极化率
双折射
非线性光学
分子内力
化学
紫外线
各向异性
切断
带隙
分子物理学
非线性光学
分子轨道
密度泛函理论
计算化学
材料科学
合理设计
和频产生
工作(物理)
光电子学
化学物理
结晶学
电子结构
光化学
GSM演进的增强数据速率
二次谐波产生
作者
Bohui Xu,Pifu Gong,Deshuai Xiao,Xuanlin Pan,Fan Liu,Xinyuan Zhang,Z. Sheng Z. Lin
摘要
ABSTRACT Disentangling structure–property relationships and identifying high‐performance functional building units are essential for the rational design of ultraviolet (UV) nonlinear optical (NLO) crystals. Herein, we report a cation‐dominated NLO response in a new hybrid UV crystal, GALSO 3 CH 3 , in which the NLO activity of guanidino‐acetic lactam (GAL + ) cation was activated by a stepwise molecular orbital regulation engineering. The GAL cation, belonging to the guanidinium family, is obtained through intramolecular cyclization of guanidino‐acetic acid, leading to a systematic enhancement of π‐electron delocalization, molecular polarity, and polarizability anisotropy while preserving a wide electronic band gap. Consequently, GALSO 3 CH 3 exhibits a short UV cutoff edge (∼214 nm), moderate birefringence (∼0.06), and a large and phase‐matchable second‐harmonic generation (SHG) response approximately four times that of KH 2 PO 4 . First‐principles calculations reveal that over 90% of the SHG response originates from the π‐conjugated GAL cations. This work identifies guanidinium‐derived cations as NLO‐active building units and introduces a π‐conjugation‐enhanced strategy for UV NLO materials.
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