代表论著
1. Pan, B., Skovsted, C.B., Brock, G.A., Topper, T.P., Holmer L.E., Li, L.Y., & Li, G.X., 2019. Early Cambrian organophosphatic brachiopods from the Xinji Formation, at Shuiyu section, Shanxi Province, North China. Palaeoworld. https://doi.org/10.1016/j.palwor.2019.07.001
2. Pan, B., Skovsted, C.B., Sun, H.J., Li, G.X., 2019. Biostratigraphical and palaeogeographical implications of Early Cambrian hyoliths from the North China Platform. Alcheringa, 43, 351–380.
3. Pan B., Topper T.P., Skovsted C.B., Miao, L.Y. & Li, G.X., 2018. Occurrence of Microdictyon from the lower Cambrian Xinji Formation along the southern margin of the North China Platform. Journal of Paleontology, 2018, 92(1): 59-70.
4. Pan, B., Brock, G.A., Skovsted, C.B., Betts, M.J., Topper, T.P., & Li, G.X., 2018. Paterimitra pyramidalis Laurie, 1986, the first tommotiid discovered from the early Cambrian of North China. Gondwana Research, 63, 179-185.
5. 潘兵, 苗兰云, 杨慧宁 & 李国祥, 2015. 陕西洛南下寒武统辛集组疑难管状化石桶螺(Cupitheca). 微体古生物学报, 32(4), 384-395.
6. Sun, H.J., Zhao, F.C., Steiner, M., Li, G.X., Na, L., Pan, B., Yin, Z.J., Zeng, Han, Van Iten, H., Zhu, M.Y., 2020. Skeletal faunas of the lower Cambrian Yu'anshan Formation, eastern Yunnan, China: Metazoan diversity and community structure during the Cambrian Age 3. Palaeogeography, Palaeoclimatology, Palaeoecology, 542, 109580. https://doi.org/10.1016/j.palaeo.2019.109580
7. Claybourn, T.M., Skovsted, C.B., Holmer, L.E., Pan, B., Myrow, P. M., Topper, T. P., & Brock, G.A., 2020. Brachiopods from the Byrd Group (Cambrian Series 2, Stage 4) Central Transantarctic Mountains, East Antarctica: biostratigraphy, phylogeny and systematics. Papers in Palaeontology. doi:10.1002/spp2.1295
8. Yun, H., Zhang, X.L., Li, L.Y., Pan, B., Li, G.X., & Brock, G.A., 2019. Chancelloriid sclerites from the lowermost Cambrian of North China and discussion of sclerite taxonomy. Geobios. 53, 65-75.
9. Li, L.Y., Zhang, X.L., Skovsted, C.B., Yun, H., Li, G.X. & Pan, B., 2019. Shell microstructures of the helcionelloid mollusc Anabarella australis from the lower Cambrian (Series 2) Xinji Formation of North China. Journal of Systematic Palaeontology, 1-11. DOI:10.1080/14772019.2018.1546236.
10. Li, L.Y., Zhang, X.L., Skovsted, C. B., Yun, H., Pan, B. & Li, G.X., 2019. Revisiting the molluscan fauna of the early Cambrian Xinji Formation of North China. Paper in Palaeontology, 1–44. https://doi.org/10.1002/spp2.1289
11. Li, L.Y., Zhang, X.L., Skovsted, C. B., Yun, H., Pan, B. & Li, G.X., 2018. Homologous shell microstructures in Cambrian hyoliths and molluscs. Palaeontology, 62(4), 515-532.
12. Yin, Z., Zhao, D., Pan, B., Zhao, F., Zeng, H., Li, G., Bottjer, D.J., & Zhu, M., 2018. Early Cambrian animal diapause embryos revealed by X-ray tomography. Geology, 46(5): 387-390.
13. Luo, C., Pan, B., &Reitner, J., 2017. Chambered structures from the Ediacaran Dengying Formation, Yunnan, China: comparison with the Cryogenian analogues and their microbial interpretation. Geological Magazine, 2017, 154(6),1269-1284.
14. Skovsted, C.B., Pan, B., Topper, T.P., Betts, M.J., Li, G.X., & Brock, G.A., 2016. The operculum and mode of life of the lower Cambrian hyolith Cupitheca from South Australia and North China. Palaeogeography, Palaeoclimatology, Palaeoecology, 443, 123-130.
15. 杨慧宁, 毛颖颜, 潘兵 & 李国祥, 2016. 陕南寒武纪早期仙女洞组生物礁灰岩微相序列. 微体古生物学报, 33(1), 75-86.