APA
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Jankins, T. C., Bell, W. C., Zhang, Y., Qin, Z.-Y., Chen, J. S., Gembicky, M., … Engle, K. M. (2022). 188. Low-valent tungsten redox catalysis enables controlled isomerization and carbonylative functionalization of alkenes. Nature Chemistry, 14, 632–639. https://doi.org/10.1038/s41557-022-00951-y
Chicago/Turabian
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Jankins, Tanner C., William C. Bell, Yu Zhang, Zi-Yang Qin, Jason S. Chen, Milan Gembicky, Peng Liu, and Keary M. Engle. “188. Low-Valent Tungsten Redox Catalysis Enables Controlled Isomerization and Carbonylative Functionalization of Alkenes.” Nature Chemistry 14 (June 1, 2022): 632–639.
MLA
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Jankins, Tanner C., et al. “188. Low-Valent Tungsten Redox Catalysis Enables Controlled Isomerization and Carbonylative Functionalization of Alkenes.” Nature Chemistry, vol. 14, June 2022, pp. 632–39, doi:10.1038/s41557-022-00951-y.
BibTeX Click to copy
@article{jankins2022a,
title = {188. Low-valent tungsten redox catalysis enables controlled isomerization and carbonylative functionalization of alkenes},
year = {2022},
month = jun,
day = {1},
journal = {Nature Chemistry},
pages = {632-639},
volume = {14},
doi = {10.1038/s41557-022-00951-y},
author = {Jankins, Tanner C. and Bell, William C. and Zhang, Yu and Qin, Zi-Yang and Chen, Jason S. and Gembicky, Milan and Liu, Peng and Engle, Keary M.},
month_numeric = {6}
}
