IndraLab

Statements

CALM1 binds Ru. 6 / 6
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sparser
"The remarkable HER performance could be attributed to uniform ruthenium with the aid of highly dispersed ruthenium precursors (RuCAM) and subsequent annealing results in uniform ruthenium nanoparticles."
35498496
sparser
"In this study, we have successfully prepared a cheap and efficient catalyst with uniform ruthenium nanoparticles through highly dispersed nanorod RuCAM precursors by a simple stirring-calcination method, which could make the Ru species highly-dispersed and avoid the bulk agglomeration in the following calcination process."
35498496
sparser
"As illustrated in xref , Ru/CNO are synthesized via a facile stirring-calcination method in which RuCl 3 ·3H 2 O from its aqueous solution coordinates with melamine through amino groups with high efficiency at first, subsequently self-assembling with cyanuric acid through hydrogen bonds to form the metal–CAM complex (RuCAM) precipitation with high dispersity of ruthenium."
35498496
sparser
"We found that the RuCAM obtained by the stirring-calcination method is smaller in size than that obtained through a hydrothermal-calcination method, which is consistent from analysis with Brunauer–Emmett–Teller adsorption isotherm (BET) measurements (Tab."
35498496
sparser
"As shown in xref , upon calcination at 550 °C, the RuCAM precursors could be carbonized into O-doped and N-doped carbon (CNO) with uniform Ru nanoparticles (NPs) through a pyrolysis route under the carbothermal reduction atmosphere of N 2 ."
35498496
sparser
"The exceptional HER activity could be attributed to the RuCAM formed through hydrogen-bond-driven self-assembly between melamine and cyanuric acid, which has a larger specific surface area and a great number of single-sites for the coordination of Ru with N and O, resulting in ruthenium precursors for subsequent annealing to be uniform ruthenium nanoparticles."
35498496