J
Jianming Pan
Researcher at Jiangsu University
Publications - 292
Citations - 10120
Jianming Pan is an academic researcher from Jiangsu University. The author has contributed to research in topics: Adsorption & Molecularly imprinted polymer. The author has an hindex of 45, co-authored 279 publications receiving 7274 citations. Previous affiliations of Jianming Pan include Oak Ridge National Laboratory.
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Molecularly imprinted polymers as receptor mimics for selective cell recognition.
TL;DR: A panoramic view of current MIPs for both microorganism and mammalian cell recognition is provided, implying that MIP-based synthetic receptors are approaching to be perfectly functioning replicates of their natural counterparts.
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A Drug‐Self‐Gated Mesoporous Antitumor Nanoplatform Based on pH‐Sensitive Dynamic Covalent Bond
TL;DR: The paradigm shift in capping agents here will simplify mesoporous nanomaterials as intelligent drug carriers for cancer therapy and show general potential for self‐controlled delivery of natural biomolecules, for example, DNA/RNA, peptides, and proteins, due to their intrinsic amino groups.
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Enhanced oils and organic solvents absorption by polyurethane foams composites modified with MnO2 nanowires
TL;DR: In this article, a facile and inexpensive method was proposed to fabricate an effective and recyclable oil-absorbent, namely MnO2 nanowires/polyurethane (PU) foam composites, using a PU sponge as a porous substrate and MnO 2-nanowires as modifiers.
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Selective adsorption and separation of BPA from aqueous solution using novel molecularly imprinted polymers based on kaolinite/Fe3O4 composites
TL;DR: Magnetic molecularly polymers (MMIPs) based on kaolinite/Fe 3 O 4 composites were successfully synthesized for selective adsorption and separation of bisphenol A (BPA) from aqueous solutions.
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Recent advances in non-enzymatic electrochemical glucose sensors based on non-precious transition metal materials: opportunities and challenges
TL;DR: Both the superiorities and the intrinsic drawbacks of detecting glucose by employing non-precious materials including Ni, Cu, Co, Mn, and Fe are intensively highlighted, followed by a systematic discussion on the important progress harvested for enzymeless glucose sensing.