SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4385295483> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W4385295483 endingPage "15096" @default.
W4385295483 startingPage "15085" @default.
W4385295483 abstract "Tunable physicochemical properties of bimetallic core-shell heterostructured nanocrystals (HNCs) have shown enormous potential in electrocatalytic reactions. In many cases, HNCs are required to load on supports to inhibit catalyst aggregation. However, the introduction of supports during the process of growing core-shell HNCs makes the synthesis much more complicated and difficult to control precisely. Herein, we reported a universal photochemical synthetic strategy for the controlled synthesis of well-defined surfactant-free core-shell metal HNCs on a reduced graphene oxide (rGO) support, which was assisted by the fine control of photogenerated electrons directly transferring to the targeted metal seeds via rGO and the precisely tuned adsorption capacity of the added second metal precursors. The surface photovoltage microscopy (SPVM) platform proved that photogenerated electrons flowed through rGO to Pd particles under illumination. We have successfully synthesized 24 different core-shell metal HNCs, i.,e., MA@MB (MA = Pd, Au, and Pt; MB = Au, Ag, Pt, Pd, Ir, Ru, Rh, Ni and Cu), on the rGO supports. The as-prepared Pd@Cu core-shell HNCs showed outstanding performance in the electrocatalytic reduction of CO2 to CH4. This work could shed light on the controlled synthesis of more functional bimetallic nanostructured materials on diverse supports for various applications." @default.
W4385295483 created "2023-07-28" @default.
W4385295483 creator A5003626878 @default.
W4385295483 creator A5007372188 @default.
W4385295483 creator A5011065863 @default.
W4385295483 creator A5014942240 @default.
W4385295483 creator A5027606496 @default.
W4385295483 creator A5028576302 @default.
W4385295483 creator A5032191237 @default.
W4385295483 creator A5041982864 @default.
W4385295483 creator A5042264324 @default.
W4385295483 creator A5062325923 @default.
W4385295483 creator A5071894027 @default.
W4385295483 creator A5073741641 @default.
W4385295483 date "2023-07-27" @default.
W4385295483 modified "2023-10-18" @default.
W4385295483 title "A Surfactant-Free and General Strategy for the Synthesis of Bimetallic Core–Shell Nanocrystals on Reduced Graphene Oxide through Targeted Photodeposition" @default.
W4385295483 cites W1794337912 @default.
W4385295483 cites W1944742101 @default.
W4385295483 cites W1969878818 @default.
W4385295483 cites W1985167115 @default.
W4385295483 cites W1990662490 @default.
W4385295483 cites W1996758692 @default.
W4385295483 cites W1998358855 @default.
W4385295483 cites W2027283694 @default.
W4385295483 cites W2049752516 @default.
W4385295483 cites W2052380833 @default.
W4385295483 cites W2052583527 @default.
W4385295483 cites W2057848113 @default.
W4385295483 cites W2109351490 @default.
W4385295483 cites W2115531608 @default.
W4385295483 cites W2174088175 @default.
W4385295483 cites W2189078301 @default.
W4385295483 cites W2470199101 @default.
W4385295483 cites W2560456485 @default.
W4385295483 cites W2561188059 @default.
W4385295483 cites W2566048419 @default.
W4385295483 cites W2591877025 @default.
W4385295483 cites W2621487563 @default.
W4385295483 cites W2625339428 @default.
W4385295483 cites W2742312222 @default.
W4385295483 cites W2768274389 @default.
W4385295483 cites W2794169719 @default.
W4385295483 cites W2884653726 @default.
W4385295483 cites W2922228606 @default.
W4385295483 cites W2963242265 @default.
W4385295483 cites W2980280313 @default.
W4385295483 cites W2996626018 @default.
W4385295483 cites W3000386106 @default.
W4385295483 cites W3003002038 @default.
W4385295483 cites W3012832025 @default.
W4385295483 cites W3013644773 @default.
W4385295483 cites W3025294995 @default.
W4385295483 cites W3042445219 @default.
W4385295483 cites W3044411590 @default.
W4385295483 cites W3045070473 @default.
W4385295483 cites W3047977086 @default.
W4385295483 cites W3184656904 @default.
W4385295483 cites W3194830337 @default.
W4385295483 cites W3205769727 @default.
W4385295483 cites W3208946296 @default.
W4385295483 cites W4210597164 @default.
W4385295483 cites W4211027999 @default.
W4385295483 cites W4220662601 @default.
W4385295483 cites W4224022295 @default.
W4385295483 cites W4224233405 @default.
W4385295483 cites W4238661685 @default.
W4385295483 cites W4280553575 @default.
W4385295483 cites W4289519996 @default.
W4385295483 cites W4289836226 @default.
W4385295483 cites W4293059998 @default.
W4385295483 cites W4303453492 @default.
W4385295483 cites W4310113464 @default.
W4385295483 cites W4320486726 @default.
W4385295483 cites W4321164797 @default.
W4385295483 cites W4327893902 @default.
W4385295483 cites W4362716953 @default.
W4385295483 doi "https://doi.org/10.1021/acsnano.3c04281" @default.
W4385295483 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37497875" @default.
W4385295483 hasPublicationYear "2023" @default.
W4385295483 type Work @default.
W4385295483 citedByCount "0" @default.
W4385295483 crossrefType "journal-article" @default.
W4385295483 hasAuthorship W4385295483A5003626878 @default.
W4385295483 hasAuthorship W4385295483A5007372188 @default.
W4385295483 hasAuthorship W4385295483A5011065863 @default.
W4385295483 hasAuthorship W4385295483A5014942240 @default.
W4385295483 hasAuthorship W4385295483A5027606496 @default.
W4385295483 hasAuthorship W4385295483A5028576302 @default.
W4385295483 hasAuthorship W4385295483A5032191237 @default.
W4385295483 hasAuthorship W4385295483A5041982864 @default.
W4385295483 hasAuthorship W4385295483A5042264324 @default.
W4385295483 hasAuthorship W4385295483A5062325923 @default.
W4385295483 hasAuthorship W4385295483A5071894027 @default.
W4385295483 hasAuthorship W4385295483A5073741641 @default.
W4385295483 hasConcept C127413603 @default.
W4385295483 hasConcept C150394285 @default.
W4385295483 hasConcept C161790260 @default.