Your search keyword '"Ao YF"' showing total 8 results

1. Chiral Bis-phosphate Macrocycles for Catalytic, Efficient, and Enantioselective Electrophilic Fluorination.

Author

Zhang LW, Wang XD, Ao YF, Wang DX, and Wang QQ

Abstract

Incorporation of privileged catalytic scaffolds into a macrocyclic skeleton represents an attractive strategy to furnish supramolecular catalysis systems with enzyme-mimetic cavity and multi-site cooperation. Herein we reported the synthesis, structure, binding properties and catalytic application of a series of chiral bis-phosphate macrocycles toward the challenging asymmetric electrophilic fluorination. With a large, integrated chiral cavity and two cooperative phosphate sites, these macrocycles exhibited good inclusion toward 1,4-diazabicyclo[2.2.2]octane (DABCO) dicationic ammoniums through complementary ion-pair and C-H⋅⋅⋅O interactions, as confirmed by crystallographic and solution binding studies. In fluorocyclization of tryptamines with Selectfluor reagent which has a similar DABCO-based dicationic structure, only 2 mol% macrocycle catalyst afforded the desired pyrroloindoline products in moderate yields and up to 91 % ee. For comparison, the acyclic mono-phosphate analogue gave obviously lower reactivity and enantioselectivity (<20 % ee), suggesting a remarkable macrocyclic effect. The high catalytic efficiency and superior stereocontrol were ascribed to the tight ion-pair binding and cavity-directed noncovalent interaction cooperation., (© 2024 Wiley-VCH GmbH.)

Published

2024

2. Mimicking the Shape and Function of the ClC Chloride Channel Selective Pore by Combining a Molecular Hourglass Shape with Anion-π Interactions.

Author

Huang WL, Wang XD, Ao YF, Wang QQ, and Wang DX

Abstract

ClC is the main family of natural chloride channel proteins that transport Cl - across the cell membrane with high selectivity. The chloride transport and selectivity are determined by the hourglass-shaped pore and the filter located in the central and narrow region of the pore. Artificial unimolecular channel that mimics both the shape and function of the ClC selective pore is attractive, because it could provide simple molecular model to probe the intriguing mechanism and structure-function relevance of ClC. Here we elaborated upon the concept of molecular hourglass plus anion-π interactions for this purpose. The concept was validated by experimental results of molecular hourglasses using shape-persistent 1,3-alternate tetraoxacalix[2]arene[2]triazine as the central macrocyclic skeleton to control the conductance and selectivity, and anion-π interactions as the driving force to facilitate the chloride dehydration and movement along the channel., (© 2024 Wiley‐VCH GmbH.)

Published

2024

3. Chiral Benzene Triimide (BTI) Radical Anions for Probing the Interplay of Unpaired Electron Spin and Chirality.

Author

Tuo DH, Ao YF, Wang QQ, and Wang DX

Abstract

Herein a series of chiral BTI radical anions bearing different chiral substituents were efficiently prepared by chemical reduction. X-ray crystallography revealed finely-tuned packing and helix assemblies of the radicals by the size of chiral substituents in crystalline state. In accordance with the crystalline-state packing, the powder ESR spectra indicate that 4 a - ⋅CoCp 2 + and 4 c - ⋅CoCp 2 + π-dimers exhibit thermally excited triplet states arising from strong spin-spin interactions, while discrete 4 b - ⋅CoCp 2 + shows a broad doublet-state signal reflecting weak spin-spin interactions. The interplay between the unpaired electron spin and chiral substituents was studied by UV-Vis-NIR spectra, electronic circular dichroism (ECD) and TD DFT calculations. Different NIR absorptions of the radicals attributing to isolated SOMO→LUMO+1 (~889 nm) transitions were recorded. The emergence of Cotton effects (CEs) at the NIR region for 4 c - ⋅CoCp 2 + radical enantiomers suggest the interplay between chirality and unpaired electron spin. The origin of the different circularly polarized light absorptions regarding SOMO derived transitions (around 880 nm) was attributed to chiral substitutes regulated electric and magnetic transition dipole moments of the unpaired electron participated transition., (© 2023 Wiley-VCH GmbH.)

Published

2024

4. Intermolecular n→π* Interactions Based on a Tailored Multicarbonyl-Containing Macrocycle.

Author

Zhu J, Wang XD, Ao YF, Wang QQ, and Wang DX

Abstract

Towards unexplored intermolecular n→π* interactions, presented herein are the synthesis, structure, self-assembly and function of a multicarbonyl-containing macrocycle calix[2]arene[2]barbiturate 1. X-ray single crystal diffraction reveals the presence of Cl⋅⋅⋅C=O interactions in CH 2 Cl 2 ⊂1 host-guest complex and multiple intermolecular C=O⋅⋅⋅C=O interactions between molecules 1 in crystalline state. The intermolecular C=O⋅⋅⋅C=O interactions as attractive driving force led to unprecedented self-assembly of nanotube with diameter around 1.4 nm and inner surface engineered by aromatic rings. SEM and TEM images of the self-assembly of 1 demonstrated temperature-dependent morphologies which allows the observation of spheres at 25 °C and rods at 0 °C, respectively. XRD analysis indicated consistent hexagonal patterns in the self-assembly and single crystal lattice, indicating the nanotubes driven by C=O⋅⋅⋅C=O interactions constitute the basic structural architectures of both aggregates. The nanoscopic tubes (pores) formed in the rodlike single crystal engendering the separation of moving dyes were preliminarily investigated by a single-crystal chromatography and crystal-packed column chromatography., (© 2022 Wiley-VCH GmbH.)

