What is he best known for?
The fields of study he is best known for:
- Enzyme
- Gene
- Organic chemistry
The scientist’s investigation covers issues in Nanotechnology, Biosensor, Inorganic chemistry, Detection limit and Nanoparticle.
Xueji Zhang combines subjects such as Electrochemistry and Photodynamic therapy with his study of Nanotechnology.
Xueji Zhang has researched Biosensor in several fields, including Linear range, Amperometry, Fluorescence, Chromatography and Analytical chemistry.
His studies deal with areas such as Fiber, Microelectrode, Catalysis and Electrocatalyst as well as Inorganic chemistry.
Xueji Zhang specializes in Detection limit, namely Electrochemiluminescence.
His work on DNA expands to the thematically related Nanoparticle.
His most cited work include:
- MicroRNA: function, detection, and bioanalysis. (577 citations)
- Measurement of Nitric Oxide Production in Biological Systems by Using Griess Reaction Assay (329 citations)
- Dual‐Scaled Porous Nitrocellulose Membranes with Underwater Superoleophobicity for Highly Efficient Oil/Water Separation (224 citations)
What are the main themes of his work throughout his whole career to date?
His main research concerns Nanotechnology, Biosensor, Detection limit, Nanoparticle and Chemical engineering.
In Nanotechnology, Xueji Zhang works on issues like Mesoporous silica, which are connected to Controlled release.
The study incorporates disciplines such as Combinatorial chemistry, Inorganic chemistry, Nucleic acid and DNA in addition to Biosensor.
His DNA research focuses on Fluorescence and how it relates to Biophysics.
His Detection limit research is multidisciplinary, incorporating elements of Microelectrode and Substrate.
The Analytical chemistry study combines topics in areas such as Electrochemistry and Cyclic voltammetry.
He most often published in these fields:
- Nanotechnology (35.63%)
- Biosensor (21.99%)
- Detection limit (21.03%)
What were the highlights of his more recent work (between 2019-2021)?
- Nanotechnology (35.63%)
- Biosensor (21.99%)
- Nanoparticle (15.41%)
In recent papers he was focusing on the following fields of study:
Nanotechnology, Biosensor, Nanoparticle, Combinatorial chemistry and Detection limit are his primary areas of study.
His work carried out in the field of Nanotechnology brings together such families of science as Inkjet printing and Reaction mechanism.
His Biosensor study also includes
- Molecular switch most often made with reference to DNA,
- Computational biology most often made with reference to Nucleic acid.
His Nanoparticle course of study focuses on Biophysics and Membrane, Photothermal therapy and Cancer cell.
The concepts of his Combinatorial chemistry study are interwoven with issues in Peptide nucleic acid, Atom-transfer radical-polymerization and Electrochemiluminescence.
His specific area of interest is Detection limit, where Xueji Zhang studies Linear range.
Between 2019 and 2021, his most popular works were:
- Lateral flow biosensors based on the use of micro- and nanomaterials: a review on recent developments (50 citations)
- Lateral flow biosensors based on the use of micro- and nanomaterials: a review on recent developments (50 citations)
- Enzyme-powered Janus platelet cell robots for active and targeted drug delivery (38 citations)
In his most recent research, the most cited papers focused on:
- Enzyme
- Gene
- Organic chemistry
Xueji Zhang mainly focuses on Nanotechnology, Nanoparticle, Biosensor, Photothermal therapy and Biophysics.
Xueji Zhang does research in Nanotechnology, focusing on Janus specifically.
His work in Nanoparticle tackles topics such as Combinatorial chemistry which are related to areas like Differential pulse voltammetry, Nitroxide mediated radical polymerization, Microelectrode, Peptide nucleic acid and Detection limit.
His biological study spans a wide range of topics, including Ultrasonic sensor, Tumor imaging, Fluorescence and Nanoclusters.
The various areas that he examines in his Photothermal therapy study include Intercalation, Near-infrared spectroscopy, MXenes and Exfoliation joint.
His studies examine the connections between Biophysics and genetics, as well as such issues in Cancer cell, with regards to Membrane, Urease, Targeted drug delivery, Immobilized enzyme and Surface engineering.
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