Crystal Structure of Barrel-Shaped Chiral Au130(p-MBT)50 Nanocluster

Chen, Yuxiang; Zeng, Chenjie; Liu, Chong; Kirschbaum, Kristin; Gayathri, Chakicherla; Gil, Roberto R.; Rosi, Nathaniel L.; Jin, Rongchao

doi:10.1021/jacs.5b05378

Cited by 238 publications

(314 citation statements)

References 35 publications

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“…Recently, significant experimental advances have been made in the structure determination of several magic-sized Au n (SR) m clusters in the size region of about 0.5−2 nm. The atomic structures of Au 133 (SPh-t-Bu) 52 , 12,13 Au 130 (SC 12 H 25 ) 50 , 14,15 Au 102 (p-MBA) 44 , 16 Au 68 (3-MBA) 31−34 (3-MBA = 3-mercaptobenzoic acid), 17 Au 52 (TBBT) 32 (TBBT = 4-tert-butylbenzenethiol), 10 Au 40 (o-MBT) 24 (o-MBT = mercaptobenzothiazole), 18 Au 38 (SCH 2 CH 2 Ph) 24 , 19 Au 25 (SCH 2 CH 2 Ph) 18 − , 20,21 Au 36 (SPht-Bu) 2 4 , 2 2 Au 3 0 S(S-t-Bu) 1 8 , 2 3 Au 2 8 (SPh-t-Bu) 2 0 , 2 4 Au 24 (SCH 2 Ph-t-Bu) 20 , 25 Au 24 (SAdm) 16 , 26 Au 23 (SPh) 16 − , 27 Au 20 (SPh-t-Bu) 16 , 28 and Au 18 (SC 6 H 11 ) 14 29, 30 were determined by single X-ray crystallography and powerful single-particle transmission electron microscopy (SP-TEM). Based on the resolved cluster structures, a generic structural rule denoted as the "divide-and-protect" concept has been summarized.…”

Section: Introductionmentioning

confidence: 99%

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Ma¹,

Wang²,

Zhou³

et al. 2016

J. Phys. Chem. C

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The atomic structure of recently synthesized thiolate-protected Au 76 cluster is theoretically predicted via a simple structural rule summarized from the crystal structures of thiolateprotected Au 44 (SR) 28 , Au 36 (SR) 24 , and Au 52 (SR) 32 clusters. We find that Au 76 (SR) 44 (N = 7) and recently reported Au 52 (SR) 32 (N = 4), Au 44 (SR) 28 (N = 3), Au 36 (SR) 24 (N = 2), and Au 28 (SR) 20 (N = 1) belong to a family of homologous Au 20+8N (SR) 16+4N clusters whose Au cores follow a one-dimensional polytetrahedral growth pathway. The Au 76 (SR) 44 cluster is predicted to contain an anisotropic facecentered-cubic (fcc) Au core, which can be viewed as combination of two helical tetrahedra Au 4 chains and is remarkably different from the well-known spherical Au core in ligand-protected gold clusters in the size region of 1−2 nm. The intense near-infrared (NIR) absorption of Au 76 (SR) 44 is attributed to the synergistic effect of anisotropic Au core structure and ligand protections. A plausible cluster-to-cluster transformation mechanism is further suggested.

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Section: Introductionmentioning

confidence: 99%

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Ma¹,

Wang²,

Zhou³

et al. 2016

J. Phys. Chem. C

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“…[14][15][16] The staple motifs eventually close up and evolve into an octameric Au 8 (SR) 8 ring motif in the Au 20 (SR) 16 nanocluster. 17 For the larger-sized Au 130 (SR) 50 and Au 133 (SR) 52 nanoclusters, 18,19 their extended, curved surfaces are found to be exclusively protected -S-Au-Sstaple motifs, which are further self-aligned and assembled into ripple or helical-like stripe patterns. Such stripe patterns are reminiscent of the rectangular stripes observed in the Au(111) SAMs.…”

mentioning

confidence: 99%

“…18,19 (ii) The edge and corner sites can be viewed as being protected respectively by the monomeric and dimeric staple motifs, and they are the natural extension of the surface bridging thiolates, since the staple motifs can be decomposed into simple bridging units. It implies that the staple motifs are favored on the curved surface and at the edge/corner sites.…”

