SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313367003> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W4313367003 endingPage "676" @default.
W4313367003 startingPage "664" @default.
W4313367003 abstract "Hydrogen peroxide (H2O2) plays an essential role in many industrial fields and is globally listed as one of the indispensable chemicals. However, synthesizing H2O2 using the anthraquinone oxidation (AO) process requires multiple steps and releases hazardous organic compounds, which could seriously lead to many environmental and human health-related problems. Therefore, an urgent need for manufacturing H2O2 using green and sustainable methods to deal with the mentioned issues has enormously captured scientific interest. In this circumstance, the integration of piezo and photo effects on the generation of H2O2 from water and oxygen with the requirements of using low-cost and efficient catalytic materials is majorly considered. Herein, we report a simple and efficient way to produce H2O2 by employing modified graphitic carbon nitride (g-C3N4) catalysts to achieve the targets. The nanostructured materials were intensively characterized to deeply understand how the catalysts work to produce a significant amount of H2O2, reaching up to 1147.03 μM within 1 h irradiation. The findings showed that the fabrication of novel metal–carbon bonds and other functional groups could be responsible for adding more active sites in the system, promoting the enhancement of catalytic activities. This work would offer scientists a novel outlook to design and develop carbon-based materials for producing fine chemicals from catalysis and other applications." @default.
W4313367003 created "2023-01-06" @default.
W4313367003 creator A5019513718 @default.
W4313367003 creator A5020906645 @default.
W4313367003 creator A5024599961 @default.
W4313367003 creator A5026220137 @default.
W4313367003 creator A5034926928 @default.
W4313367003 creator A5062874259 @default.
W4313367003 creator A5086921768 @default.
W4313367003 creator A5088706645 @default.
W4313367003 date "2022-12-30" @default.
W4313367003 modified "2023-10-06" @default.
W4313367003 title "Defect Engineering of Porous g-C3N4 to Add Multifunctional Groups for Enhanced Production of H2O2 via Piezo-Photocatalysis" @default.
W4313367003 cites W1160683123 @default.
W4313367003 cites W1837740200 @default.
W4313367003 cites W1980273434 @default.
W4313367003 cites W2024555287 @default.
W4313367003 cites W2034957558 @default.
W4313367003 cites W2046573182 @default.
W4313367003 cites W2051516460 @default.
W4313367003 cites W2054538855 @default.
W4313367003 cites W2057968132 @default.
W4313367003 cites W2165436688 @default.
W4313367003 cites W2216446910 @default.
W4313367003 cites W2221859127 @default.
W4313367003 cites W2323576468 @default.
W4313367003 cites W2326494589 @default.
W4313367003 cites W2462037391 @default.
W4313367003 cites W2520912349 @default.
W4313367003 cites W2535987462 @default.
W4313367003 cites W2536356006 @default.
W4313367003 cites W2581445110 @default.
W4313367003 cites W2585592272 @default.
W4313367003 cites W2792957540 @default.
W4313367003 cites W2794292334 @default.
W4313367003 cites W2805635108 @default.
W4313367003 cites W2890606519 @default.
W4313367003 cites W2913737506 @default.
W4313367003 cites W2914316573 @default.
W4313367003 cites W2914425145 @default.
W4313367003 cites W2940026479 @default.
W4313367003 cites W2954024043 @default.
W4313367003 cites W2967149841 @default.
W4313367003 cites W2967689281 @default.
W4313367003 cites W2969307333 @default.
W4313367003 cites W2970795109 @default.
W4313367003 cites W2973005009 @default.
W4313367003 cites W2976897282 @default.
W4313367003 cites W2989206475 @default.
W4313367003 cites W2996897557 @default.
W4313367003 cites W3009470863 @default.
W4313367003 cites W3022177186 @default.
W4313367003 cites W3023758349 @default.
W4313367003 cites W3025940777 @default.
W4313367003 cites W3046936046 @default.
W4313367003 cites W3048844153 @default.
W4313367003 cites W3059924116 @default.
W4313367003 cites W3083997542 @default.
W4313367003 cites W3087862415 @default.
W4313367003 cites W3096542154 @default.
W4313367003 cites W3113504211 @default.
W4313367003 cites W3125665443 @default.
W4313367003 cites W3151645579 @default.
W4313367003 cites W3159117327 @default.
W4313367003 cites W3159872035 @default.
W4313367003 cites W3169569073 @default.
W4313367003 cites W3183822945 @default.
W4313367003 cites W3196445318 @default.
W4313367003 cites W3197175007 @default.
W4313367003 cites W3201951846 @default.
W4313367003 cites W3203345582 @default.
W4313367003 cites W3211021035 @default.
W4313367003 cites W3213635546 @default.
W4313367003 cites W3216717426 @default.
W4313367003 cites W4205149139 @default.
W4313367003 cites W4214826604 @default.
W4313367003 cites W4220814928 @default.
W4313367003 cites W4229014509 @default.
W4313367003 cites W4281699296 @default.
W4313367003 cites W4292421449 @default.
W4313367003 cites W4293526802 @default.
W4313367003 cites W4300772150 @default.
W4313367003 doi "https://doi.org/10.1021/acsanm.2c04829" @default.
W4313367003 hasPublicationYear "2022" @default.
W4313367003 type Work @default.
W4313367003 citedByCount "8" @default.
W4313367003 countsByYear W43133670032023 @default.
W4313367003 crossrefType "journal-article" @default.
W4313367003 hasAuthorship W4313367003A5019513718 @default.
W4313367003 hasAuthorship W4313367003A5020906645 @default.
W4313367003 hasAuthorship W4313367003A5024599961 @default.
W4313367003 hasAuthorship W4313367003A5026220137 @default.
W4313367003 hasAuthorship W4313367003A5034926928 @default.
W4313367003 hasAuthorship W4313367003A5062874259 @default.
W4313367003 hasAuthorship W4313367003A5086921768 @default.
W4313367003 hasAuthorship W4313367003A5088706645 @default.
W4313367003 hasConcept C104779481 @default.
W4313367003 hasConcept C127413603 @default.