UCR-CNRS Joint Research Chemistry Laboratory (UMI 2957), Department of Chemistry, University of California, Riverside, CA 92521-0403, USA.
Chem Asian J. 2009 Nov 2;4(11):1745-50. doi: 10.1002/asia.200900338.
Similarly to NHCs, CAAC(a) and BAC(a) react with CO2 to give the corresponding betaines. Based on the carbonyl stretching frequencies of cis-[RhCl(CO)2(L)] complexes, the order of electron donor ability was predicted to be CAAC(a) approximately BAC(a)>NHCs. When the betaines nu(asym)(CO2) values are used, the apparent ordering is BAC(a)>NHCs approximately CAAC(a) that indicates a limitation for the use of IR spectroscopy in the ranking of ligand sigma-donating ability. Although all carbenes react with carbon disulfide to give the corresponding betaines, a second equivalent of CS2 reacts with the BAC-CS2 leading to a bicyclic thieno[2,3-diamino]-1,3-dithiole-2-thione, which results from a novel ring expansion process. Surprisingly, in contrast to NHCs, CAAC(a) does not react with carbodiimide, whereas BAC(a) exclusively gives a ring expanded product, analogous to that obtained with CS2. The intermediate amidinate can be trapped, using the lithium tetrafluoroborate adduct of BAC(b) as a carbene surrogate.
与 NHC 类似,CAAC(a) 和 BAC(a) 与 CO2 反应生成相应的甜菜碱。根据顺式-[RhCl(CO)2(L)]配合物的羰基伸缩频率,预测电子供体能力的顺序为 CAAC(a)≈BAC(a)>NHCs。当使用甜菜碱 nu(asym)(CO2) 值时,明显的顺序是 BAC(a)>NHCs≈CAAC(a),这表明在配体 sigma-供电子能力的排序中,IR 光谱的使用存在局限性。尽管所有卡宾都与二硫化碳反应生成相应的甜菜碱,但第二个当量的 CS2 与 BAC-CS2 反应生成双环噻吩[2,3-二氨基]-1,3-二硫杂环戊烷-2-硫酮,这是一种新型的环扩张过程。令人惊讶的是,与 NHCs 相反,CAAC(a) 不与碳二亚胺反应,而 BAC(a) 则专一地生成环扩张产物,类似于与 CS2 反应得到的产物。可以使用 BAC(b)的四氟硼酸锂加合物作为卡宾的替代物来捕获中间的酰胺。
