Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis

Jose M. Ortiz-Roldan; Salvador R.G. Balestra; Rocio Bueno-Perez; Sofía Calero; Elena Garcia-Perez; C. Richard A. Catlow; A. Rabdel Ruiz-Salvador; Said Hamad

doi:10.1098/rspa.2022.0201

Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis

Jose M. Ortiz-Roldan, Salvador R.G. Balestra, Rocio Bueno-Perez, Sofía Calero, Elena Garcia-Perez, C. Richard A. Catlow (Corresponding author), A. Rabdel Ruiz-Salvador (Corresponding author), Said Hamad (Corresponding author)

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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Ordered Nanoporous Metals (ONMs) form a new family of nanoporous materials composed only of pure metals. The expected impact is considerable from combining the ordered nanopore structure of MOFs, zeolites and carbon schwartzites with the robustness and electronic conductivity of metals. Little is known about their stability and structural features. Here we address these points to provide clues toward their rational synthesis, introducing an automatic atomistic design that uses model building and molecular dynamics structural relaxation, and is validated against the experimentally known ONMs. Analysing the properties of the 10 stable structures out of the 17 studied (14 of which are designed in this work) using four noble metals (Pt, Pd, Au and Ag), we have deciphered some key elements and structural descriptors that provide guidelines for the experimental synthesis of ONMS. The long-lived metastability of the stable ONMs is evidenced by the high free energy landscape, computed via Metadynamic simulations. The new ONMs permit molecular diffusion of various molecules of industrial relevance, increasing the expectation for their use in catalysis, separation, nanofiltration, batteries, fuel cells, etc. Stable low-cost ONMs are predicted using Earth-abundant Ni metal, which maintains the main features of their relative noble metal forms.

Originele taal-2	Engels
Artikelnummer	20220201
Aantal pagina's	21
Tijdschrift	Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences
Volume	478
Nummer van het tijdschrift	2266
DOI's	https://doi.org/10.1098/rspa.2022.0201
Status	Gepubliceerd - 26 okt. 2022

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© 2022 The Authors.

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J.M.O.-R. and S.R.G.B. acknowledge support from Ministerio de Educación, Cultura y Deporte (grant no. FPU14/01094) and Ministerio de Ciencia e Innovación (MICINN) for the Juan de la Cierva Formación fellowship (grant no. FJC2018-035697-I project), respectively. S.H. acknowledges funding from the Agencia Estatal de Investigación and the Ministerio de Ciencia, Innovación y Universidades, of Spain (grant no. PID2019-110430G B-C22), and from the EU FEDER Framework 2014–2020 and Consejería de Conocimiento, Investigación y Universidad of the Andalusian Government (grant no. FEDER-UPO-1265695). The authors also acknowledge the partial contribution from the European Research Council through the ERC Starting Grant (grant no. ERC2011-StG-279520-RASPA). Acknowledgments

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Ordered_Nanoporous_Metals_SI.zip from Understanding the stability and structural properties of ordered nanoporous metals toward their rational synthesis
Ortiz-Roldan, J. M. (Ontwerper), Balestra, S. R. G. (Ontwerper), Bueno-Perez, R. (Ontwerper), Calero, S. (Ontwerper), Garcia-Perez, E. (Ontwerper), Catlow, C. R. A. (Ontwerper), Ruiz-Salvador, A. R. (Ontwerper) & Hamad, S. (Ontwerper), The Royal Society, 15 sep. 2022
DOI: 10.6084/m9.figshare.21118160
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Supplementary material from "Understanding the stability and structural properties of ordered nanoporous metals toward their rational synthesis"
Ortiz-Roldan, J. M. (Ontwerper), Balestra, S. R. G. (Ontwerper), Bueno-Perez, R. (Ontwerper), Calero, S. (Ontwerper), Garcia-Perez, E. (Ontwerper), Catlow, C. R. A. (Ontwerper), Ruiz-Salvador, A. R. (Ontwerper) & Hamad, S. (Ontwerper), The Royal Society, 15 sep. 2022
DOI: 10.6084/m9.figshare.c.6198515, https://rs.figshare.com/collections/Supplementary_material_from_Understanding_the_stability_and_structural_properties_of_ordered_nanoporous_metals_toward_their_rational_synthesis_/6198515
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Ortiz-Roldan, J. M., Balestra, S. R. G., Bueno-Perez, R., Calero, S., Garcia-Perez, E., Catlow, C. R. A., Ruiz-Salvador, A. R., & Hamad, S. (2022). Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis. Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences, 478(2266), Artikel 20220201. https://doi.org/10.1098/rspa.2022.0201

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abstract = "Ordered Nanoporous Metals (ONMs) form a new family of nanoporous materials composed only of pure metals. The expected impact is considerable from combining the ordered nanopore structure of MOFs, zeolites and carbon schwartzites with the robustness and electronic conductivity of metals. Little is known about their stability and structural features. Here we address these points to provide clues toward their rational synthesis, introducing an automatic atomistic design that uses model building and molecular dynamics structural relaxation, and is validated against the experimentally known ONMs. Analysing the properties of the 10 stable structures out of the 17 studied (14 of which are designed in this work) using four noble metals (Pt, Pd, Au and Ag), we have deciphered some key elements and structural descriptors that provide guidelines for the experimental synthesis of ONMS. The long-lived metastability of the stable ONMs is evidenced by the high free energy landscape, computed via Metadynamic simulations. The new ONMs permit molecular diffusion of various molecules of industrial relevance, increasing the expectation for their use in catalysis, separation, nanofiltration, batteries, fuel cells, etc. Stable low-cost ONMs are predicted using Earth-abundant Ni metal, which maintains the main features of their relative noble metal forms.",

