H
Haiwei Ji
Researcher at Chinese Academy of Sciences
Publications - 39
Citations - 1564
Haiwei Ji is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 14, co-authored 25 publications receiving 1123 citations. Previous affiliations of Haiwei Ji include Peking Union Medical College & Xi'an University of Science and Technology.
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Journal ArticleDOI
Antibacterial applications of graphene-based nanomaterials: Recent achievements and challenges.
Haiwei Ji,Hanjun Sun,Xiaogang Qu +2 more
TL;DR: The antibacterial mechanism of graphene is highlighted and recent advances related to the antibacterial activity of graphene-based materials are summarized and many of the recent application examples are further discussed.
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Bacterial Hyaluronidase Self-Triggered Prodrug Release for Chemo-Photothermal Synergistic Treatment of Bacterial Infection.
TL;DR: A novel platform for targeted on-demand prodrug ascorbic acid delivery is fabricated using a bacterial hyaluronidase sensitive graphene-mesoporous silica nanosheet@hyaluronic acid-magnetic nanoparticles as the nanocarrier to treat bacterial infections.
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A Multinuclear Metal Complex Based DNase-Mimetic Artificial Enzyme: Matrix Cleavage for Combating Bacterial Biofilms
TL;DR: Compared to the high environmental sensitivity of natural DNase in anti-biofilm applications, DMAE exhibited a much better operational stability and easier recoverability, and remarkably potentiated the efficiency of traditional antibiotics to kill biofilm-encased bacteria and eradiate biofilms.
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Design of Surface-Active Artificial Enzyme Particles to Stabilize Pickering Emulsions for High-Performance Biphasic Biocatalysis.
TL;DR: Surface-active artificial enzymes can simultaneously stabilize Pickering emulsions and catalyze biphasic biotransformation with superior enzymatic stability and good re-usability and are useful for interfacial conversion of hydrophobic p-nitrophenyl butyrate into yellow water-soluble p-Nitrophenolate catalyzed by esterase-mimic SAE.
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Individual Surface‐Engineered Microorganisms as Robust Pickering Interfacial Biocatalysts for Resistance‐Minimized Phase‐Transfer Bioconversion
TL;DR: A powerful strategy for long-term and diffusional-resistance-minimized whole-cell biocatalysis in biphasic systems is reported where individually encapsulated bacteria are employed as robust and recyclable Pickering interfacialBiocatalysts.