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Black Titanium-Oxo Clusters with Ultralow Band Gaps and Enhanced Nonlinear Optical Performance

Mei‐Yan Gao, Zirui Wang, Qiaohong Li, De‐Jing Li, Yayong Sun, Yassin H. Andaloussi, Chao Ma, Chenghua Deng, Jian Zhang, Lei Zhang

2022Journal of the American Chemical Society94 citationsDOI

Abstract

A series of catecholate-functionalized titanium-oxo clusters (TOCs), PTC-271 to PTC-277, with atomically precise structures were synthesized and characterized, including distinctive “boat” and “chair” conformations in PTC-273 and PTC-274, respectively. These cluster compounds are prominent for their ultralow optical band gaps, as is visually evident from the rather unusual black TOCs (B-TOCs), PTC-272 to PTC-277. The cluster structures were found to be ultrastable with respect to air, water, organic solvents, and even acidic or basic aqueous solutions in a wide pH range (pH 0–13), owing to the stabilizing effects of catecholate and its derivatives, as well as the carboxylate ligands. Another prominent feature is the occurrence of third-order nonlinear optical (NLO) performance, which has previously been unreported in the field of homometallic titanium-oxo clusters. Open-aperture Z-scan experiments show significant solid-state optical limiting (OL) applications of these B-TOCs, with high laser irradiation stability and low minimum normalized transmittance (Tmin) of PTC-273 as ∼0.17. Meanwhile, theoretical calculations indicate that the smaller band gaps of B-TOCs were beneficial for strengthening the NLO response. This work not only represents a significant milestone in the construction of stable low-band gap black titanium oxide materials but also contributes to the mechanism insights into their optical applications.

Topics & Concepts

ChemistryTitaniumCluster (spacecraft)Band gapTitanium oxideNonlinear opticalOxideOptoelectronicsOrganic chemistryNonlinear systemMaterials scienceProgramming languageComputer scienceQuantum mechanicsPhysicsNonlinear Optical Materials StudiesLaser-Ablation Synthesis of NanoparticlesCrystal Structures and Properties
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