2021
DOI: 10.1002/smll.202007908
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Cryoaerogels and Cryohydrogels as Efficient Electrocatalysts

Abstract: Additive‐free cryoaerogel coatings from noble metal nanoparticles are prepared and electrochemically investigated. By using liquid nitrogen or isopentane as cooling medium, two different superstructures are created for each type of noble metal nanoparticle. These materials (made from the same amount of particles) have superior morphological and catalytic properties as compared to simply immobilized, densely packed nanoparticles. The morphology of all materials is investigated with scanning electron microscopy … Show more

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Cited by 27 publications
(46 citation statements)
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“…Additionally, we have also demonstrated recently that cryoaerogelation is a promising route to fabricate gel coatings for electrochemical applications. Cryoaerogelation is a novel approach practically including two main steps: (i) the flash freezing of the highly concentrated and colloidally stable aqueous nanoparticle solution and (ii) the subsequent freeze drying of the evolved structure. In the freezing step, the formation of the ice crystals (under the control of their growth via the freezing medium) confines the nanoparticles (NPs) into the crystal boundaries forming sheetlike structures. , The ice template is then removed using lyophilization to preserve the structure prepared in the frozen state.…”
Section: Introductionmentioning
confidence: 99%
See 2 more Smart Citations
“…Additionally, we have also demonstrated recently that cryoaerogelation is a promising route to fabricate gel coatings for electrochemical applications. Cryoaerogelation is a novel approach practically including two main steps: (i) the flash freezing of the highly concentrated and colloidally stable aqueous nanoparticle solution and (ii) the subsequent freeze drying of the evolved structure. In the freezing step, the formation of the ice crystals (under the control of their growth via the freezing medium) confines the nanoparticles (NPs) into the crystal boundaries forming sheetlike structures. , The ice template is then removed using lyophilization to preserve the structure prepared in the frozen state.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, metal nanoparticle gel structures mainly consist of small, spherical particles. The use of cryoaerogels as electrocatalysts with multimodal porosity is still in its infancy: first, we have demonstrated recently the enhanced electrocatalytic activity of cryoaerogels and cryohydrogels consisting of small Au, Pd, and Pt nanoparticles over their dried nanoparticle films . As another alternative, nanoporous gold and silver have also been developed and their advantageous electrocatalytic properties in ethanol oxidation reaction (EOR) and glucose sensing were proven. Nanorods (NRs) are underrepresented in these studies, due to their larger size, more complex preparation route, and most importantly the scarcity of synthesis routes providing high enough nanorod concentrations.…”
Section: Introductionmentioning
confidence: 99%
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“…[ 11 ] Several carbon materials, such as single walled carbon nanotube, [ 12 ] graphene hydrogel, [ 13 ] carbon nano‐onions, [ 14 ] multi‐walled carbon nanotube (MWCNT), [ 15 ] and reduced graphene oxide [ 16 ] have shown an enhancement between 200% and 600% in their specific capacitances by means of doping with Ag, Au, or Pt. Palladium is of great interest as dopant due to its high affinity for hydrogen and catalytic activity, [ 17 ] besides it is the most abundant noble metal on the Earth and therefore the least expensive among them. Consequently, it has been widely evaluated as an additive in carbonaceous materials [ 18 ] for catalysis [ 19–23 ] and hydrogen storage.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, the present paper analyzes the electrochemical and physicochemical properties of Pd‐doped cellulose carbon aerogels as a novel carbon‐metal hybrid material obtained through cryogelation, which is a versatile tool for preparing aerogels from different colloidal nanoparticles. [ 17,36–39 ] In this work, a different strategy compared to other previously reported syntheses of metal‐doped carbon aerogels is used, [ 9 ] via dispersing the previously synthesized PdNPs in the cellulose solution, which is further processed to obtain Pd‐doped carbon aerogels. Thus, Pd nanoparticles are synthesized and then they are dispersed in the cellulose dissolution prior to the cross‐linking and carbonization process.…”
Section: Introductionmentioning
confidence: 99%