D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Materials Science D-index 76 Citations 17,296 202 World Ranking 1295 National Ranking 315

Overview

What is he best known for?

The fields of study he is best known for:

  • Organic chemistry
  • Catalysis
  • Oxygen

Hongwei Huang spends much of his time researching Photocatalysis, Nanotechnology, Visible spectrum, Photochemistry and Catalysis. The various areas that Hongwei Huang examines in his Photocatalysis study include Optoelectronics, Heterojunction, Semiconductor and Charge carrier. The concepts of his Nanotechnology study are interwoven with issues in Photodegradation, Doping, Graphitic carbon nitride, Calcination and Band gap.

Hongwei Huang combines subjects such as Absorption, Photocurrent, Photoluminescence, Analytical chemistry and Surface plasmon resonance with his study of Visible spectrum. He interconnects Reaction intermediate, Radical, Electronic band structure and X-ray photoelectron spectroscopy in the investigation of issues within Photochemistry. His study in Catalysis is interdisciplinary in nature, drawing from both Ion, Adsorption and Phenol.

His most cited work include:

  • Macroscopic Polarization Enhancement Promoting Photo‐ and Piezoelectric‐Induced Charge Separation and Molecular Oxygen Activation (532 citations)
  • Fabrication of multiple heterojunctions with tunable visible-light-active photocatalytic reactivity in BiOBr-BiOI full-range composites based on microstructure modulation and band structures. (488 citations)
  • Anionic Group Self-Doping as a Promising Strategy: Band-Gap Engineering and Multi-Functional Applications of High-Performance CO32–-Doped Bi2O2CO3 (467 citations)

What are the main themes of his work throughout his whole career to date?

His scientific interests lie mostly in Photocatalysis, Nanotechnology, Photochemistry, Visible spectrum and Catalysis. His Photocatalysis research is multidisciplinary, incorporating elements of Band gap, Heterojunction and Semiconductor. His research investigates the connection between Nanotechnology and topics such as Mesoporous material that intersect with problems in Nanoparticle.

His Photochemistry research incorporates themes from Charge carrier, Radical, Methyl orange, Photoluminescence and Electronic band structure. His Visible spectrum study incorporates themes from Photocurrent, Doping, Scanning electron microscope and X-ray photoelectron spectroscopy. Hongwei Huang has researched Catalysis in several fields, including Inorganic chemistry, Polarization, Oxygen and Adsorption.

He most often published in these fields:

  • Photocatalysis (72.64%)
  • Nanotechnology (31.84%)
  • Photochemistry (30.35%)

What were the highlights of his more recent work (between 2019-2021)?

  • Photocatalysis (72.64%)
  • Nanotechnology (31.84%)
  • Charge separation (7.96%)

In recent papers he was focusing on the following fields of study:

Hongwei Huang spends much of his time researching Photocatalysis, Nanotechnology, Charge separation, Catalysis and Semiconductor. His Photocatalysis research is multidisciplinary, relying on both Photochemistry, Heterojunction and Adsorption. His work on Surface engineering and Photothermal therapy as part of general Nanotechnology study is frequently linked to Photoelectrochemical cell and Electric energy storage, bridging the gap between disciplines.

His work deals with themes such as Artificial photosynthesis, Optoelectronics, Charge carrier and Oxygen, which intersect with Charge separation. His Catalysis study combines topics from a wide range of disciplines, such as Polarization, Decomposition and Ferroelectricity. The Semiconductor study combines topics in areas such as Visible spectrum and Co2 adsorption.

