Synthesis and characterization of [4‐{(CH2O)2CH}C6H4]2Hg, [4‐(O=CH)C6H4]2Hg and [(E)‐4‐(RN=CH)C6H4]2Hg (R = 2′‐py, 4′‐py, 2′‐pyCH2, 4′‐pyCH2)

MLA

Kiss, Levente, et al. “Synthesis and Characterization of [4‐{(CH2O)2CH}C6H4]2Hg, [4‐(O=CH)C6H4]2Hg and [(E)‐4‐(RN=CH)C6H4]2Hg (R = 2′‐py, 4′‐py, 2′‐pyCH2, 4′‐pyCH2).” Applied Organometallic Chemistry, vol. 35, no. 9, Sept. 2021, pp. 1–15. EBSCOhost, https://doi.org/10.1002/aoc.6339.

APA

Kiss, L., Pop, A., Shova, S., Raț, C. I., & Silvestru, C. (2021). Synthesis and characterization of [4‐{(CH2O)2CH}C6H4]2Hg, [4‐(O=CH)C6H4]2Hg and [(E)‐4‐(RN=CH)C6H4]2Hg (R = 2′‐py, 4′‐py, 2′‐pyCH2, 4′‐pyCH2). Applied Organometallic Chemistry, 35(9), 1–15. https://doi.org/10.1002/aoc.6339

Chicago

Kiss, Levente, Alexandra Pop, Sergiu Shova, Ciprian I. Raț, and Cristian Silvestru. 2021. “Synthesis and Characterization of [4‐{(CH2O)2CH}C6H4]2Hg, [4‐(O=CH)C6H4]2Hg and [(E)‐4‐(RN=CH)C6H4]2Hg (R = 2′‐py, 4′‐py, 2′‐pyCH2, 4′‐pyCH2).” Applied Organometallic Chemistry 35 (9): 1–15. doi:10.1002/aoc.6339.