Noble Metal Free, Visible Light Driven Photocatalysis Using TiO2 Nanotube Arrays Sensitized by P‐Doped C3N4 Quantum Dots

Kumar, Pawan; Kar, Piyush; Manuel, Ajay P.; Zeng, Sheng; Thakur, Ujwal Kumar; Alam, Kazi M.; Zhang, Yun; Kisslinger, Ryan; Cui, Kai; Bernard, Guy M.; Michaelis, Vladimir K.; Shankar, Karthik

doi:10.1002/adom.201901275

Cited by 50 publications

(13 citation statements)

References 115 publications

(75 reference statements)

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“…The secondary electron cut-off energy of this material is 18.4 eV (Figure 3c). According to the expression given before, the work function with respect to the vacuum level is 2.8 eV, which is up shifted by 1.5 eV from the normal WF value of 4.3 eV for anatase TiO2 [24]. Additionally, the valence band maximum was calculated to be 5.21 eV (Figure 3d).…”

Section: Physicochemical Characterizationmentioning

confidence: 76%

“…One strategy consists of forming core@shell heterojunctions wherein WBG nanotubes or nanorods ("core") are coated with a thin absorbing layer of a lower bandgap semiconductor ("shell") [20,21]. While core-shell heterojunctions have shown considerable promise in improving the performance of photoelectrochemical water splitting [22][23][24], photoanodes constituted exclusively of semiconductors suffer thermodynamic losses for supra-bandgap photons. On the other hand, photoanodes consisting of plasmonic metal-semiconductor heterojunctions can reduce thermalization losses by efficiently harvesting hot carriers while simultaneously sensitizing WBG semiconductors to visible photons [25,26].…”

Section: Introductionmentioning

confidence: 99%

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TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

et al. 2021

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The lack of active, stable, earth-abundant, and visible-light absorbing materials to replace plasmonic noble metals is a critical obstacle for researchers in developing highly efficient and cost-effective photocatalytic systems. Herein, a core–shell nanotube catalyst was fabricated consisting of atomic layer deposited HfN shell and anodic TiO2 support layer with full-visible regime photoactivity for photoelectrochemical water splitting. The HfN active layer has two unique characteristics: (1) A large bandgap between optical and acoustic phonon modes and (2) No electronic bandgap, which allows a large population of long life-time hot carriers, which are used to enhance the photoelectrochemical performance. The photocurrent density (≈2.5 mA·cm−2 at 1 V vs. Ag/AgCl) obtained in this study under AM 1.5G 1 Sun illumination is unprecedented, as it is superior to most existing plasmonic noble metal-decorated catalysts and surprisingly indicates a photocurrent response that extends to 730 nm. The result demonstrates the far-reaching application potential of replacing active HER/HOR noble metals such as Au, Ag, Pt, Pd, etc. with low-cost plasmonic ceramics.

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Section: Physicochemical Characterizationmentioning

confidence: 76%

Section: Introductionmentioning

confidence: 99%

TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

et al. 2021

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“…[7] TiO 2 , a typical semiconductor photocatalytic material, has gained particular interest in past decades owing to its superiority that it is low cost, nontoxic, and chemically stable. [8][9][10] However, the practical application of TiO 2 is highly restricted due to the fact that it can only absorb ultraviolett (UV) light, which is caused by its wide bandgap (3.2 eV). As we all know, UV light occupies only 3-5% of the total solar spectrum, and the visible (Vis)-near infrared (NIR) light accounts for 95% of the total solar spectrum.…”

