16 results on '"Zhao, Liangshen"'
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2. A sphere-on-sphere structure: Cu nanoparticles grown on cellulose microspheres for the removal of environmental contaminants
3. Boronate-immobilized cellulose nanofiber-reinforced cellulose microspheres for pH-dependent adsorption of glycoproteins
4. Proteinaceous porous nanofiber membrane-type adsorbent derived from amyloid lysozyme protofilaments for highly efficient lead(II) biologic scavenging
5. Confined growth of molybdenum disulfide in cellulose microspheres with highly porous structure for environmental applications
6. Tentacle-type poly(hydroxamic acid)-modified macroporous cellulose beads: Synthesis, characterization, and application for heavy metal ions adsorption
7. Preparation and characterization of highly porous cellulose-agarose composite chromatographic microspheres for enhanced selective separation of histidine-rich proteins
8. Direct preparation of porous cellulose microspheres via a self-growth process on bamboo fibers and their functionalization for specific adsorption of histidine-rich proteins
9. Construction of hierarchically porous chitin microspheres via a novel Dual-template strategy for rapid and High-capacity removal of heavy metal ions
10. One-Step Preparation of Macroporous Zein Microspheres by Solvent Diffusion for Dye Adsorption
11. Study of tentacle-like cationic macroporous cellulose spherical adsorbent for heavy metals
12. High-strength and low-crystallinity cellulose/agarose composite microspheres: Fabrication, characterization and protein adsorption
13. Fabrication and Characterization of Anisotropic Porous Poly(styrene@acrylic acid) Monolith for Enhanced Ability of Heavy Metal Adsorption
14. Diethylaminoethyl-Modified Magnetic Starlike Organic Spherical Adsorbent: Fabrication, Characterization, and Potential for Protein Adsorption
15. The construction of porous chitosan microspheres with high specific surface area by using agarose as the pore-forming agent and further functionalized application in bioseparation
16. One-Step Growth of Porous Cellulose Beads Directly on Bamboo Fibers via Oxidation-Derived Method in Aqueous Phase and Their Potential for Heavy Metal Ions Adsorption
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