Abstract
Fluoride boosts the oxidase-like activity of hydrolyzed Ce(<sc>iv</sc>) but inhibits the activity of Ce(<sc>iv</sc>), allowing intentional hydrolysis to be performed for consistent analysis of Ce(<sc>iv</sc>).- Cite:
- Yawen Wang, Jianzhong Yang, Yilin Zhao, and Juewen Liu. 2019. Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(
iv ) by producing oxidase-like nanozymes with F−. Chemical Communications, Volume 55, Issue 89, 55(89):13434–13437. - Copy Citation:
Export citation
@article{Wang-2019-Intentional, title = "Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce({\textless}scp{\textgreater}iv{\textless}/scp{\textgreater}) by producing oxidase-like nanozymes with F{\textless}sup{\textgreater}−{\textless}/sup{\textgreater}", author = "Wang, Yawen and Yang, Jianzhong and Zhao, Yilin and Liu, Juewen", journal = "Chemical Communications, Volume 55, Issue 89", volume = "55", number = "89", year = "2019", publisher = "Royal Society of Chemistry (RSC)", url = "https://gwf-uwaterloo.github.io/gwf-publications/G19-175001", doi = "10.1039/c9cc06167c", pages = "13434--13437", abstract = "Fluoride boosts the oxidase-like activity of hydrolyzed Ce({\textless}sc{\textgreater}iv{\textless}/sc{\textgreater}) but inhibits the activity of Ce({\textless}sc{\textgreater}iv{\textless}/sc{\textgreater}), allowing intentional hydrolysis to be performed for consistent analysis of Ce({\textless}sc{\textgreater}iv{\textless}/sc{\textgreater}).", }
<?xml version="1.0" encoding="UTF-8"?> <modsCollection xmlns="http://www.loc.gov/mods/v3"> <mods ID="Wang-2019-Intentional"> <titleInfo> <title>Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(\textlessscp\textgreateriv\textless/scp\textgreater) by producing oxidase-like nanozymes with F\textlesssup\textgreater−\textless/sup\textgreater</title> </titleInfo> <name type="personal"> <namePart type="given">Yawen</namePart> <namePart type="family">Wang</namePart> <role> <roleTerm authority="marcrelator" type="text">author</roleTerm> </role> </name> <name type="personal"> <namePart type="given">Jianzhong</namePart> <namePart type="family">Yang</namePart> <role> <roleTerm authority="marcrelator" type="text">author</roleTerm> </role> </name> <name type="personal"> <namePart type="given">Yilin</namePart> <namePart type="family">Zhao</namePart> <role> <roleTerm authority="marcrelator" type="text">author</roleTerm> </role> </name> <name type="personal"> <namePart type="given">Juewen</namePart> <namePart type="family">Liu</namePart> <role> <roleTerm authority="marcrelator" type="text">author</roleTerm> </role> </name> <originInfo> <dateIssued>2019</dateIssued> </originInfo> <typeOfResource>text</typeOfResource> <genre authority="bibutilsgt">journal article</genre> <relatedItem type="host"> <titleInfo> <title>Chemical Communications, Volume 55, Issue 89</title> </titleInfo> <originInfo> <issuance>continuing</issuance> <publisher>Royal Society of Chemistry (RSC)</publisher> </originInfo> <genre authority="marcgt">periodical</genre> <genre authority="bibutilsgt">academic journal</genre> </relatedItem> <abstract>Fluoride boosts the oxidase-like activity of hydrolyzed Ce(\textlesssc\textgreateriv\textless/sc\textgreater) but inhibits the activity of Ce(\textlesssc\textgreateriv\textless/sc\textgreater), allowing intentional hydrolysis to be performed for consistent analysis of Ce(\textlesssc\textgreateriv\textless/sc\textgreater).</abstract> <identifier type="citekey">Wang-2019-Intentional</identifier> <identifier type="doi">10.1039/c9cc06167c</identifier> <location> <url>https://gwf-uwaterloo.github.io/gwf-publications/G19-175001</url> </location> <part> <date>2019</date> <detail type="volume"><number>55</number></detail> <detail type="issue"><number>89</number></detail> <extent unit="page"> <start>13434</start> <end>13437</end> </extent> </part> </mods> </modsCollection>
%0 Journal Article %T Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(\textlessscp\textgreateriv\textless/scp\textgreater) by producing oxidase-like nanozymes with F\textlesssup\textgreater−\textless/sup\textgreater %A Wang, Yawen %A Yang, Jianzhong %A Zhao, Yilin %A Liu, Juewen %J Chemical Communications, Volume 55, Issue 89 %D 2019 %V 55 %N 89 %I Royal Society of Chemistry (RSC) %F Wang-2019-Intentional %X Fluoride boosts the oxidase-like activity of hydrolyzed Ce(\textlesssc\textgreateriv\textless/sc\textgreater) but inhibits the activity of Ce(\textlesssc\textgreateriv\textless/sc\textgreater), allowing intentional hydrolysis to be performed for consistent analysis of Ce(\textlesssc\textgreateriv\textless/sc\textgreater). %R 10.1039/c9cc06167c %U https://gwf-uwaterloo.github.io/gwf-publications/G19-175001 %U https://doi.org/10.1039/c9cc06167c %P 13434-13437
Markdown (Informal)
[Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(<scp>iv</scp>) by producing oxidase-like nanozymes with F<sup>−</sup>](https://gwf-uwaterloo.github.io/gwf-publications/G19-175001) (Wang et al., GWF 2019)
- Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(iv) by producing oxidase-like nanozymes with F− (Wang et al., GWF 2019)
ACL
- Yawen Wang, Jianzhong Yang, Yilin Zhao, and Juewen Liu. 2019. Intentional hydrolysis to overcome the hydrolysis problem: detection of Ce(
iv ) by producing oxidase-like nanozymes with F−. Chemical Communications, Volume 55, Issue 89, 55(89):13434–13437.