2017
DOI: 10.1021/jacs.7b09463
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Water-Soluble and Ultrastable Ti4L6 Tetrahedron with Coordination Assembly Function

Abstract: We have successfully constructed a tetrahedral TiL cage with calixarene-like coordination-active vertices. It further features high solubility and stability in HO and DMF/HO solution, affording an interesting stepwise assembly function with other metal ions. Through trapping of different amounts of Co or Ln ions, the TiL tetrahedra can be organized into various dimensional architectures, including a TiL-Co cage, a TiL-Ln cage, a TiL-Ln chain, and a three-dimensional TiL-Ln framework. An unusual mixed-valence p… Show more

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Cited by 161 publications
(116 citation statements)
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“…However, compared to the numerous reports on TiO 2 and TOCs, the research in Ti‐based coordination cages is still in its rudimental stage . Tetrahedral Ti 4 L 4 and Ti 4 L 6 cages constructed firstly by Raymond and recently by us represent the few well‐characterized examples in this field . Thus, there is still plenty of room for the development of Ti‐organic cages, especially those with interesting host–guest photophysical behavior.…”
Section: Figurementioning
confidence: 99%
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“…However, compared to the numerous reports on TiO 2 and TOCs, the research in Ti‐based coordination cages is still in its rudimental stage . Tetrahedral Ti 4 L 4 and Ti 4 L 6 cages constructed firstly by Raymond and recently by us represent the few well‐characterized examples in this field . Thus, there is still plenty of room for the development of Ti‐organic cages, especially those with interesting host–guest photophysical behavior.…”
Section: Figurementioning
confidence: 99%
“…[29][30][31] Tetrahedral Ti 4 L 4 and Ti 4 L 6 cagesc onstructed firstly by Raymond and recently by us represent the few well-characterized examples in this field. [32][33][34] Thus,t here is still plenty of room for the development of Ti-organic cages, especially those with interestingh ost-guest photophysical behavior.…”
mentioning
confidence: 99%
“…[13][14][15][16][17][18][19] More importantly,o rganoaluminium with highly tailorable shape,c omposition, and surface properties represents an excellent platform for significant atomistic understanding.H owever, the fast hydrolysis of aluminum salts/alkoxides usually results in the formation of ametal oxide/hydroxide.Inthis regard, it is important to slow down its hydrolysis process to promote crystallization and simultaneously enable condensation occurs.R ecently,w eh ave applied organic ligands to delay the hydrolysis process of Ti IV ions through coordination interactions (denoted as coordination delayed hydrolysis (CDH)). [20][21][22][23][24] Therefore,w eb elieve the strategy can be used to understand the hydrolysis and condensation of Al III precursors,w hich remained relatively unexplored before. Considering the similar hydrolysis process between Ti IV and Al III ions,i ti sp redictable that the CDH strategy may bring an ew blueprint for constructing atomically-precise Almolecular architectures.…”
Section: Introductionmentioning
confidence: 99%
“…Previously, we reported a water‐soluble Ti‐based tetrahedral cage with calixarene‐like coordination active vertices (Figure ), namely, [(Me 2 NH 2 ) 8 (Ti 4 L 6 )] ⋅ Guests (PTC‐101, L=embonate) . It is worth pointing out that compound PTC‐101 has been applied as the starting material to realize coordination assembly with different metal ions through two‐step reaction.…”
Section: Figurementioning
confidence: 99%
“…Previously, we reported a water-soluble Ti-based tetrahedral cage with calixarene-like coordination active vertices ( Figure 1), namely, [(Me 2 NH 2 ) 8 (Ti 4 L 6 )] · Guests (PTC-101, L = embonate). [37] It is worth pointing out that compound PTC-101 has been applied as the starting material to realize coordination assembly with different metal ions through two-step reaction. For example, by trapping different amounts of Co or Ln ions, the Ti 4 L 6 tetrahedra can be organized into various dimensional architectures, including Ti 4 L 6 -Co 3 cage (PTC-103), Ti 4 L 6 ÀLn 2 cage (PTC-104), Ti 4 L 6 ÀLn 2 chain (PTC-105) and three-dimensional (3D) Ti 4 L 6 ÀLn framework (PTC-106).…”
mentioning
confidence: 99%