Magnetic Field-Assisted Photoelectrochemical Water Splitting: The Photoelectrodes Have Weaker Nonradiative Recombination of Carrier

Yang, Qian; Du, Jinyan; Nie, Xiaoqin; Yang, Dingming; Bian, Liang; Yang, Long; Dong, Faqin; He, Huichao; Zhou, Yong; Yang, Huaming

doi:10.1021/acscatal.0c05436

Cited by 70 publications

(30 citation statements)

References 32 publications

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“…By contrast, the bare ZnO NWs with low MCD signals indicated that the minimal spin polarization in the bare ZnO NWs may lead to an indistinguishable magneto-PD effect. In addition, Yang et al, (2021) revealed that magnetic fields can weaken the nonradiative recombination of photoelectrodes’ carriers regardless of their ferromagnetic properties, contributing to improved photoelectrochemical reactions . However, the absence of a noticeable magneto-PD effect in the bare ZnO NWs herein indicated that the reported mechanism was inapplicable in our situation.…”

Section: Results and Discussionmentioning

confidence: 67%

“…In addition, Yang et al, (2021) revealed that magnetic fields can weaken the nonradiative recombination of photoelectrodes' carriers regardless of their ferromagnetic properties, contributing to improved photoelectrochemical reactions. 31 However, the absence of a noticeable magneto-PD effect in the bare ZnO NWs herein indicated that the reported mechanism was inapplicable in our situation. Furthermore, for the surface photocatalytic reaction, the spin-polarized electrons had a considerable inhibitory effect on the recombination of active species (free radicals).…”

Section: Enhancement Of Spin Polarization Near the Fermi Level In Co ...mentioning

confidence: 56%

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Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field

Lin

Thaomonpun

Thongpool

et al. 2021

ACS Appl. Mater. Interfaces

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This work demonstrated the enhanced photodegradation (PD) resulting from Co-rich doping of ZnO nanowire (NW) surfaces (Co2+/ZnO NWs) prepared by combining Co sputtering on ZnO NWs and immersion in deionized water to exploit the hydrophilic–hydrophobic transitions on the ZnO surfaces resulting from Co atom diffusion. Because of the controllable spin-dependent density of states (DOS) induced by Co2+, the PD of methylene blue dye can be enhanced by approximately 90% (when compared with bare ZnO NWs) by using a conventional permanent magnet with a relatively low magnetic field strength of approximately 0.15 T. The reliability of spin polarization–modulation attained through surface doping, based on the magnetic response observed from X-ray absorption measurements and magnetic circular dichroism, provides an opportunity to create highly efficient catalysts by engineering surfaces and tailoring their spin-dependent DOS.

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Section: Results and Discussionmentioning

confidence: 67%

Section: Enhancement Of Spin Polarization Near the Fermi Level In Co ...mentioning

confidence: 56%

Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field

Lin

Thaomonpun

Thongpool

et al. 2021

ACS Appl. Mater. Interfaces

View full text Add to dashboard Cite

show abstract

“…In addition, the coupling of photocatalysis with external fields (e.g., electric fields, thermal fields, magnetic fields, and ultrasonic radiation) is also worth considering, because it may produce synergistic effects that can potentially overcome the intrinsic low conversion rates of single photocatalytic process. [216][217][218] External fields can generate additional driving forces to promote the charge carrier transfer and separation, and consequently the photocatalytic efficiency. Reproduced with permission.…”

Section: Future Research Directionsmentioning

confidence: 99%

Photocatalytic Conversion of Plastic Waste: From Photodegradation to Photosynthesis

Chu

Zhang

Zhao

et al. 2022

Advanced Energy Materials

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Plastic waste remains a global challenge due to the massive amounts being produced without satisfactory treatment technologies for recycling and upcycling. Photocatalytic processes are emerging as green and promising approaches to upcycle plastics into value‐added products under mild conditions using sunlight as the energy source. In this review, the recent advances in plastic conversion through photocatalysis have been comprehensively summarized. Special emphasis is placed on the photocatalytic mechanism and the selective CC and CH bond transformations of plastics to access fuels, chemicals, and materials. Finally, the challenges and the perspectives on establishing a new paradigm toward a sustainable and circular plastic economy are also put forward.

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“…Consequently, the positive effect of magnetic field on separation and transfer characteristics of charge will lead to the reduction of photoelectrodes overpotential. [ 63 ]…”

Section: Fundamental Mechanismmentioning

confidence: 99%

Advances in Magnetic‐Field Assisted Photoelectrochemical Systems for Highly Efficient Conversion of Renewable Energy

Yan

et al. 2021

Adv Materials Inter

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Industry‐scaled water splitting is one of the achievements in the application chains of sustainable hydrogen energy. Numerous strategies have been used to increase the efficiency in photoelectricity (PE)/photoelectrochemistry (PEC) systems, involving enhancing charge transfers and active surface area. However, the efficiency of PE/PEC water splitting is still confined by the high overpotential of the PE/PEC reactions, unexpected loss of electron migration, and low stability of photocatalytic electrodes. Recently, various magnetically‐enhanced techniques have emerged as promising strategies to improve the conversion efficiency of renewable energy. Herein, this work summarizes recent progress on magnetically‐enhanced methods for promoting PEC water splitting performance. Then magnetism in the PE applications is discussed, such as magnetic sensors, modulators, and isolators. As a summary, future research directions and challenges of magnetic PEC with different magnetic effects and conditions are discussed for enhancing the PEC reactions.

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Magnetic Field-Assisted Photoelectrochemical Water Splitting: The Photoelectrodes Have Weaker Nonradiative Recombination of Carrier

Cited by 70 publications

References 32 publications

Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field

Enhanced Photodegradation in Metal Oxide Nanowires with Co-Doped Surfaces under a Low Magnetic Field

Photocatalytic Conversion of Plastic Waste: From Photodegradation to Photosynthesis

Advances in Magnetic‐Field Assisted Photoelectrochemical Systems for Highly Efficient Conversion of Renewable Energy

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