Between 2019 and 2021, his most popular works were:

  • Macroscopic Spontaneous Polarization and Surface Oxygen Vacancies Collaboratively Boosting CO2 Photoreduction on BiOIO3 Single Crystals (113 citations)
  • Coupling Piezocatalysis and Photocatalysis in Bi4NbO8X (X = Cl, Br) Polar Single Crystals (62 citations)
  • Facet-charge-induced coupling dependent interfacial photocharge separation: A case of BiOI/g-C3N4 p-n junction (53 citations)

In his most recent research, the most cited papers focused on:

  • Organic chemistry
  • Oxygen
  • Catalysis

His primary scientific interests are in Photocatalysis, Nanotechnology, Semiconductor, Charge separation and Catalysis. The study incorporates disciplines such as Hydrothermal circulation and Heterojunction in addition to Photocatalysis. His research integrates issues of Piezoelectricity and Carbon atom in his study of Nanotechnology.

His Semiconductor research includes themes of Desorption, Adsorption, Co2 adsorption and Surface engineering. His research investigates the connection with Catalysis and areas like Polarization which intersect with concerns in Ferroelectricity and Corona poling. His Photodegradation study integrates concerns from other disciplines, such as Chemical substance, Precipitation and p–n junction.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

In situ assembly of [email protected] p-n junction: charge induced unique front-lateral surfaces coupling heterostructure with high exposure of BiOI {001} active facets for robust and nonselective photocatalysis

Hongwei Huang;Ke Xiao;Ying He;Tierui Zhang.
Applied Catalysis B-environmental (2016)

600 Citations

Macroscopic Polarization Enhancement Promoting Photo‐ and Piezoelectric‐Induced Charge Separation and Molecular Oxygen Activation

Hongwei Huang;Shuchen Tu;Chao Zeng;Tierui Zhang.
Angewandte Chemie (2017)

537 Citations

Anionic Group Self-Doping as a Promising Strategy: Band-Gap Engineering and Multi-Functional Applications of High-Performance CO32–-Doped Bi2O2CO3

Hongwei Huang;Xiaowei Li;Jinjian Wang;Fan Dong.
ACS Catalysis (2015)

536 Citations

Fabrication of multiple heterojunctions with tunable visible-light-active photocatalytic reactivity in BiOBr-BiOI full-range composites based on microstructure modulation and band structures.

Hongwei Huang;Xu Han;Xiaowei Li;Shichao Wang.
ACS Applied Materials & Interfaces (2015)

454 Citations

Precursor-reforming protocol to 3D mesoporous g-C3N4 established by ultrathin self-doped nanosheets for superior hydrogen evolution

Na Tian;Yihe Zhang;Xiaowei Li;Ke Xiao.
Nano Energy (2017)

319 Citations

Mediator-free direct Z-scheme photocatalytic system: BiVO4/g-C3N4 organic–inorganic hybrid photocatalyst with highly efficient visible-light-induced photocatalytic activity

Na Tian;Hongwei Huang;Ying He;Yuxi Guo.
Dalton Transactions (2015)

300 Citations

Bi2O2(OH)(NO3) as a desirable [Bi2O2]2+ layered photocatalyst: strong intrinsic polarity, rational band structure and {001} active facets co-beneficial for robust photooxidation capability

Hongwei Huang;Ying He;Xiaowei Li;Min Li.
Journal of Materials Chemistry (2015)

289 Citations

Rational design on 3D hierarchical bismuth oxyiodides via in situ self-template phase transformation and phase-junction construction for optimizing photocatalysis against diverse contaminants

Hongwei Huang;Ke Xiao;Tierui Zhang;Fan Dong.
Applied Catalysis B-environmental (2017)

247 Citations

In situ co-pyrolysis fabrication of CeO2/g-C3N4 n–n type heterojunction for synchronously promoting photo-induced oxidation and reduction properties

Na Tian;Hongwei Huang;Chengyin Liu;Fan Dong.
Journal of Materials Chemistry (2015)

229 Citations

Template-free precursor-surface-etching route to porous, thin g-C3N4 nanosheets for enhancing photocatalytic reduction and oxidation activity

Hongwei Huang;Ke Xiao;Na Tian;Fan Dong.
Journal of Materials Chemistry (2017)

211 Citations

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