Aiguo Wu

What is he best known for?

The fields of study he is best known for:

• Enzyme
• Cancer
• DNA

Aiguo Wu focuses on Nanotechnology, Nanoparticle, Colloidal gold, Magnetic resonance imaging and Biocompatibility. His work deals with themes such as Fluorescence, Cellular imaging, Circulating tumor cell and Photoluminescence, which intersect with Nanotechnology. His studies deal with areas such as Biophysics, Internalization, Pinocytosis and Microscopy as well as Nanoparticle.

His Colloidal gold research incorporates elements of Tumor hypoxia, Nuclear chemistry, Detection limit, Dynamic light scattering and Selectivity. His work on MRI contrast agent as part of general Magnetic resonance imaging research is often related to Magnetic separation, thus linking different fields of science. The Biocompatibility study combines topics in areas such as Chemotherapy, Doxorubicin, Transmission electron microscopy, Analytical chemistry and Graphene.

His most cited work include:

• Red, Green, and Blue Luminescence by Carbon Dots: Full‐Color Emission Tuning and Multicolor Cellular Imaging (909 citations)
• A method to construct a third-generation horseradish peroxidase biosensor: self-assembling gold nanoparticles to three-dimensional sol-gel network. (583 citations)
• Truly Fluorescent Excitation-Dependent Carbon Dots and Their Applications in Multicolor Cellular Imaging and Multidimensional Sensing (328 citations)

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

His primary areas of study are Nanotechnology, Nanoparticle, Photothermal therapy, Magnetic resonance imaging and Cancer research. His studies in Nanomaterials, Biosensor and Nanocomposite are all subfields of Nanotechnology research. His study in Nanoparticle focuses on Colloidal gold in particular.

Aiguo Wu has included themes like Detection limit and Nuclear chemistry in his Colloidal gold study. His Magnetic resonance imaging study combines topics from a wide range of disciplines, such as Iron oxide nanoparticles and Biomedical engineering. His work in Cancer research tackles topics such as Doxorubicin which are related to areas like Nanocarriers.

He most often published in these fields:

• Nanotechnology (33.02%)
• Nanoparticle (26.98%)
• Photothermal therapy (12.38%)

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

• Nanotechnology (33.02%)
• Nanoparticle (26.98%)
• Photothermal therapy (12.38%)

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

Aiguo Wu mainly focuses on Nanotechnology, Nanoparticle, Photothermal therapy, Magnetic resonance imaging and Cancer research. His work on Biosensor is typically connected to Current as part of general Nanotechnology study, connecting several disciplines of science. His work carried out in the field of Nanoparticle brings together such families of science as Chitosan, Photothermal conversion, Acrylic acid and Nanomaterials.

His Photothermal therapy study combines topics in areas such as Biocompatibility, Cancer therapy, Nanoprobe and Mr imaging. His research in Magnetic resonance imaging intersects with topics in Conjugated system, Bovine serum albumin and Biomedical engineering. The concepts of his Cancer research study are interwoven with issues in Cancer cell, Cancer, Metastasis and Chemotherapy.

Between 2019 and 2021, his most popular works were:

• Tumor Microenvironment Stimuli-Responsive Fluorescence Imaging and Synergistic Cancer Therapy by Carbon-Dot-Cu 2+ Nanoassemblies (19 citations)
• Amplified Photoacoustic Signal and Enhanced Photothermal Conversion of Polydopamine-Coated Gold Nanobipyramids for Phototheranostics and Synergistic Chemotherapy. (15 citations)
• pH-Responsive metal-organic framework encapsulated gold nanoclusters with modulated release to enhance photodynamic therapy/chemotherapy in breast cancer (15 citations)

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

• Enzyme
• Cancer
• DNA

His primary areas of investigation include Photothermal therapy, Nanoparticle, Nanotechnology, Cancer research and Chemotherapy. The various areas that he examines in his Photothermal therapy study include Nanoscopic scale, Mr imaging, Biomedical engineering and Fluorescence-lifetime imaging microscopy. His Nanoparticle study integrates concerns from other disciplines, such as Chitosan, Magnetic resonance imaging, Nanomaterials, Glioblastoma and Zeolitic imidazolate framework.

The concepts of his Nanotechnology study are interwoven with issues in Cyanine and Cancer therapy. In his work, Tumor tissue, Cancer cell and Tumor recurrence is strongly intertwined with Circulating tumor cell, which is a subfield of Cancer research. His work on Doxorubicin as part of general Chemotherapy study is frequently linked to Ph changes, therefore connecting diverse disciplines of science.

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