In this work, we prepared three simple arylamine-based hole transporting materials from commercially available starting materials. The effect of extending z-conjugation length or increasing the number of side groups c...In this work, we prepared three simple arylamine-based hole transporting materials from commercially available starting materials. The effect of extending z-conjugation length or increasing the number of side groups compared with reference compound on the photophysical, electrochemical, hole mobility properties and performance in perovskite solar cells were further studied. It is noted that these two kinds of molecular modifications can significantly lower the HOMO level and improve the hole mobility, thus improving the hole injection from valence band of perovskite. On the other hand, the compound with more side groups showed higher hole injection efficiency due to lower HOMO level and higher hole mo- bility compared with the compound with extending π-conjugation length. The perovskite solar cells with the modified molecules as hole transporting materials showed a higher efficiency of 15.40% and 16.95%, respectively, which is better than that of the reference compound (13.18%). Moreover, the compound with increasing number of side groups based devices showed comparable photovoltaic performance with that of conventional spiro-OMeTAD (16.87%).展开更多
研究一类在加工中广泛存在的孔群加工(Hole Group Machining,HGM)优化问题。孔群加工是多孔类零件加工中重要的工艺过程,研究其加工路线优化方法对于提高多孔类零件的加工效率、降低加工成本有重要意义。与传统的多孔加工点位优化不同,...研究一类在加工中广泛存在的孔群加工(Hole Group Machining,HGM)优化问题。孔群加工是多孔类零件加工中重要的工艺过程,研究其加工路线优化方法对于提高多孔类零件的加工效率、降低加工成本有重要意义。与传统的多孔加工点位优化不同,综合考虑了刀具选择、加工参数、加工次序及刀具路径的影响,以加工效率和成本为目标,建立优化问题数学模型。采用改进启发式算法克服了传统算法早熟、爬山能力弱,以及收敛性能不理想等缺点,并引入交互式多优先级控制,对加工工艺进行模糊多目标优化,提高了算法实用性。最后通过实例计算证明了算法的有效性。展开更多
基金supported by the National Basic Research Program of China (No. 2015CB932200)the CAS-Iranian Vice Presidency for Science and Technology Joint Research Project (No. 116134KYSB20160130)+2 种基金the Natural Science Foundation of Anhui Province (No. 1508085SMF224)the National Natural Science Foundation of China (No. 51474201)the External Cooperation Program of BIC, Chinese Academy of Sciences (No. GJHZ1607)
文摘In this work, we prepared three simple arylamine-based hole transporting materials from commercially available starting materials. The effect of extending z-conjugation length or increasing the number of side groups compared with reference compound on the photophysical, electrochemical, hole mobility properties and performance in perovskite solar cells were further studied. It is noted that these two kinds of molecular modifications can significantly lower the HOMO level and improve the hole mobility, thus improving the hole injection from valence band of perovskite. On the other hand, the compound with more side groups showed higher hole injection efficiency due to lower HOMO level and higher hole mo- bility compared with the compound with extending π-conjugation length. The perovskite solar cells with the modified molecules as hole transporting materials showed a higher efficiency of 15.40% and 16.95%, respectively, which is better than that of the reference compound (13.18%). Moreover, the compound with increasing number of side groups based devices showed comparable photovoltaic performance with that of conventional spiro-OMeTAD (16.87%).
文摘研究一类在加工中广泛存在的孔群加工(Hole Group Machining,HGM)优化问题。孔群加工是多孔类零件加工中重要的工艺过程,研究其加工路线优化方法对于提高多孔类零件的加工效率、降低加工成本有重要意义。与传统的多孔加工点位优化不同,综合考虑了刀具选择、加工参数、加工次序及刀具路径的影响,以加工效率和成本为目标,建立优化问题数学模型。采用改进启发式算法克服了传统算法早熟、爬山能力弱,以及收敛性能不理想等缺点,并引入交互式多优先级控制,对加工工艺进行模糊多目标优化,提高了算法实用性。最后通过实例计算证明了算法的有效性。