The smallest triple-ring tubular gold clusters M@Au with M = Mo, W: stability, electronic properties and nonlinear optical response

The smallest triple ring tube-like gold clusters M 2 @Au 15 q with M = Mo, W and q = 1, 0, −1 are reported for the first time. Incorporation of an M 2 dimer results in a remarkable modification of both atomic and electronic structures of the gold host. While the bare Au 15 cluster exhibits a 3D cage...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2024-08, Vol.26 (32), p.21493-2153
Hauptverfasser:	Trang, Nguyen Thi Bao, Dang, Minh Triet, Si, Nguyen Thanh, Thao, Tran Thi Ngoc, Thao, Pham Thi Bich, Nguyen, Minh Tho, Nhat, Pham Vu
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container_title	Physical chemistry chemical physics : PCCP
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creator	Trang, Nguyen Thi Bao Dang, Minh Triet Si, Nguyen Thanh Thao, Tran Thi Ngoc Thao, Pham Thi Bich Nguyen, Minh Tho Nhat, Pham Vu
description	The smallest triple ring tube-like gold clusters M 2 @Au 15 q with M = Mo, W and q = 1, 0, −1 are reported for the first time. Incorporation of an M 2 dimer results in a remarkable modification of both atomic and electronic structures of the gold host. While the bare Au 15 cluster exhibits a 3D cage shape, the doubly doped clusters M 2 @Au 15 in all charge states are found to prefer a tubular form composed of three five-membered Au rings in an anti-prism arrangement and stabilized by an M 2 unit placed inside the tube-like Au 15 gold framework. The equilibrium geometry of both M 2 @Au 15 and M 2 @Au 15 − is not much modified upon electron detachment from or attachment to their pure gold counterpart. The anion M 2 @Au 15 − with 28 itinerant electrons establishes an electron shell configuration of 1S 2 1P 6 1D 10 2S 2 1F 8 , in which the 1F shell splits into four different sub-levels. These stable clusters are thus not magic. Computed results on the first and second hyper-polarizability parameters of the doped clusters show a strong dependence on the charge. Overall, the neutral M 2 @Au 15 is found to exhibit a particularly strong nonlinear optical (NLO) response. These clusters can also be extended to 1D nanowires, providing helpful guidance for the design of novel gold-based nanowires with rich optoelectronic properties. Formation of (M 2 @Au 15 ) 2 dimers from M 2 @Au 15 monomers.
doi_str_mv	10.1039/d4cp00711e
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Incorporation of an M 2 dimer results in a remarkable modification of both atomic and electronic structures of the gold host. While the bare Au 15 cluster exhibits a 3D cage shape, the doubly doped clusters M 2 @Au 15 in all charge states are found to prefer a tubular form composed of three five-membered Au rings in an anti-prism arrangement and stabilized by an M 2 unit placed inside the tube-like Au 15 gold framework. The equilibrium geometry of both M 2 @Au 15 and M 2 @Au 15 − is not much modified upon electron detachment from or attachment to their pure gold counterpart. The anion M 2 @Au 15 − with 28 itinerant electrons establishes an electron shell configuration of 1S 2 1P 6 1D 10 2S 2 1F 8 , in which the 1F shell splits into four different sub-levels. These stable clusters are thus not magic. Computed results on the first and second hyper-polarizability parameters of the doped clusters show a strong dependence on the charge. Overall, the neutral M 2 @Au 15 is found to exhibit a particularly strong nonlinear optical (NLO) response. These clusters can also be extended to 1D nanowires, providing helpful guidance for the design of novel gold-based nanowires with rich optoelectronic properties. 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Incorporation of an M 2 dimer results in a remarkable modification of both atomic and electronic structures of the gold host. While the bare Au 15 cluster exhibits a 3D cage shape, the doubly doped clusters M 2 @Au 15 in all charge states are found to prefer a tubular form composed of three five-membered Au rings in an anti-prism arrangement and stabilized by an M 2 unit placed inside the tube-like Au 15 gold framework. The equilibrium geometry of both M 2 @Au 15 and M 2 @Au 15 − is not much modified upon electron detachment from or attachment to their pure gold counterpart. The anion M 2 @Au 15 − with 28 itinerant electrons establishes an electron shell configuration of 1S 2 1P 6 1D 10 2S 2 1F 8 , in which the 1F shell splits into four different sub-levels. These stable clusters are thus not magic. Computed results on the first and second hyper-polarizability parameters of the doped clusters show a strong dependence on the charge. Overall, the neutral M 2 @Au 15 is found to exhibit a particularly strong nonlinear optical (NLO) response. These clusters can also be extended to 1D nanowires, providing helpful guidance for the design of novel gold-based nanowires with rich optoelectronic properties. 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Incorporation of an M 2 dimer results in a remarkable modification of both atomic and electronic structures of the gold host. While the bare Au 15 cluster exhibits a 3D cage shape, the doubly doped clusters M 2 @Au 15 in all charge states are found to prefer a tubular form composed of three five-membered Au rings in an anti-prism arrangement and stabilized by an M 2 unit placed inside the tube-like Au 15 gold framework. The equilibrium geometry of both M 2 @Au 15 and M 2 @Au 15 − is not much modified upon electron detachment from or attachment to their pure gold counterpart. The anion M 2 @Au 15 − with 28 itinerant electrons establishes an electron shell configuration of 1S 2 1P 6 1D 10 2S 2 1F 8 , in which the 1F shell splits into four different sub-levels. These stable clusters are thus not magic. Computed results on the first and second hyper-polarizability parameters of the doped clusters show a strong dependence on the charge. Overall, the neutral M 2 @Au 15 is found to exhibit a particularly strong nonlinear optical (NLO) response. These clusters can also be extended to 1D nanowires, providing helpful guidance for the design of novel gold-based nanowires with rich optoelectronic properties. Formation of (M 2 @Au 15 ) 2 dimers from M 2 @Au 15 monomers.</abstract><doi>10.1039/d4cp00711e</doi><tpages>11</tpages></addata></record>
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title	The smallest triple-ring tubular gold clusters M@Au with M = Mo, W: stability, electronic properties and nonlinear optical response
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