位阻效应
共价键
化学
分子
拉曼光谱
缩二脲试验
分子机器
结晶学
非共价相互作用
非线性光学
组合化学
纳米技术
动态共价化学
单一债券
立体化学
构象变化
设计要素和原则
分子开关
小分子
非线性光学
材料科学
混合材料
作者
Ziqi Chen,Chang Li,Bowen Yang,Juanjuan Lu,Zhihua Yang,Junjie Li,Xueling Hou,Shilie Pan,Miriding Mutailipu
摘要
ABSTRACT The covalent integration of planar organic molecules with inorganic tetrahedra into crystalline solids is fundamentally constrained by steric repulsion. Open‐chain organic moieties predominantly adopt thermodynamically stable trans ‐conformations, which spatially hinder close approach and covalent bond formation, often leading to centrosymmetric architectures. Here, we first report a solvent‐driven conformational editing strategy that overcomes this long‐standing synthetic challenge. By modulating HBF 4 concentration, we reprogram biuret from a sterically hindered trans ‐conformer into a spatially accessible cis ‐conformer. This in situ conformational switching, validated by interacting region indicator analysis and Raman spectroscopy, providing a general kinetic pathway for previously inaccessible bond formations. The resulting non‐centrosymmetric hybrid crystal, [C 2 O 2 N 3 H 5 BF 2 ][BF 4 ], features [C 2 O 2 N 3 H 5 BF 2 ] units that represent the first synthesis of a covalently linked biuret–[BO 2 F 2 ] hybrid. This compound achieves an outstanding combination of key properties for short‐wavelength ultraviolet nonlinear optical applications. Through this conformational editing approach, we further synthesized 14 additional compounds, establishing biuret as a versatile platform for hybrid assembly. Our work demonstrates solvent‐mediated conformational control as a general synthetic paradigm for overcoming steric hindrance and accessing previously inaccessible organic–inorganic architectures with tailored optical functionality.
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