Jinhua Ye

What is she best known for?

The fields of study she is best known for:

• Oxygen
• Organic chemistry
• Catalysis

Her main research concerns Photocatalysis, Photochemistry, Nanotechnology, Visible spectrum and Inorganic chemistry. Her study on Photocatalysis is covered under Catalysis. She combines subjects such as Hydrogen, Photoluminescence, Transition metal, Band gap and Visible light irradiation with her study of Photochemistry.

In her work, Facet is strongly intertwined with Surface energy, which is a subfield of Nanotechnology. Her work carried out in the field of Visible spectrum brings together such families of science as Oxygen, Water splitting, Photocatalytic water splitting and Quantum efficiency. Her research in Inorganic chemistry intersects with topics in Carbon nitride, Surface modification, Nanoparticle, Graphitic carbon nitride and Nanotube.

Her most cited work include:

• Nano‐photocatalytic Materials: Possibilities and Challenges (2797 citations)
• Direct splitting of water under visible light irradiation with an oxide semiconductor photocatalyst (2701 citations)
• An orthophosphate semiconductor with photooxidation properties under visible-light irradiation (1523 citations)

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

Jinhua Ye mainly investigates Photocatalysis, Photochemistry, Catalysis, Visible spectrum and Inorganic chemistry. Her Photocatalysis research also works with subjects such as

• Nanotechnology together with Plasmon,
• Semiconductor which intersects with area such as Charge carrier. Her research in Photochemistry focuses on subjects like Water splitting, which are connected to Photocurrent.

Jinhua Ye has included themes like Hydrogen, Methanol, Photothermal therapy and Adsorption, Metal-organic framework in her Catalysis study. Her Visible spectrum research is included under the broader classification of Optoelectronics. Her work deals with themes such as Doping, Crystal structure and Mesoporous material, which intersect with Inorganic chemistry.

She most often published in these fields:

• Photocatalysis (93.71%)
• Photochemistry (41.88%)
• Catalysis (42.56%)

What were the highlights of her more recent work (between 2019-2022)?

• Photocatalysis (93.71%)
• Catalysis (42.56%)
• Photochemistry (41.88%)

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

Jinhua Ye mostly deals with Photocatalysis, Catalysis, Photochemistry, Selectivity and Photothermal therapy. Her Photocatalysis research includes elements of Nanotechnology, Charge carrier, Metal, Metal-organic framework and Quantum efficiency. Her Catalysis study integrates concerns from other disciplines, such as Hydrogen, Overpotential, Semiconductor and Methanol.

Her Photochemistry research is multidisciplinary, relying on both Noble metal, Visible spectrum, Oxygen and Methane. Her Visible spectrum research incorporates elements of Nitrogen fixation, Surface modification and Nanostructure. Her studies deal with areas such as Yield, Syngas and Adsorption as well as Selectivity.

Between 2019 and 2022, her most popular works were:

• Coupling of Solar Energy and Thermal Energy for Carbon Dioxide Reduction: Status and Prospects (94 citations)
• Photoinduced Defect Engineering: Enhanced Photothermal Catalytic Performance of 2D Black In 2 O 3− x Nanosheets with Bifunctional Oxygen Vacancies (70 citations)
• Photoinduced Defect Engineering: Enhanced Photothermal Catalytic Performance of 2D Black In 2 O 3− x Nanosheets with Bifunctional Oxygen Vacancies (70 citations)

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

• Oxygen
• Organic chemistry
• Catalysis

Her primary areas of study are Photocatalysis, Catalysis, Nanotechnology, Photochemistry and Metal-organic framework. Jinhua Ye combines subjects such as Surface modification, Nanostructure, Composite number, Selectivity and Graphene with her study of Photocatalysis. Her research in Catalysis intersects with topics in Electronic structure, Overpotential and Visible spectrum.

Her study in Photochemistry is interdisciplinary in nature, drawing from both Covalent bond, Noble metal, Intramolecular force and Exciton. Her Metal-organic framework research integrates issues from Titanium, Crystal engineering and Solar fuel. Her Water splitting study combines topics in areas such as Iron phosphide, Oxygen evolution and Semiconductor.

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