Published

2023

5. Thiazole Boron Difluoride Dyes with Large Stokes Shift, Solid State Emission and Room-Temperature Phosphorescence.

Author

Wang W, Tong S, Wang QQ, Ao YF, Wang DX, and Zhu J

Abstract

The small Stokes shift and weak emission in the solid state are two main shortcomings associated with the boron-dipyrromethene (BODIPY) family of dyes. This study presents the design, synthesis and luminescent properties of boron difluoro complexes of 2-aryl-5-alkylamino-4-alkylaminocarbonylthiazoles. These dyes display Stokes shifts (Δλ, 77-101 nm) with quantum yields (ϕ FL ) up to 64.9 and 34.7 % in toluene solution and in solid state, respectively. Some of these compounds exhibit dual fluorescence and room-temperature phosphorescence (RTP) emission properties with modulable phosphorescence quantum yields (ϕ PL ) and lifetime (τ p up to 251 μs). The presence of intramolecular H-bonds and negligible π-π stacking revealed by X-ray crystal structure might account for the observed large Stokes shift and significant solid-state emission of these fluorophores, while the enhanced spin-orbit coupling (SOC) of iodine and the self-assembly driven by halogen bonding, π-π and C-H … π interactions could be responsible for the observed RTP of iodine containing phosphors., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

6. Putting Anion-π Interactions at Work for Catalysis.

Author

Luo N, Ao YF, Wang DX, and Wang QQ

Subjects

Anions, Catalysis, Models, Molecular, Electrons

Abstract

Since its discovery two decades ago, anion-π interaction has been increasingly recognized as an important driving force. Extensive theoretical and experimental efforts on the ground-state anion-π binding and recognition have laid the bases for exploring its relevance in catalysis. Accordingly, the concept of "anion-π catalysis" that employing an electron-deficient π surface (π-acidic surface) for anionic reaction intermediate and transition state stabilization has emerged. This article shortly reviews the emergence and development of this concept, aiming to provide an emphasis on the general concept and key progress in this exciting area. To highlight the essential contribution of anion-π interactions, the contents are organized according to their role engaged in catalytic process, for example from both ground-state and transition-state stabilization to solely transition-state stabilization, mainly by a single π-face, and to cooperative π-face activation. A concluding remark and outlook on future development of this field is also given., (© 2021 Wiley-VCH GmbH.)

Published

2022

7. Macrocycle-Directed Construction of Tetrahedral Anion-π Receptors for Nesting Anions with Complementary Geometry.

Author

Luo J, Zhu J, Tuo DH, Yuan Q, Wang L, Wang XB, Ao YF, Wang QQ, and Wang DX

Subjects

Anions chemistry, Borates chemistry, Cross-Linking Reagents chemistry, Crystallization, Density Functional Theory, Molecular Structure, Perchlorates chemistry, Spectrometry, Mass, Electrospray Ionization, Sulfates chemistry, Macrocyclic Compounds chemistry, Triazines chemistry

Abstract

Manipulation of the emerging anion-π interactions in a highly cooperative manner through sophisticated host design represents a very challenging task. In this work, unprecedented tetrahedral anion-π receptors have been successfully constructed for complementary accommodation of tetrahedral and relevant anions. The synthesis was achieved by a macrocycle-directed approach by using large macrocycle precursors bearing four reactive sites, which enabled a kinetic-favored pathway and afforded the otherwise inaccessible tetrahedral cages in considerable yields. Crystal structure suggested that the tetrahedral cages have an enclosed three-dimensional cavity surrounded by four electron-deficient triazine faces in a tetrahedral array. The complementary accommodation of a series of tetrahedral and relevant anions including BF 4 - , ClO 4 - , H 2 PO 4 - , HSO 4 - , SO 4 2- and PF 6 - was revealed by ESI-MS and DFT calculations. Crystal structures of ClO 4 - and PF 6 - complexes showed that the anion was nicely encapsulated within the tetrahedral cavity with up to quadruple cooperative anion-π interactions by an excellent shape and size match. The strong anion-π binding was further confirmed by negative ion photoelectron spectroscopy measurements., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

8. Macrocycle-Enabled Counteranion Trapping for Improved Catalytic Efficiency.

Author

Ning R, Ao YF, Wang DX, and Wang QQ

Abstract

The tight host-guest binding enabled by functional macrocycles can be utilized to tune catalysis. While the strong crown ether-cation complexation has been widely applied on enhancing the reactivity of the paired anion, the complementary strategy by applying a macrocyclic anion receptor to trap a counteranion to improve the cation catalytic activity remains unexplored. To realize this strategy, a macrocycle incorporating multiple cooperative H-bonding sites was synthesized and shown to tightly trap ethanedisulfonate anion in crystals and in acetonitrile solution (K>10 6  m -1 ). With the strong binding tendency, the presence of as low as 0.25 mol % of the macrocycle can significantly improve the ethanedisulfonic acid-catalyzed Povarov reaction efficiency, while the acyclic analogues had diminished effect. Catalysis outcomes and binding studies taken together suggested the macrocycle promotion was through favoring the substrate protonation by trapping the counteranion of the acid catalyst., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018