[22] Qingshan Tian, Ping He and Chunxiang Kuang*,Synlett,2015, 26, 681-687.

[21] Xin Yu, Zhendong Huang, Wei Liu, Suping Shi and Chunxiang Kuang*,Org. & Biomol. Chem.,2015,13, 4459-4465.

[20] Ping He, Qingshan Tian and Chunxiang Kuang*,Synthesis,2015, (Accept).

[19] Wei Liu, Xin Yu, Yahui Li and Chunxiang Kuang*,Chem. Comm.,2014, 50, 9291-9294.

[18] Wei Liu, Xin Yu and Chunxiang Kuang*,Org. Lett,2014, 16, 1798-1801.

[17] Qingshan Tian, Ping He and Chunxiang Kuang*,Org. & Biomol. Chem.,2014, 12, 7474-7477.

[16] Qingshan Tian, Ping He and Chunxiang Kuang*,Org. & Biomol. Chem.,2014, 12, 6349-6353.

[15] Yahui Li, Wei Liu and Chunxiang Kuang*,Chem. Comm.,2014, 50, 7124-7127.

[14] Yahui Li, Wei Liu, Qingshan Tian and Chunxiang Kuang*,Eur. J. Org. Chem.,2014, 3307-3312.

[13] Zechao Wang and Chunxiang Kuang*,Adv. Synth. Catal,2014, 356, 1549-1554.

[12] Zechao Wang, Qingshan Tian, Xin Yu and Chunxiang Kuang*,Adv. Synth. Catal.,2014, 356, 961-966.

[11] Suping Shi and Chunxiang Kuang*,J. Org. Chem.,2014,79, 6105-6112.

[10] Suping Shi, Wei Liu, Ping He and Chunxiang Kuang*,Org. & Biomol. Chem.,2014, 12, 3576-3580.

[9] Wei Liu, Yahui Li, Yue Wang and Chunxiang Kuang*,Org. Lett.,2013,15, 4682-4685.

[8] Wei Liu, Yahui Li, Bo Xu and Chunxiang Kuang*,Org. Lett.,2013, 15, 2342-2345.

[7] Wei Liu, Yahui Li, Yue Wang and Chunxiang Kuang*,Eur. J. Org. Chem.,2013, 24,5272-5275.

[6] Hao Gong, Yiwen Yang and Chunxiang Kuang*,Beilstein J. Org. Chem.,2013, 9, 2033-2039.

[5] Qingshan Tian, Xianmin Chen, Wei Liu and Chunxiang Kuang*,Org. & Biomol. Chem.,2013, 11, 7830-7833.

[4] Xuezhi Cheng, Wei Liu, Zhendong Huang and Chunxiang Kuang*,Chin. Chem. Lett.,2013, 24. 764-766.

[3] Zhongkui Zhang and Chunxiang Kuang*,Chin. J. Chem.,2013, 31,1011-1014.

[2] Yiwen Yang, Hao Gong and Chunxiang Kuang*, Eur. J. Org.Chem.,2013, 24, 5276-5279.

[1] Yiwen Yang, Hao Gong and Chunxiang Kuang*,Synthesis,2013, 11, 1469-1474.