2012
DOI: 10.1103/physrevb.86.125430
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Hybrid density functional study of small Rhn(n=215)clusters

Abstract: The physical properties of small rhodium clusters, Rh n , have been in debate due to the shortcomings of density functional theory (DFT). To help in the solution of those problems, we obtained a set of putative lowest energy structures for small Rh n (n = 2-15) clusters employing hybrid-DFT and the generalized gradient approximation (GGA). For n = 2-6, both hybrid and GGA functionals yield similar ground-state structures (compact), however, hybrid favors compact structures for n = 7-15, while GGA favors open s… Show more

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Cited by 39 publications
(14 citation statements)
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“…Supplementary Materials: The following are available online at www.mdpi.com/2073-4352/7/7/222/s1, Figure S1: V S (r), E S (r) and the favored H 2 O adsorption structure for Rh 13 at the decatet spin-state; Table S1: spin multiplicity and <S 2 > expectation values for the Pt 4 and TM 8 nanoclusters; Table S2: spin multiplicity and <S 2 > expectation values for the TM 13 nanoclusters; Table S3: spin projection corrected and non-corrected H 2 O interaction energies for Ir 13 and Rh 13 ; Table S4: site-resolved H 2 O adsorption data, V S,max , and E S,min for all TM 13 nanoclusters; Table S5: the number of V S,max , and E S,min as well as the s-, d-and p-occupation for Rh 13 at the decatet spin-state; Table S6: site-resolved H 2 O adsorption data, V S,max , and E S,min for Rh 13 at the decatet spin-state; additional computational data for Figures 1 and 3; optimized coordinates; supplementary references [60][61][62][63][64][65][66][67][68][69][70][71][72].…”
Section: Discussionmentioning
confidence: 99%
“…Supplementary Materials: The following are available online at www.mdpi.com/2073-4352/7/7/222/s1, Figure S1: V S (r), E S (r) and the favored H 2 O adsorption structure for Rh 13 at the decatet spin-state; Table S1: spin multiplicity and <S 2 > expectation values for the Pt 4 and TM 8 nanoclusters; Table S2: spin multiplicity and <S 2 > expectation values for the TM 13 nanoclusters; Table S3: spin projection corrected and non-corrected H 2 O interaction energies for Ir 13 and Rh 13 ; Table S4: site-resolved H 2 O adsorption data, V S,max , and E S,min for all TM 13 nanoclusters; Table S5: the number of V S,max , and E S,min as well as the s-, d-and p-occupation for Rh 13 at the decatet spin-state; Table S6: site-resolved H 2 O adsorption data, V S,max , and E S,min for Rh 13 at the decatet spin-state; additional computational data for Figures 1 and 3; optimized coordinates; supplementary references [60][61][62][63][64][65][66][67][68][69][70][71][72].…”
Section: Discussionmentioning
confidence: 99%
“…[49][50][51][52][53][54] Thus, with the aim to improve our atomistic understanding and to obtain possible new pGMC using the all-electron FHI-aims implementation, we optimized about 60 atomic configurations for each TM 13 system, which includes well-known structures such as the doublesimple cubic (DSC), icosahedral (ICO) with I h symmetry, cuboctahedral (CUB) with O h symmetry, hexagonal bilayer (HBL) and buckled-biplanar (BBP) with C 3v symmetry. Furthermore, it in-3 Figure 1: Putative global minimum configurations (pGMC) for water, ethanol (gauche), Ni 13 , Pd 13 , Pt 13 , Cu 13 , Ag 13 , and Au 13 (two-dimensional pGMC structure -pGMC2D) clusters.…”
Section: B Atomic Configurationsmentioning
confidence: 99%
“…Our strategy is based on the observation that the atomic structure of an alloy cluster may be derived from the parent unary compounds [63], given that the structural properties of binary systems follow an intermediate behaviour in relation to the unary ones [64]. The following steps were performed: (i) A set of lowest and high energy configurations were obtained from total energy calculations and literature [6,65] for the Pt m and Cu m clusters ðm ¼ 2 À 14Þ, which are composed by a diversified set of 2D and 3D structures. The number of calculated configurations for the unary case was around 4 m, e.g., about 56 configurations for m ¼ 14.…”
Section: Atomic Configurationsmentioning
confidence: 99%
“…For the past decades binary transition-metal (TM) clusters have attracted great interest [1] due to their unique structural, electronic, magnetic, and reactivity properties [2,3], which can be tuned by changing the number of atoms, composition, and charge states [4][5][6]. This fact opens the possibility for a wide range of technological applications, such as magnetic storage [7][8][9][10], and heterogeneous catalysis [2,[11][12][13][14].…”
Section: Introductionmentioning
confidence: 99%