp和sp2杂化的碳原子构成的二维碳材料,因其独特的纳米级孔隙、二维层状共轭骨架结构及半......

Copper oxide(CuO),due to its low cost,good chemical and physical stability,has recently been given special attention as ......

Graphdiyne,as the novel carbon allotrope,which is composed of sp2-and sp-hybridized carbon,has exhibited excellent catal......

Development of aqueous rechargeable zinc ion battery is an important direction towards grid energy storage sought in var......

Detection of a trace amount of NO2 at room temperature has very important applications in air quality monitoring,protect......

Graphdiyne(GDY)based atom catalysts(Acs)show extraordinary electrocatalytic activities towards hydrogen evolution reacti......

Graphdiyne(GDY),which is composed of sp2-/sp-hybridized carbon atoms,has attracted increasing attention.In the structure......

The inhibition of the methanol crossover is one of the intractable challenges in the direct methanol fuel cell.The graph......

Graphdiyne(GDY)has the unique feature in the topological ordered arranged sp-and sp2-hybridized carbon atoms,thus derivi......

Herein,we report a comparative investigation of the electrochemical lithium diffusion within graphidyne(GDY)based electr......

Graphdiyne(GDY),a new carbon allotrope composed of sp-sp2 carbon atoms,has attracted increased attention in recent years......

The transition metal-based materials have been regarded as promising electrocatalysts for oxygen evolution reaction(OER)......

The carbon-based metal-free catalyst is one of the ideal alternatives to Pt as electrocatalysts for oxygen reduction rea......

Carbon-based magnetic semiconductors are easy to be modified with low cost and low power consumption.While they can demo......

As a new carbon allotrope,graphdiyne(GDY)has shown intensive practical application prospects in the energy field,catalys......

Atomic catalysts(Acs)consisting of zero-valent metal atoms anchored on supporting materials have shown promising potenti......

Electrochemical oxidation of water to produce highly reactive hydroxyl radicals (·OH) is the dominant factor that accou......

Graphdiyne (GDY) is emerging as a promising material for various applications owing to its unique structure and fascinat......

Dye-sensitized solar cells(DSSCs)have been considered as an alternative to silicon-based solar cells.However,the counter......

We have designed and synthesized a series of hybrid nanostructures based rich graphdiyne by self-assembly and self-organ......

Graphdiyne and derivatives [1-4] with delocalized π-electron systems are of particular interest owing to their structur......

Although the Li capacity can be improved greatly with these different dimensionalities and morphologies,the nature of th......

Although the Li capacity can be improved greatly with these different dimensionalities and morphologies,the nature of th......

Electrocatalytic reduction of CO2 is one of the most attractive approaches for converting CO2 into valuable chemical fee......

Development of novel catalysts for nitrogen reduction at ambient pressures and temperatures with ultrahigh ammonia(NH3)y......

Graphdiyne(GDY),a novel all-carbon nanomaterial,is considered the most easily synthesized and stable carbon allotrope,po......

Transition metal sulfides are an important category for hydrogen evolution reaction(HER).However,only few edge unsaturat......

　　Although the Li capacity can be improved greatly with these different dimensionalities and morphologies,the nature o......

Ammonia synthesis by electrochemical nitrogen reduction technique is an attractive alternative to tradi-tional Haber-Bos......

Developing efficient electrocatalysts for nitrogen reduction reaction(NRR)is crucial to replace the both energy-intensiv......

Flat and crystalline materials with exceptional nonlinear optical (NLO) properties are highly desirable for their potent......

As a new member of the carbon family,graphdiyne is an intrinsic semiconductor featuring a natural bandgap,which endues i......

...

石墨炔作为一种新的稳定的碳同素异形体,由于其独特的结构和性能,预计可广泛地应用于纳米材料及器件中.在本文中,我们采用B3LYP/6-......

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......

碳材料具有价格低廉、易制备、环境友好、导电性高、比表面积大以及适合离子存储和迁移等优点,已成为目前应用于电化学储能器件电......

石墨炔是新兴的碳同素异形体,其独特的结构和性质引起了不同领域科学家的广泛关注.研究表明,石墨炔在能源、催化、光学、磁学、信......

石墨炔作为一种新兴碳材料,由于具有特殊的电子特性、丰富的纳米级孔隙以及能在相对低温下合成的特点,在催化、能源及生物等领域受......

二维石墨炔优异的物理和化学性质受到了广泛的关注。近几年,与石墨炔相关的理论、合成和应用研究快速发展,并取得显著成果。基于石......

选用两种二维共轭碳材料石墨烯(GR)和石墨炔(GD),通过水热合成的方法原位生长制备TiO2-GR和尿素分散的TiO2-GR以及TiO2-GD复合材料......

γ-石墨双炔(γ-graphdiyne,简称GDY)是一种由sp和sp2杂化碳组成的高度共轭全碳材料,其独特的有序孔道、非均匀的电子结构和易于调......

Developing efficient electrocatalysts for nitrogen reduction reaction(NRR)is crucial to replace the both energy-intensiv......

我国科学家李玉良院士首次用化学方法成功制备了石墨炔,得到了不同领域科研工作者的广泛关注并迅速发展成为新研究领域和热点。作......

石墨二炔是近年实验上成功合成的一种新型二维碳材料,具有独特的结构、丰富的化学键和电子性质,拥有巨大的应用潜力。使用基于密度......

制备了石墨炔掺杂poly（3-hexyhhiophene）：[6，6]-phenyl—C61-buytyric acid methylester活性层的聚合物光伏器件。研究了石墨炔不同掺......

石墨炔特殊的电子结构和孔洞结构使其在信息技术、电子、能源、催化以及光电等领域具有潜在、重要的应用前景。近几年石墨炔的基础......