SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4376131518> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W4376131518 abstract "2D polymers have emerged as one of the most promising classes of organic photocatalysts for solar fuel production due to their tunability, charge-transport properties, and robustness. They are however difficult to process and so there are limited studies into the formation of heterojunction materials incorporating these components. In this work, a novel templating approach is used to combine an imine-based donor polymer and an acceptor polymer formed through Knoevenagel condensation. Heterojunction formation is shown to be highly dependent on the topological match of the donor and acceptor polymers with the most active templated material found to be between three and nine times more active for photocatalysis than its constituent components. Transient absorption spectroscopy reveals that this improvement is due to faster charge separation and more efficient charge extraction in the templated heterojunction. The templated material shows a very high hydrogen evolution rate of >20 mmol h-1 m-2 with an ascorbic acid hole scavenger but also produces hydrogen in the presence of only water and a cobalt-based redox mediator. This suggests the improved charge-separation interface and reduced trapping accessed through this approach could be suitable for Z-scheme formation." @default.
W4376131518 created "2023-05-12" @default.
W4376131518 creator A5003109673 @default.
W4376131518 creator A5011563070 @default.
W4376131518 creator A5030473941 @default.
W4376131518 creator A5034296749 @default.
W4376131518 creator A5044461492 @default.
W4376131518 creator A5045446711 @default.
W4376131518 creator A5054738342 @default.
W4376131518 creator A5071036385 @default.
W4376131518 creator A5072906791 @default.
W4376131518 creator A5075229194 @default.
W4376131518 creator A5086035043 @default.
W4376131518 creator A5087715456 @default.
W4376131518 creator A5091923032 @default.
W4376131518 date "2023-06-08" @default.
W4376131518 modified "2023-10-14" @default.
W4376131518 title "Templated 2D Polymer Heterojunctions for Improved Photocatalytic Hydrogen Production" @default.
W4376131518 cites W1971865766 @default.
W4376131518 cites W1984299451 @default.
W4376131518 cites W1985925664 @default.
W4376131518 cites W2008049864 @default.
W4376131518 cites W2012037219 @default.
W4376131518 cites W2025806519 @default.
W4376131518 cites W2028253542 @default.
W4376131518 cites W2039462622 @default.
W4376131518 cites W2042492216 @default.
W4376131518 cites W2043885009 @default.
W4376131518 cites W2050571756 @default.
W4376131518 cites W2073669869 @default.
W4376131518 cites W2094632890 @default.
W4376131518 cites W2130575124 @default.
W4376131518 cites W2143415304 @default.
W4376131518 cites W2150399639 @default.
W4376131518 cites W2239682801 @default.
W4376131518 cites W2262193673 @default.
W4376131518 cites W2297655526 @default.
W4376131518 cites W2332505450 @default.
W4376131518 cites W2385556747 @default.
W4376131518 cites W2410473697 @default.
W4376131518 cites W2414492537 @default.
W4376131518 cites W2442970291 @default.
W4376131518 cites W2461092331 @default.
W4376131518 cites W2462037391 @default.
W4376131518 cites W2510816119 @default.
W4376131518 cites W2515163590 @default.
W4376131518 cites W2600596882 @default.
W4376131518 cites W2741257603 @default.
W4376131518 cites W2747180765 @default.
W4376131518 cites W2749782235 @default.
W4376131518 cites W2805371382 @default.
W4376131518 cites W2806248932 @default.
W4376131518 cites W2809379320 @default.
W4376131518 cites W2889186339 @default.
W4376131518 cites W2893441209 @default.
W4376131518 cites W2893664032 @default.
W4376131518 cites W2897206486 @default.
W4376131518 cites W2901001562 @default.
W4376131518 cites W2912482743 @default.
W4376131518 cites W2915698770 @default.
W4376131518 cites W2940165352 @default.
W4376131518 cites W2943659611 @default.
W4376131518 cites W2970624419 @default.
W4376131518 cites W2972939183 @default.
W4376131518 cites W3003624551 @default.
W4376131518 cites W3008849464 @default.
W4376131518 cites W3011584298 @default.
W4376131518 cites W3020198206 @default.
W4376131518 cites W3028487631 @default.
W4376131518 cites W3030793002 @default.
W4376131518 cites W3041901875 @default.
W4376131518 cites W3093518611 @default.
W4376131518 cites W3126174173 @default.
W4376131518 cites W3164118286 @default.
W4376131518 cites W3193520668 @default.
W4376131518 cites W3201349979 @default.
W4376131518 cites W3210317568 @default.
W4376131518 cites W3212332402 @default.
W4376131518 cites W4210781752 @default.
W4376131518 cites W4220655628 @default.
W4376131518 cites W4220664998 @default.
W4376131518 cites W4220707158 @default.
W4376131518 cites W4221032507 @default.
W4376131518 cites W4225148539 @default.
W4376131518 cites W4248382734 @default.
W4376131518 cites W4307905182 @default.
W4376131518 cites W4308372397 @default.
W4376131518 doi "https://doi.org/10.1002/adma.202300037" @default.
W4376131518 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37165538" @default.
W4376131518 hasPublicationYear "2023" @default.
W4376131518 type Work @default.
W4376131518 citedByCount "1" @default.
W4376131518 countsByYear W43761315182023 @default.
W4376131518 crossrefType "journal-article" @default.
W4376131518 hasAuthorship W4376131518A5003109673 @default.
W4376131518 hasAuthorship W4376131518A5011563070 @default.
W4376131518 hasAuthorship W4376131518A5030473941 @default.
W4376131518 hasAuthorship W4376131518A5034296749 @default.
W4376131518 hasAuthorship W4376131518A5044461492 @default.
W4376131518 hasAuthorship W4376131518A5045446711 @default.