What is she best known for?
The fields of study she is best known for:
Her main research concerns Nanotechnology, Nanoparticle, Graphene, Combinatorial chemistry and Drug delivery.
Her Nanotechnology study combines topics from a wide range of disciplines, such as Mesoporous silica, Luminescence and DNA.
Her work deals with themes such as In vitro, Photoluminescence and Photon upconversion, which intersect with Nanoparticle.
Her biological study spans a wide range of topics, including Oxide, Inorganic chemistry, Quantum dot, Photochemistry and Selectivity.
Her Combinatorial chemistry research integrates issues from Detection limit, Analytical chemistry, Cysteine, Catalysis and Aqueous solution.
Her work in Drug delivery covers topics such as Photothermal therapy which are related to areas like Cancer cell, Nanocarriers and Doxorubicin.
Her most cited work include:
- Graphene oxide: intrinsic peroxidase catalytic activity and its application to glucose detection. (1469 citations)
- Catalytically Active Nanomaterials: A Promising Candidate for Artificial Enzymes (748 citations)
- Nanozymes: Classification, Catalytic Mechanisms, Activity Regulation, and Applications (688 citations)
What are the main themes of her work throughout her whole career to date?
Jinsong Ren focuses on Nanotechnology, DNA, Biophysics, Nanoparticle and Biochemistry.
Her work in Drug delivery, Graphene, Nanomaterials, Colloidal gold and Photothermal therapy are all subfields of Nanotechnology research.
Jinsong Ren works mostly in the field of Graphene, limiting it down to topics relating to Catalysis and, in certain cases, Peroxidase and Enzyme.
Her DNA research includes elements of Combinatorial chemistry, Nucleic acid, Stereochemistry and Small molecule.
Her studies in Biophysics integrate themes in fields like Neurotoxicity, Reactive oxygen species, Intracellular, Peptide and Amyloid.
Jinsong Ren has included themes like Biocompatibility and Photochemistry in her Nanoparticle study.
She most often published in these fields:
- Nanotechnology (37.35%)
- DNA (21.01%)
- Biophysics (21.40%)
What were the highlights of her more recent work (between 2018-2021)?
- Biophysics (21.40%)
- Catalysis (12.84%)
- Reactive oxygen species (9.34%)
In recent papers she was focusing on the following fields of study:
Jinsong Ren mainly focuses on Biophysics, Catalysis, Reactive oxygen species, Combinatorial chemistry and Cell biology.
Her Biophysics research incorporates themes from Neurotoxicity, In vitro, Photothermal therapy, Penetration and Peptide.
The Catalysis study combines topics in areas such as Peroxidase, Antimicrobial and Bioorthogonal chemistry.
Her Combinatorial chemistry research includes themes of Selectivity and Enzyme.
Her studies deal with areas such as Cancer cell, Oxidative stress, DNA damage and Cell membrane as well as Cell biology.
The study incorporates disciplines such as Vancomycin, Nanotechnology, Nir light and Therapeutic index in addition to Biofilm.
Between 2018 and 2021, her most popular works were:
- Nanozymes: Classification, Catalytic Mechanisms, Activity Regulation, and Applications (688 citations)
- Two-Dimensional Metal–Organic Framework/Enzyme Hybrid Nanocatalyst as a Benign and Self-Activated Cascade Reagent for in Vivo Wound Healing (127 citations)
- Two-Dimensional Metal–Organic Framework/Enzyme Hybrid Nanocatalyst as a Benign and Self-Activated Cascade Reagent for in Vivo Wound Healing (127 citations)
In her most recent research, the most cited papers focused on:
Jinsong Ren mainly investigates Biophysics, Nanotechnology, Reactive oxygen species, Metal-organic framework and Biofilm.
Her Biophysics research is multidisciplinary, incorporating perspectives in Biocompatibility, In vitro, Oxygen and Peptide.
Her Biocompatibility research focuses on subjects like Distribution, which are linked to Catalysis.
Her work on Hybrid material is typically connected to Structure and function as part of general Nanotechnology study, connecting several disciplines of science.
Her Reactive oxygen species study incorporates themes from Photothermal therapy, Apoptosis, Glutathione, Radical and Chemical engineering.
Her Metal-organic framework research is multidisciplinary, relying on both Nanosheet, Peroxidase, Glucose oxidase, Cascade reaction and Gluconic acid.
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