Lijie Zhan scite author profile

Lijie Zhan

3Publications

90Citation Statements Received

96Citation Statements Given

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296

Affiliations

University of Chinese Academy of Sciences, Technical Institute of Physics and Chemistry, Shandong University

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Effects of Substitutional Dopants on the Photoresponse of a Polyoxotitanate Cluster

Zhan

Zhang

et al. 2016

Inorg. Chem.

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In this paper, using a simple method, 17 isostructural polyoxotitanates (POTs) were synthesized, including the pristine [Ti12O16(O(i)Pr)16], the monodefected [Ti11O13(O(i)Pr)18], and the heterometal-doped [Ti11O14(O(i)Pr)17(ML)] (M = Mg, Ca, Zn, Cd, Co, or Ni; L = Cl, Br, I, or NO3). The electronic structures of these POTs were determined by UV-vis spectroscopy and DFT calculations. Upon UV irradiation of the POTs, electron spin resonance showed the formation of Ti(III) under anaerobic conditions and superoxide (O2(•-)) in the presence of O2. The photoactivities of the POTs were then probed with Ti(III) production and short-circuit photocurrent experiments. The photophysical processes were studied using steady-state and transient photoluminescence. The results show that within the very similar structures, the deexcitation processes of the photoexcited POTs can be greatly affected by the dopants, which result in enhanced or decreased photoactivities. Co and Ni doping enhances the absorption of the visible light accompanied by serious loss of UV photoactivities. On the other hand, a Ti vacancy (in [Ti11O13(O(i)Pr)18]) does not reduce the band gap of a POT but improves the UV photoactivities by serving as surface reaction site. The POTs were then used as molecular models of titanium oxide nanoparticles to understand some important issues relevant to doped titanate, i.e., coordination environment of the dopant metal, electronic structure, photoactivities, and photophysical processes. Our present findings suggest that for solar energy harvesting applications of titanium oxides like photocatalysis and solar cells substitution of titanium atoms by transition metal ions (like Co and Ni) to extend the absorption edges may not be an efficient way, while loading of Ti vacancies is very effective.

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A Conjugated Figure‐of‐Eight Oligoparaphenylene Nanohoop with Adaptive Cavities Derived from Cyclooctatetrathiophene Core

et al. 2021

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Af ully conjugated figure-of-eight nanohoop is presented with facile synthesis.T he moleculesl emniscular skeleton features the combination of two strained oligoparaphenylene loops and af lexible cyclooctatetrathiophenec ore.Its rigid yet guest-adaptive cavities enable the formation of the peanut-like 1:2h ost-guest complexes with C 60 or C 70 ,w hich have been confirmed by X-ray crystallography and characterizedi ns olution. Further computational studies suggest notable geometric variations and non-covalent interactions of the cavities upon binding with different fullerenes,a sw ell as overall conjugation comparable to cycloparaphenylenes.

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A Conjugated Figure‐of‐Eight Oligoparaphenylene Nanohoop with Adaptive Cavities Derived from Cyclooctatetrathiophene Core

et al. 2021

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Lijie Zhan

Effects of Substitutional Dopants on the Photoresponse of a Polyoxotitanate Cluster

A Conjugated Figure‐of‐Eight Oligoparaphenylene Nanohoop with Adaptive Cavities Derived from Cyclooctatetrathiophene Core

A Conjugated Figure‐of‐Eight Oligoparaphenylene Nanohoop with Adaptive Cavities Derived from Cyclooctatetrathiophene Core

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