Optimized Spacing between TiO<sub>2</sub> Nanotubes for Enhanced Light Harvesting and Charge Transfer

Özkan, Selda; Nguyen, Nhat Truong; Mazare, Anca; Schmuki, Patrik

doi:10.1002/celc.201801136

Cited by 29 publications

(25 citation statements)

References 69 publications

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“…In order to estimate the band gap for the TiO2 nanotube layers the data was plotted as (Iph hv) 1/2 vs. hv (h is the Planck constant, v is the frequency of the light) using the data from the photocurrent spectra of the TiO2 nanotubes in the hole scavenger free (Fig 2c) and in the MeOH-containing (Fig 2d) electrolytes. The obtained band gap values for nanotubes of different lengths and in different electrolytes are all in range of 3.02-3.13 eV, which roughly is consistent with the previously reported values for anodic TiO2 nanotubes [2]. Table 1 IPCE spectra of the 4.58 µm thick TiO2 nanotube layers (selected because of the highest IPCE in the Na2SO4 electrolyte) were taken to compare different hole scavengers (Fig.…”

Section: Fig1supporting

confidence: 86%

“…In this respect, titanium dioxide (TiO2) has acquired wide attention from researchers, due to the high photocatalytic activity, outstanding photocorrosion resistance, nontoxicity, and economic viability of this material [1]. Nanotubular TiO2 geometries are especially attractive for photocatalytic applications due to their high surface area combined with directionality to light and charge management [2]. TiO2 nanotubes can be prepared by various methods, which can be roughly divided into templating, hydrothermal, and anodic self-organization approaches [3].…”

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confidence: 99%

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Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Denisov

Yoo

Schmuki

2019

Electrochimica Acta

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103

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TiO2 nanotubes have been investigated in photoelectrochemistry and photocatalysis for more than a decade. However, up to now, a systematic investigation of different hole scavengers is still lacking. Here we investigate the effect of the most relevant sacrificial hole scavengers on the photoelectrochemical properties and photocatalytic H2 evolution performance of pristine and Pt-decorated anodic TiO2 nanotubes. We examine methanol, isopropanol, ethylene glycol, EDTA-Na2, as well as Na2SO3, and find that the incident photocurrent conversion efficiency (IPCE) of the TiO2 nanotubes in 0.1 M Na2SO4 electrolytes increases by 1.8-3.1 times, depending on the used hole scavenger. The efficiency increases in the sequence Na2SO3 < isopropanol < MeOH < ethylene glycol < EDTA-Na2. In presence of any hole scavenger, for nanotubes in the length-range of 2-10 µm, the photocurrent spectra and the ICPE magnitude are independent of the tube length. The photocurrent onset potential (optical flatband potential) is significantly affected by the different type of scavengers, in line with their red-ox potential. Under open circuit conditions (photocatalytic conditions), organic hole scavengers lead to a 10.0-28.8 times higher H2 production by TiO2 nanotubes than the scavenger-free case, with a sequence MeOH > i-PrOH > EDTA-Na2 > EG, while a detrimental effect of Na2SO3 is observed. These results are compared to results obtained for TiO2 particles, and discussed in terms of various concepts in the literature.

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Section: Fig1supporting

confidence: 86%

mentioning

confidence: 99%

Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Denisov

Yoo

Schmuki

2019

Electrochimica Acta

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103

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“…Such behavior is due to the fact that the oxygen evolution reaction (OER) dominates the total response and as a result the photoactivity is simply hidden [ 72 ]. Therefore, with a simple, quick, and easy step, the obtained current densities can be boosted by over an order of magnitude where, in case of structural optimizations [ 35 ], or doping [ 72 ], only a few percent increase is often observed.…”

Section: Resultsmentioning

confidence: 99%

“…Moreover, we provide an example of modification with created colloid, using it to enhance the efficiency of oxygen production in the TiO 2 -based electrode by over an order of magnitude. Due to the easily adjustable TiO 2 nanotubes (NTs) morphology, facile production, high surface area, and stability [ 33 , 34 , 35 , 36 , 37 , 38 , 39 ], together with nickel nanoparticles, they have become a very strong, yet eco-friendly, duet for further research. The electrochemical properties of hybrids composed of Ni nanoparticles electrodeposited onto titania nanotubes were shown for example by Chen et al using nickel sulphate as NPs precursor [ 40 ].…”

