Microbial Cleavage of C–F Bonds in Two C6 Per- and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen… - … science & technology, 2020 - ACS Publications
The C–F bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …
被引用次数:100 相关文章

Microbial Cleavage of C–F Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen… - Environmental …, 2020 - escholarship.org
The CF bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

Microbial Cleavage of CF Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen… - Environmental …, 2020 - pubmed.ncbi.nlm.nih.gov
The CF bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

[引用][C] Microbial Cleavage of CF Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen… - Environmental …, 2020 - ui.adsabs.harvard.edu
Microbial Cleavage of CF Bonds in Two C6 Per- and Polyfluorinated Compounds via Reductive
Defluorination - NASA/ADS Now on home page ads icon ads Enable full ADS view NASA/ADS …
[PDF] archive.org

[PDF][PDF] Microbial Cleavage of CF Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive

Y Yu, K Zhang, Z Li - Environmental science & technology, 2020 - scholar.archive.org
The C− F bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …
[PDF] ehs-support.com

[PDF][PDF] Microbial Cleavage of C− F Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen, YH Lin, J Liu… - ehs-support.com
The C− F bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

Microbial Cleavage of CF Bonds in Two C6 Per- and Polyfluorinated Compounds via Reductive Defluorination.

Y Yu, K Zhang, Z Li, C Ren, J Chen, YH Lin… - Environmental …, 2020 - europepmc.org
The CF bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

Microbial Cleavage of CF Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen… - Environmental …, 2020 - experts.illinois.edu
The CF bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

Microbial Cleavage of CF Bonds in Two C6 Per-and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen, YH Lin… - … Science & Technology, 2020 - hero.epa.gov
The CF bond is one of the strongest single bonds in nature. Although microbial reductive
dehalogenation is well known for the other organohalides, no microbial reductive …

[引用][C] Microbial Cleavage of C–F Bonds in Two C6 Per- and Polyfluorinated Compounds via Reductive Defluorination

Y Yu, K Zhang, Z Li, C Ren, J Chen, YH Lin… - … Science & Technology, 2020 - cir.nii.ac.jp
Microbial Cleavage of C–F Bonds in Two C<sub>6</sub> Per- and Polyfluorinated Compounds
via Reductive Defluorination | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ …