该化合物主要用于有机电子材料、高分子材料合成、染料与颜料制备等领域,作为多杂环化合物中间体或功能性材料。
有机电子材料; 材料化学; 染料与颜料; 高分子材料
合成路线 1(1. 合成:125143-53-5)
产率:100%
合成条件:With bromine In chloroform; acetic acid at 0 - 20℃; Cooling with ice
实验步骤:合成例1;通过使用以下反应方案1的程序制备用作本发明的多杂环化合物并由式1-7表示的化合物。将给出反应的详细描述。将2,2'-联噻吩(30mmol,5g)溶于乙酸(100ml)和氯仿(75ml)中,然后用冰冷却。将溴(60.5mmol,9.65g)溶解在氯仿(50ml)中的溶液滴加到前一溶液混合物中约40分钟,并在常温下滴加相同量的溴1小时。将所得溶液混合物在常温下搅拌12小时,然后再循环24小时。通过减压蒸馏除去溶剂后,使用乙醇进行重结晶,得到15g 30mmol 3,3',5,5'-四溴-2,2'-联噻吩,收率为100%。 GC-MS计算。 C8H2Br4S2 [M +]的测定:482,实测值:482。1H NMR(DMSO-d6):δ7.5(s,2H)。
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