State Key Laboratory of Precision Spectroscopy, School of Physics and Electronic Science, East China Normal University, Shanghai 200241, China.
Physical Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Boulevard, P. O. Box 999, Richland, Washington 99352, USA.
Phys Chem Chem Phys. 2021 Jun 23;23(24):13447-13457. doi: 10.1039/d1cp01131f.
A fundamental understanding of cyclodextrin-closo-dodecaborate inclusion complexes is of great interest in supramolecular chemistry. Herein, we report a systematic investigation on the electronic structures and intramolecular interactions of perhalogenated closo-dodecaborate dianions B12X122- (X = F, Cl, Br and I) binding to α-, β-, and γ-cyclodextrins (CDs) in the gas phase using combined negative ion photoelectron spectroscopy (NIPES) and density functional theory (DFT) calculations. The vertical detachment energy (VDE) of each complex and electronic stabilization of each dianion due to the CD binding (ΔVDE, relative to the corresponding isolated B12X122-) are determined from the experiments along α-, β- and γ-CD in the form of VDE (ΔVDE): 4.00 (2.10), 4.33 (2.43), and 4.30 (2.40) eV in X = F; 4.09 (1.14), 4.64 (1.69), and 4.69 (1.74) eV in X = Cl; 4.11 (0.91), 4.58 (1.38), and 4.70 (1.50) eV in X = Br; and 3.54 (0.74), 3.88 (1.08), and 4.05 (1.25) eV in X = I, respectively. All complexes have significantly higher VDEs than the corresponding isolated dodecaborate dianions with ΔVDE spanning from 0.74 eV at (α, I) to 2.43 eV at (β, F), sensitive to both host CD size and guest substituent X. DFT-optimized complex structures indicate that all B12X122- prefer binding to the wide openings of CDs with the insertion depth and binding motif strongly dependent on the CD size and halogen X. Dodecaborate anions with heavy halogens, i.e., X = Cl, Br, and I, are found outside of α-CD, while B12F122- is completely wrapped by γ-CD. Partial embedment of B12X122- into CDs is observed for the other complexes via multipronged B-XH-O/C interlocking patterns. The simulated spectra based on the density of states agree well with those of the experiments and the calculated VDEs well reproduce the experimental trends. Molecular orbital analyses suggest that the spectral features at low binding energies originated from electrons detached from the dodecaborate dianion, while those at higher binding energies are derived from electron detachment from CDs. Energy decomposition analyses reveal that the electrostatic interaction plays a dominating role in contributing to the host-guest interactions for the X = F series partially due to the formation of a O/C-HX-B hydrogen bonding network, and the dispersion forces gradually become important with the increase of halogen size.
环糊精-closo-十二硼烷包合物的基本理解在超分子化学中具有重要意义。在此,我们报道了使用结合负离子光电子能谱(NIPES)和密度泛函理论(DFT)计算,对气相中环糊精(α-、β-和γ-)与全卤代 closo-十二硼烷二阴离子 B12X122-(X = F、Cl、Br 和 I)结合的电子结构和分子内相互作用的系统研究。通过实验确定了每个复合物的垂直离解能(VDE)和每个二阴离子由于 CD 结合而产生的电子稳定化(ΔVDE,相对于相应的游离 B12X122-),沿着α-、β-和γ-CD 的形式为 VDE(ΔVDE):X = F 时为 4.00(2.10)、4.33(2.43)和 4.30(2.40)eV;X = Cl 时为 4.09(1.14)、4.64(1.69)和 4.69(1.74)eV;X = Br 时为 4.11(0.91)、4.58(1.38)和 4.70(1.50)eV;X = I 时为 3.54(0.74)、3.88(1.08)和 4.05(1.25)eV。所有复合物的 VDE 都明显高于相应的游离十二硼烷二阴离子,ΔVDE 范围从(α,I)的 0.74 eV 到(β,F)的 2.43 eV,对主 CD 大小和客体取代基 X 都很敏感。DFT 优化的复合物结构表明,所有 B12X122-都优先与 CD 的宽开口结合,插入深度和结合模式强烈依赖于 CD 的大小和卤素 X。含重卤素的十二硼酸盐阴离子,即 X = Cl、Br 和 I,位于α-CD 之外,而 B12F122-则完全被γ-CD 包裹。其他复合物通过多叉 B-XH-O/C 互锁模式观察到 B12X122-部分嵌入 CD。基于态密度的模拟光谱与实验很好地吻合,计算出的 VDE 很好地再现了实验趋势。分子轨道分析表明,低结合能处的光谱特征来源于从十二硼烷二阴离子中脱离的电子,而高结合能处的光谱特征则来源于从 CD 中脱离的电子。能量分解分析表明,静电相互作用在 X = F 系列的主客体相互作用中起主要作用,部分原因是形成了 O/C-HX-B 氢键网络,随着卤素尺寸的增加,色散力逐渐变得重要。