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confidence: 99%

Atomic Structure of Self-Assembled Monolayer of Thiolates on a Tetragonal Au₉₂ Nanocrystal

et al. 2016

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Unveiling the ligand binding mode on the crystalline surfaces is important for deciphering the long-standing structural enigma in self-assembled monolayers (SAMs). Here, the binding and patterning structures of thiolates (SR) on the Au(100) crystalline facet are revealed on the basis of the atomic structure of a highly regular, single crystalline Au92(SR)44 nanocrystal. The six exposed facets of this tetragonal nanocrystal give rise to six pieces of "nanoSAMs". We found that thiolates bind to the planar (100) facets of the nanocrystal via a simple bridge-like mode and are assembled into an overlayer with c(2 × 2) symmetry. The Au-S binding mode and translational symmetry in the kernel and on the surface of the Au92 nanocrystal can be generalized infinitely to construct the bulk two-dimensional SAMs and various tetragonal nanocrystals.

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“…The most prominent examples (only one for each of the elements mentioned above) are [Al 77 (N(SiMe 3 ) 2 ) 20 ] 2À , [4] [Ga 84 (N(SiMe 3 ) 2 ) 20 ] 4À , [5] Ge 18 [Si-(SiMe 3 ) 3 ] 6 , [6] Sn 15 Ar 6 (Ar = NSiMe 3 Dipp; Dipp = 2,6-iPr 2 -C 6 H 3 ), [7] and Pb 10 [Si(SiMe 3 ) 3 ] 6 . [8] These metalloid clusters are synthesized via different synthetic strategies: [Al 77 6 were obtained via the reduction of a M II precursor.…”

mentioning

confidence: 99%

Au₁₀₈S₂₄(PPh₃)₁₆: A Highly Symmetric Nanoscale Gold Cluster Confirms the General Concept of Metalloid Clusters

2016

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The reduction of (Ph P)AuCl with NaBH in the presence of HSC(SiMe ) , leads to one of the largest metalloid gold clusters: Au S (PPh ) (1). Within 1 an octahedral Au core of gold atoms arranged as in Au metal is surrounded by 48 oxidized Au atoms of an Au S shell, a novel building block in gold chemistry. The protecting Au S shell is completed by additional 16 Au(PPh ) units, leading to a complete protection of the gold core. Within 1 the Au-Au distances get more molecular on going from the center to the ligand shell. Cluster 1 represents novel structural motives in the field of metalloid gold clusters which also are partly typical for metal atoms in metalloid clusters: M R (n>m).

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Crystal Structure of Barrel-Shaped Chiral Au₁₃₀(p-MBT)₅₀ Nanocluster

Cited by 238 publications

References 35 publications

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Atomic Structure of Self-Assembled Monolayer of Thiolates on a Tetragonal Au₉₂ Nanocrystal

Au₁₀₈S₂₄(PPh₃)₁₆: A Highly Symmetric Nanoscale Gold Cluster Confirms the General Concept of Metalloid Clusters

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Crystal Structure of Barrel-Shaped Chiral Au130(p-MBT)50 Nanocluster

Cited by 238 publications

References 35 publications

Correlating the Structure and Optical Absorption Properties of Au76(SR)44 Cluster

Correlating the Structure and Optical Absorption Properties of Au76(SR)44 Cluster

Atomic Structure of Self-Assembled Monolayer of Thiolates on a Tetragonal Au92 Nanocrystal

Au108S24(PPh3)16: A Highly Symmetric Nanoscale Gold Cluster Confirms the General Concept of Metalloid Clusters

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Crystal Structure of Barrel-Shaped Chiral Au₁₃₀(p-MBT)₅₀ Nanocluster

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Correlating the Structure and Optical Absorption Properties of Au₇₆(SR)₄₄ Cluster

Atomic Structure of Self-Assembled Monolayer of Thiolates on a Tetragonal Au₉₂ Nanocrystal

Au₁₀₈S₂₄(PPh₃)₁₆: A Highly Symmetric Nanoscale Gold Cluster Confirms the General Concept of Metalloid Clusters