Section: Introductionmentioning

confidence: 99%

Laser-Assisted Synthesis and Oxygen Generation of Nickel Nanoparticles

et al. 2020

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Nowadays, more than ever, environmental awareness is being taken into account when it comes to the design of novel materials. Herein, the pathway to the creation of a colloid of spherical, almost purely metallic nickel nanoparticles (NPs) through pulsed laser ablation in ethanol is presented. A complex description of the colloid is provided through UV-vis spectroscopy and dynamic light scattering analysis, ensuring insight into laser-induced nanoparticle homogenization and size-control of the NPs. The transmission electron spectroscopy revealed spherical nanoparticles with a narrow size distribution, whereas the energy-dispersive X-ray spectroscopy accompanied by the X-ray photoelectron spectroscopy revealed their metallic nature. Furthermore, an example of the application of the colloidal nanoparticles is presented, where a quick, five-min ultrasound modification results in over an order of magnitude higher current densities in the titania-based electrode for the oxygen evolution reaction.

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“…However, its tubular structure synthesized by anodization is most frequently examined due to perpendicular orientation of hollow cylinders regarding the metal substrate reducing the charge recombination and the scalability of the fabrication process [15,21]. Additionally, the geometrical parameters of titania nanotubes (TiO 2 -NTs) could be easily optimized during the synthesis, giving rise to the specific surface and light absorption of the resulting material [14,22]. The advantage of the direct contact between the electrode material and the current collector, as well as well-developed surface area, has been used in prototype supercapacitors when the further hydrogenation via cathodic polarization or plasma treatment in hydrogen atmosphere is applied.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Laser Re-Solidification on Microstructure and Photo-Electrochemical Properties of Fe-Decorated TiO2 Nanotubes

et al. 2020

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Fossil fuels became increasingly unpleasant energy source due to their negative impact on the environment; thus, attractiveness of renewable, and especially solar energy, is growing worldwide. Among others, the research is focused on smart combination of simple compounds towards formation of the photoactive materials. Following that, our work concerns the optimized manipulation of laser light coupled with the iron sputtering to transform titania that is mostly UV-active, as well as exhibiting poor oxygen evolution reaction to the material responding to solar light, and that can be further used in water splitting process. The preparation route of the material was based on anodization providing well organized system of nanotubes, while magnetron sputtering ensures formation of thin iron films. The last step covering pulsed laser treatment of 355 nm wavelength significantly changes the material morphology and structure, inducing partial melting and formation of oxygen vacancies in the elementary cell. Depending on the applied fluence, anatase, rutile, and hematite phases were recognized in the final product. The formation of a re-solidified layer on the surface of the nanotubes, in which thickness depends on the laser fluence, was shown by microstructure studies. Although a drastic decrement of light absorption was recorded especially in UV range, laser-annealed samples have shown activity under visible light even 20 times higher than bare titania. Electrochemical analysis has shown that the improvement of photoresponse originates mainly from over an order of magnitude higher charge carrier density as revealed by Mott-Schottky analysis. The results show that intense laser light can modulate the semiconductor properties significantly and can be considered as a promising tool towards activation of initially inactive material for the visible light harvesting.

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Optimized Spacing between TiO₂ Nanotubes for Enhanced Light Harvesting and Charge Transfer

Cited by 29 publications

References 69 publications

Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Laser-Assisted Synthesis and Oxygen Generation of Nickel Nanoparticles

The Effect of Laser Re-Solidification on Microstructure and Photo-Electrochemical Properties of Fe-Decorated TiO2 Nanotubes

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Optimized Spacing between TiO2 Nanotubes for Enhanced Light Harvesting and Charge Transfer

Cited by 29 publications

References 69 publications

Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Effect of different hole scavengers on the photoelectrochemical properties and photocatalytic hydrogen evolution performance of pristine and Pt-decorated TiO2 nanotubes

Laser-Assisted Synthesis and Oxygen Generation of Nickel Nanoparticles

The Effect of Laser Re-Solidification on Microstructure and Photo-Electrochemical Properties of Fe-Decorated TiO2 Nanotubes

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Optimized Spacing between TiO₂ Nanotubes for Enhanced Light Harvesting and Charge Transfer