Recently,polymer solar cells developed very fast due to the application of non-fullerence acceptors.Substituting asymmet......

The non-fully conjugated polymer as a new class of acceptor materials has shown some advantages over its small molecular......

Side-chain engineering has been considered as one of the most promising strategies to optimize non-fullerene small-molec......

Charge-transfer (CT) complex of o-toluidine (o-tol) with the π-acceptor tetrachloro-p-benzoquinone (p-chloranil; CHL) h......

Reducing the voltage loss (Vloss) is a critical factor in optimizing the open-circuit voltage (Voc) and overall power-co......

该文从挂篮荷载计算、施工流程、支座及临时固结施工、挂篮安装及试验、合拢段施工、模板制作安装、钢筋安装、混凝土的浇筑及养生......

Three small bandgap non-fullerene(SBG NFAs) acceptors,BDTI,BDTI-2 F and BDTI-4 F,based on a carbon-oxygen bridged centra......

通过传统的球磨工艺，以Co2O3为受主杂质和La2O3、Nb2O5、Bi2（SiO3）3为施主杂质，对BaTiO3系陶瓷进行掺杂。实验表明：Co2O3对BaTiO3陶瓷介......

研究有受主态扩散层的Schottky势垒型半导体陶瓷的晶界势垒.通过建立简化模型,引入参数K(扩散层内与耗尽层内的正空间电荷浓度之比......

通过传统的球磨工艺，分别以MnCO3、Co2O3为受主杂质，La2O3、Nb2O3、Bi2（SnO3）3为施主杂质对BaTiO3陶瓷进行掺杂。实验表明，BaTiO3陶瓷介......

以PC[70]BM（phenyl C71-butyric acid methyl ester）取代PC[60]BM（phenyl C61-butyric acid methyl ester）作为电子受体材料,以MEH-PPV......

Non-fullerene polymer solar cells(NF-PSCs) have gained wide attention recently. Molecular design of non-fullerene electr......

Developing a new type of deep eutectic solvents(DESs)is indispensable for expanding their application in various fields.......

Non-fullerene acceptor(NFA) based organic solar cells(OSCs) are of high efficiency and low energy loss and low recombina......

Research on asymmetric A–D–A structured non-fullerene acceptors has lagged far behind the development of symmetric cou......