Partially Overlapped Dual Laser Beams to Reduce Ablation Craters

We present our experimental ablation results for partially overlapped dual nanosecond laser beams(PO-DB)on metal and glass surfaces.Numerical simulations are performed to evaluate the crater reduction potential of the PO-DB setup.Damage probability experiments proved the collaboration of two beams within the overlap region.Bright-field and three-dimensional profile measurements verify the reduced ablation area from the proposed PODB scheme.Laser-induced plasma is generated when transparent glass is ablated.Atomic emission of Na I(~589.95nm)shows comparable signal between the PO-DB set and the traditional single laser beam set.The proposed PO-DB ablation mechanism could also be applied to femtosecond laser systems.     

D-π-A-π-D型非掺杂小分子空穴传输材料的合成及其在反向钙钛矿太阳能电池中的应用

设计合成了三种以（甲氧基）三苯胺为给体（Donor,D）,苯环为共轭π桥,羰基（或双氰基乙烯基）为受体（Acceptor,A）的D-π-A-π-D型有机小分子空穴传输材料1-T、1-OT和1-OTCN.对三个化合物的热稳定性、光物理以及电化学性质进行表征,并将它们作为空穴传输材料运用至钙钛矿太阳能电池中,研究其光伏特性.实验结果表明,通过引入具有不同给（吸）电子能力的基团,可对材料的光电性质进行有效调控.基于小分子空穴传输材料1-T、1-OT和1-OTCN的非掺杂反向钙钛矿太阳能电池器件光电转化效率（PCE）分别为13.0%、14.4%以及16.8%.其中,基于甲氧基和双氰基修饰的1-OTCN电池器件,由于空穴传输层与钙钛矿界面发生更有效的电荷跃迁和收集,电荷复合较少,因此器件性能最佳,1-OTCN的疏水性质使得其对应器件效率和水氧稳定性均优于常用空穴传输材料PEDOT：PSS（PCE：13.0%）.