Section: Introductionmentioning

confidence: 99%

A Review and Recent Developments in Full‐Spectrum Photocatalysis using ZnIn₂S₄‐Based Photocatalysts

et al. 2021

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Nowadays, photocatalytic technology is considered as one of the most efficient methods to solve the problem of the global energy shortage and the pollution of the environment. Among these outstanding photocatalysts, metal sulfide‐based semiconductors have attracted wide attention because of their good chemical stability, simple synthesis method, and relatively narrow bandgaps. ZnIn2S4 (ZIS), as a layered structure ternary metal chalcogenide and a rising material star, has made exciting breakthroughs in the past decades. Recently, studies have shown that a rich variety of ZIS composite nanostructures are developed. This review summarizes the recent advances and development in the design and improvement of ZIS and ZIS‐based photocatalysts in full‐spectrum photocatalytic applications. Furthermore, the applications of ZIS‐based photocatalysts are discussed, such as in photocatalytic hydrogen production, CO2 reduction, degradation of pollutants, and photocatalytic selective organic transformations under ultraviolett (UV), visible (Vis), and near‐infrared (NIR) light irradiation. In the end, a brief summary and perspectives on the challenges and future directions in the area of ZIS and ZIS‐based photocatalysts are also provided.

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“…Attractive TiO 2 NTA conducts the photoinduced electron–hole generation, separation, and feasible electron transfer which can be well applied for photocatalysis and electrochemical energy storage 24,25 . Specifically, TiO 2 NTA becomes highly suitable photocatalyst and photoelectrocatalyst for full degradation and decomposition of various organic pollutants, showing the effective environmental purification 21,26,27 . In general, anodic TiO 2 NTA keeps a nanotube wall connecting structure.…”

Section: Introductionmentioning

confidence: 99%

Photoelectrochemical performance of tubewall‐separated titanium dioxide nanotube array photoelectrode

Xie

2021

Asia-Pacific J Chem Eng

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Titanium dioxide nanotube array (TiO2 NTA) grown on titanium substrate has been fabricated as active photoelectrode for organic compound degradation. TiO2 NTA shows the tubewall‐separated nanotube arrangement and anatase crystal structure. Transient photocurrent of 1.86 mA and open‐circuit photovoltage of 0.26 V are determined to keep stable level under ultraviolet (UV) light irradiation, indicating its high photoelectrochemical activity. The cathodic polarization process causes more feasible electron transfer than the equilibrium process and anodic polarization process, which is consistent with the declining current response at an increasing positive potential. The photocatalytic activity of TiO2 NTA is fully evaluated through UV light‐induced photocatalysis and photoelectrocatalysis degradation of organic dye X‐3B as a reactant pollutant. The pseudo‐first‐order reaction rate constant is enhanced from 0.00346 min−1 for photocatalysis to 0.00521 min−1 for photoelectrocatalysis using Langmuir–Hinshelwood kinetic model of heterogeneous catalysis. The tubewall‐separated nanotube structure could induce photoelectron directional transport and provide extra interspace for reactant organic molecule diffusion at accessible surface area. The positive potential applied on TiO2 NTA could further promote photoelectron–hole pair separation. Two strategies of photoelectron generation and photoelectron–hole separation are accordingly adopted to improve its electro‐assisted photocatalytic activity. Therefore, the tubewall‐separated TiO2 NTA could present the promising photoelectrocatalysis application.

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Noble Metal Free, Visible Light Driven Photocatalysis Using TiO₂ Nanotube Arrays Sensitized by P‐Doped C₃N₄ Quantum Dots

Cited by 50 publications

References 115 publications

TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

A Review and Recent Developments in Full‐Spectrum Photocatalysis using ZnIn₂S₄‐Based Photocatalysts

Photoelectrochemical performance of tubewall‐separated titanium dioxide nanotube array photoelectrode

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Noble Metal Free, Visible Light Driven Photocatalysis Using TiO2 Nanotube Arrays Sensitized by P‐Doped C3N4 Quantum Dots

Cited by 50 publications

References 115 publications

TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

TiO2-HfN Radial Nano-Heterojunction: A Hot Carrier Photoanode for Sunlight-Driven Water-Splitting

A Review and Recent Developments in Full‐Spectrum Photocatalysis using ZnIn2S4‐Based Photocatalysts

Photoelectrochemical performance of tubewall‐separated titanium dioxide nanotube array photoelectrode

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Product

Resources

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Noble Metal Free, Visible Light Driven Photocatalysis Using TiO₂ Nanotube Arrays Sensitized by P‐Doped C₃N₄ Quantum Dots

A Review and Recent Developments in Full‐Spectrum Photocatalysis using ZnIn₂S₄‐Based Photocatalysts