What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Catalysis
- Polymer
Xiaoyan Wang focuses on Molecularly imprinted polymer, Molecular imprinting, Adsorption, Chromatography and Solid phase extraction.
In most of his Molecularly imprinted polymer studies, his work intersects topics such as Nanotechnology.
He combines subjects such as Ion imprinted, Chromatographic separation and Fluorescence sensing with his study of Nanotechnology.
His Molecular imprinting study combines topics from a wide range of disciplines, such as Ratiometric fluorescence and Analytical chemistry.
His research investigates the link between Analytical chemistry and topics such as Amine gas treating that cross with problems in Quantum dot and Selectivity.
His Adsorption research also works with subjects such as
- Aqueous solution, which have a strong connection to Metal-organic framework, Copper and Salt,
- Polymer which is related to area like Molecule and Polymer chemistry.
His most cited work include:
- Molecular imprinting: perspectives and applications (1000 citations)
- Molecular imprinting: perspectives and applications (1000 citations)
- Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water (263 citations)
What are the main themes of his work throughout his whole career to date?
Xiaoyan Wang spends much of his time researching Molecular imprinting, Polymer, Detection limit, Nanotechnology and Quantum dot.
The concepts of his Molecular imprinting study are interwoven with issues in Molecularly imprinted polymer and Analytical chemistry.
Xiaoyan Wang focuses mostly in the field of Molecularly imprinted polymer, narrowing it down to topics relating to Chromatography and, in certain cases, Precipitation polymerization and Desorption.
Xiaoyan Wang has included themes like Nanoparticle, Selectivity and Nuclear chemistry in his Detection limit study.
In his study, Anode is inextricably linked to Mesoporous material, which falls within the broad field of Nanotechnology.
His study in Quantum dot is interdisciplinary in nature, drawing from both Photochemistry, Molecule, Polymerization and Nanosensor.
He most often published in these fields:
- Molecular imprinting (37.24%)
- Polymer (23.45%)
- Detection limit (31.03%)
What were the highlights of his more recent work (between 2019-2021)?
- Anode (17.24%)
- Polymer (23.45%)
- Molecular imprinting (37.24%)
In recent papers he was focusing on the following fields of study:
Anode, Polymer, Molecular imprinting, Detection limit and Molecularly imprinted polymer are his primary areas of study.
His research in Anode intersects with topics in Porosity, Silicon, Lithium-ion battery, Mesoporous material and Electrochemistry.
His work in Molecular imprinting tackles topics such as Chromatography which are related to areas like High selectivity and Nanosensor.
His studies in Detection limit integrate themes in fields like Quantum dot and Nuclear chemistry.
Xiaoyan Wang has researched Molecularly imprinted polymer in several fields, including Bioanalysis and Nanotechnology.
His research investigates the connection between Nanotechnology and topics such as In situ that intersect with problems in Catalysis.
Between 2019 and 2021, his most popular works were:
- A mobile robotic chemist (76 citations)
- Strategies of molecular imprinting-based solid-phase extraction prior to chromatographic analysis (59 citations)
- Strategies of molecular imprinting-based solid-phase extraction prior to chromatographic analysis (59 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Catalysis
- Polymer
His primary areas of study are Molecular imprinting, Molecularly imprinted polymer, Bioanalysis, Analyte and Detection limit.
The concepts of his Molecular imprinting study are interwoven with issues in Quantum dot, Chromatography and Polymer.
His Quantum dot study combines topics in areas such as Inorganic chemistry, Naked eye and Nanosensor.
His work often combines Molecularly imprinted polymer and Signal enhancement studies.
His Bioanalysis study results in a more complete grasp of Nanotechnology.
The various areas that he examines in his Analyte study include Colorimetry, Orders of magnitude, Linear range and Nuclear chemistry.
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