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author = "Ortiz-Roldan, {Jose M.} and Balestra, {Salvador R.G.} and Rocio Bueno-Perez and Sof{\'i}a Calero and Elena Garcia-Perez and Catlow, {C. Richard A.} and Ruiz-Salvador, {A. Rabdel} and Said Hamad",

note = "Funding Information: J.M.O.-R. and S.R.G.B. acknowledge support from Ministerio de Educaci{\'o}n, Cultura y Deporte (grant no. FPU14/01094) and Ministerio de Ciencia e Innovaci{\'o}n (MICINN) for the Juan de la Cierva Formaci{\'o}n fellowship (grant no. FJC2018-035697-I project), respectively. S.H. acknowledges funding from the Agencia Estatal de Investigaci{\'o}n and the Ministerio de Ciencia, Innovaci{\'o}n y Universidades, of Spain (grant no. PID2019-110430G B-C22), and from the EU FEDER Framework 2014–2020 and Consejer{\'i}a de Conocimiento, Investigaci{\'o}n y Universidad of the Andalusian Government (grant no. FEDER-UPO-1265695). The authors also acknowledge the partial contribution from the European Research Council through the ERC Starting Grant (grant no. ERC2011-StG-279520-RASPA). Acknowledgments ",

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Ortiz-Roldan, JM, Balestra, SRG, Bueno-Perez, R, Calero, S, Garcia-Perez, E, Catlow, CRA, Ruiz-Salvador, AR & Hamad, S 2022, 'Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis', Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences, vol. 478, nr. 2266, 20220201. https://doi.org/10.1098/rspa.2022.0201

Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis. / Ortiz-Roldan, Jose M.; Balestra, Salvador R.G.; Bueno-Perez, Rocio et al.
In: Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences, Vol. 478, Nr. 2266, 20220201, 26.10.2022.

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

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AU - Balestra, Salvador R.G.

AU - Bueno-Perez, Rocio

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AU - Garcia-Perez, Elena

AU - Catlow, C. Richard A.

AU - Ruiz-Salvador, A. Rabdel

AU - Hamad, Said

N1 - Funding Information: J.M.O.-R. and S.R.G.B. acknowledge support from Ministerio de Educación, Cultura y Deporte (grant no. FPU14/01094) and Ministerio de Ciencia e Innovación (MICINN) for the Juan de la Cierva Formación fellowship (grant no. FJC2018-035697-I project), respectively. S.H. acknowledges funding from the Agencia Estatal de Investigación and the Ministerio de Ciencia, Innovación y Universidades, of Spain (grant no. PID2019-110430G B-C22), and from the EU FEDER Framework 2014–2020 and Consejería de Conocimiento, Investigación y Universidad of the Andalusian Government (grant no. FEDER-UPO-1265695). The authors also acknowledge the partial contribution from the European Research Council through the ERC Starting Grant (grant no. ERC2011-StG-279520-RASPA). Acknowledgments

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N2 - Ordered Nanoporous Metals (ONMs) form a new family of nanoporous materials composed only of pure metals. The expected impact is considerable from combining the ordered nanopore structure of MOFs, zeolites and carbon schwartzites with the robustness and electronic conductivity of metals. Little is known about their stability and structural features. Here we address these points to provide clues toward their rational synthesis, introducing an automatic atomistic design that uses model building and molecular dynamics structural relaxation, and is validated against the experimentally known ONMs. Analysing the properties of the 10 stable structures out of the 17 studied (14 of which are designed in this work) using four noble metals (Pt, Pd, Au and Ag), we have deciphered some key elements and structural descriptors that provide guidelines for the experimental synthesis of ONMS. The long-lived metastability of the stable ONMs is evidenced by the high free energy landscape, computed via Metadynamic simulations. The new ONMs permit molecular diffusion of various molecules of industrial relevance, increasing the expectation for their use in catalysis, separation, nanofiltration, batteries, fuel cells, etc. Stable low-cost ONMs are predicted using Earth-abundant Ni metal, which maintains the main features of their relative noble metal forms.

AB - Ordered Nanoporous Metals (ONMs) form a new family of nanoporous materials composed only of pure metals. The expected impact is considerable from combining the ordered nanopore structure of MOFs, zeolites and carbon schwartzites with the robustness and electronic conductivity of metals. Little is known about their stability and structural features. Here we address these points to provide clues toward their rational synthesis, introducing an automatic atomistic design that uses model building and molecular dynamics structural relaxation, and is validated against the experimentally known ONMs. Analysing the properties of the 10 stable structures out of the 17 studied (14 of which are designed in this work) using four noble metals (Pt, Pd, Au and Ag), we have deciphered some key elements and structural descriptors that provide guidelines for the experimental synthesis of ONMS. The long-lived metastability of the stable ONMs is evidenced by the high free energy landscape, computed via Metadynamic simulations. The new ONMs permit molecular diffusion of various molecules of industrial relevance, increasing the expectation for their use in catalysis, separation, nanofiltration, batteries, fuel cells, etc. Stable low-cost ONMs are predicted using Earth-abundant Ni metal, which maintains the main features of their relative noble metal forms.

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KW - material design

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Ortiz-Roldan JM, Balestra SRG, Bueno-Perez R, Calero S, Garcia-Perez E, Catlow CRA et al. Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis. Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences. 2022 okt. 26;478(2266):20220201. doi: 10.1098/rspa.2022.0201

Understanding the stability and structural properties of ordered nanoporous metals towards their rational synthesis

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Ordered_Nanoporous_Metals_SI.zip from Understanding the stability and structural properties of ordered nanoporous metals toward their rational synthesis

Supplementary material from "Understanding the stability and structural properties of ordered nanoporous metals toward their rational synthesis"

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