Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage

Rauhalahti M.; Munoz-Castro A.; Sundholm D.

首页> 外文期刊>RSC Advances >Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage

【24h】

Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage

机译：硫醇保护的金色富勒烯。涉及空心AU-32笼的32 Ve核心

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

We have computationally investigated the possible formation of large hollow gold nanostructures based on a Au-32 core covered with a thiolate layer using relativistic density functional theory calculations. We have found that [Au-32@Au-12(SR)(18)](6-) is a plausible candidate that retains the structural, electronic and spherical aromatic properties of the Au-32 cage of its parent bare Au-32 golden fullerene. The study shows that the low-energy part of the optical spectrum can serve as a guide to identify such hollow gold structures among other small-sized gold nanoclusters with similar nuclearities. The low-lying excited states are dominated by 1f -> 1g transitions, which significantly distinguish hollow clusters from other nanoclusters, like the prominent [Au-25(SR)(18)](-) cluster, whose low-lying excitations are dominated by 1p /1d transitions. The gold nanoclusters studied here can serve as model compounds for assessing the metallic core size effects on the absorption energies and the influence of the surface structure of the gold core on the cluster properties. The present study suggests that it is also plausible that even larger hollow structures derived from Au-42, Au-72, and Au-92 golden fullerenes can exist.

机译：我们已经计算地研究了使用相对论密度官能理论计算的硫醇层覆盖的Au-32芯的大型空心金纳米结构的可能形成。我们已经发现[AU-32 @ AU-12（SR）（18）]（6-）是一种可合理的候选者，其保留其父母裸AU-32的AU-32笼的结构，电子和球形芳香性能金富勒烯。该研究表明光谱的低能量部分可以用作识别具有类似核的其他小型金纳米纳米能器中的这种中空金结构的引导件。低洼兴奋的状态主要由1F - > 1G过渡，这显着区分了来自其他纳米单元的空心簇，如突出的[AU-25（SR）（18）]（ - ）集群，其低位激励是占主导地位的通过1p / 1d过渡。这里研究的金纳米能器可以作为模型化合物，用于评估金属芯尺寸对吸收能量的影响以及金芯的表面结构对簇性质的影响。本研究表明，甚至可以存在甚至越大的中空结构，衍生自AU-42，AU-72和Au-92金属富勒烯。

著录项

来源
《RSC Advances》 |2016年第26期|共5页
作者
Rauhalahti M.; Munoz-Castro A.; Sundholm D.;
展开▼
作者单位

Univ Helsinki Dept Chem POB 55 AL Virtanens Plats 1 FIN-00014 Helsinki Finland;

Univ Autonoma Chile Grp Quim Inorgan &

Mat Mol El Llano Subercaseaux 2801 Santiago Chile;

Univ Helsinki Dept Chem POB 55 AL Virtanens Plats 1 FIN-00014 Helsinki Finland;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类化学;
关键词

相似文献

外文文献
中文文献
专利

1. Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage [J] . Rauhalahti M., Munoz-Castro A., Sundholm D. RSC Advances . 2016,第26期

机译：硫醇保护的金色富勒烯。涉及空心AU-32笼的32 Ve核心
2. Evidence of hollow golden cages [J] . Satya Bulusu, Xi Li, Lai-Sheng Wang, Proceedings of the National Academy of Sciences of the United States of America . 2006,第22期

机译：空心金笼的证据
3. A Ligand-Protected Golden Fullerene: The Dipyridylamido Au-32(8+) Nanocluster [J] . Yuan Shang-Fu, Xu Cong-Qiao, Li Jun, Angewandte Chemie . 2019,第18期

机译：保护配体的金色富勒烯：双吡啶氨基AU-32（8+）纳米光栅
4. Numerical Analysis of Resistance and Dynamic Behavior of Gravity Cage Involving Multiple Cages of the Same Internal Volume [C] . Chun-woo Lee, Hirome Kinoshita, Subong Park, International Ocean and Polar Engineering Conference . 2019

机译：相同内部体积多个笼子的重力笼的抗性和动态行为的数值分析
5. Variation in Web-Shear Capacity of Hollow-Core Slabs with Filled Cores [D] . ?Asperheim, Scott A. 2020

机译：用填充芯的空心芯板的网剪电容量的变化
6. From the Cover: Evidence of hollow golden cages [O] . Satya Bulusu, Xi Li, Lai-Sheng Wang, 2006

机译：从封面：中空金色笼子的证据
7. Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage [O] . Rauhalahti, M., Munoz-Castro, A., Sundholm, D. 2016

机译：硫醇盐保护的金色富勒烯。带有空心Au-32笼的32-ve芯

Thiolate-protected golden fullerenes. A 32-ve core involving a hollow Au-32 cage

摘要

著录项

相似文献

相关主题

期刊订阅