Searching for microsphere in mipdatabase.com main collection

1. Hu YY et al., Surface-imprinted polymer microsphere based on self-stabilized precipitation polymerization for selective removal of norfloxacin.
   Applied Surface Science, 574, Article151706-(2022)
      
2. Zhang T et al., Development of a molecularly imprinted microspheres-based microplate fluorescence method for detection of amantadine and rimantadine in chicken.
   Food Additives & Contaminants: Part A, 38, (7), 1136-1147, (2021)
      
3. Wu XD et al., Preparation and application of modified three-dimensional cellulose microspheres for paclitaxel targeted separation.
   Journal of Chromatography A, 1655, Article462487-(2021)
      
4. Zhang YF et al., Fabrication of Surface-Imprinted Magnetic Wrinkled Microspheres and Their Specific Adsorption of BSA.
   Industrial & Engineering Chemistry Research, 60, (30), 11277-11288, (2021)
      
5. Ma XH et al., An electrochemiluminescence sensor of magnetic glycosyl-imprinted microspheres based on multi-probe signal amplification for CD44v6 determination.
   Sensors and Actuators B: Chemical, 333, Article129562-(2021)
      
6. Hao Y et al., Fabrication of metal coordination-synergistic magnetic imprinted microspheres based on ligand-free Fe3O4-Cu for specific recognition of bovine hemoglobin.
   Talanta, 233, Article122496-(2021)
      
7. Pan T et al., Preparation of boronate-functionalized surface molecularly imprinted polymer microspheres with polydopamine coating for specific recognition and separation of glycoside template.
   Journal of Separation Science, 44, (12), 2465-2473, (2021)
      
8. Li G et al., Deep eutectic solvents cross-linked molecularly imprinted chitosan microsphere for the micro-solid phase extraction of p-hydroxybenzoic acid from pear rind.
   Journal of Separation Science, 44, (2), 549-556, (2021)
      
9. Zhang S et al., Synthesis of monodisperse magnetic restricted microspheres for recognition of thiamphenicol in milk.
   RSC Advances, 11, (12), 6869-6876, (2021)
      
10. Li F et al., Release of florfenicol in seawater using chitosan-based molecularly imprinted microspheres as drug carriers.
    Marine Pollution Bulletin, 173, Article113068-(2021)
       
11. Wang ZH et al., The fabrication of molecularly imprinted polymer microspheres via Pickering emulsion polymerization stabilized with novel ferric hydroxide colloid.
    Reactive and Functional Polymers, 169, Article105084-(2021)
       
12. Tan L et al., Glycosyl imprinted mesoporous microspheres for the determination of glycopeptide antibiotics using ultra-high performance liquid chromatography coupled with tandem mass spectrometry.
    Journal of Chromatography A, 1659, Article462630-(2021)
       
13. Wang ZH et al., Facile fabrication of snowman-like magnetic molecularly imprinted polymer microspheres for bisphenol A via one-step Pickering emulsion polymerization.
    Reactive and Functional Polymers, 164, Article104911-(2021)
       
14. Wang S et al., Novel molecularly imprinted malachite green bifunctional imprinted microspheres through Pickering emulsion polymerization.
    New Journal of Chemistry, 45, (41), 19304-19314, (2021)
       
15. Riazi A et al., Fabrication and Characterization of Molecularly Imprinted Microspheres as Highly Effective Sorbent for Fast and Selective Solid Phase Extraction of Nicotinamide in Beef and Wheat Flour Samples.
    Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
       
16. Zhang XX et al., Dummy molecularly imprinted microspheres prepared by Pickering emulsion polymerization for matrix solid-phase dispersion extraction of three azole fungicides from fish samples.
    Journal of Chromatography A, 1620, Article461013-(2020)
       
17. Tan L et al., Boronate affinity glycosyl molecularly imprinted polymer microspheres for the determination of teicoplanin using ultra-high performance liquid chromatography coupled with tandem mass spectrometry.
    Journal of Chromatography A, 1615, Article460776-(2020)
       
18. Zhou YQ et al., Restricted access magnetic imprinted microspheres for directly selective extraction of tetracycline veterinary drugs from complex samples.
    Journal of Chromatography A, 1613, Article460684-(2020)
       
19. Zhao XL et al., Synthesis of Multi-mode Quantum Dots Encoded Molecularly Imprinted Polymers Microspheres and Application in Quantitative Detection for Dopamine.
    Sensors and Actuators B: Chemical, 304, Article127265-(2020)
       
20. Qian LW et al., Zwitterionic polymer chain-assisted lysozyme imprinted core-shell carbon microspheres with enhanced recognition and selectivity.
    Talanta, 217, Article121085-(2020)
       
21. Xu SJ et al., Well-defined hydrophilic "turn-on"-type ratiometric fluorescent molecularly imprinted polymer microspheres for direct and highly selective herbicide optosensing in the undiluted pure milks.
    Talanta, 211, Article120711-(2020)
       
22. Li G et al., Deep eutectic solvents skeleton typed molecularly imprinted chitosan microsphere coated magnetic graphene oxide for solid-phase microextraction of chlorophenols from environmental water.
    Journal of Separation Science, 43, (6), 1063-1070, (2020)
       
23. Wang YF et al., Thermo-sensitive surface molecularly imprinted magnetic microspheres based on bio-macromolecules and their specific recognition of bovine serum albumin.
    Journal of Separation Science, 43, (5), 996-1002, (2020)
       
24. Cai Y et al., Molecularly imprinted microspheres based multiplexed fluorescence method for simultaneous detection of benzimidazoles and pyrethroids in meat samples.
    Food Chemistry, 319, Article126539-(2020)
       
25. Zhang Z et al., Molecularly imprinted polymer functionalized flower-like BiOBr microspheres for photoelectrochemical sensing of chloramphenicol.
    Electrochimica Acta, 344, Article136161-(2020)
       
26. Yuan XY et al., High-Performance Multiporous Imprinted Microspheres Based on N-Doped Carbon Dots Exfoliated from Covalent Organic Framework for Flonicamid Optosensing.
    ACS Applied Materials & Interfaces, 12, (22), 25150-25158, (2020)
       
27. Wang T et al., Camptothecin-imprinted polymer microspheres with rosin-based cross-linker for separation of camptothecin from Camptotheca acuminata fruit.
    Separation and Purification Technology, 234, Article116085-(2020)
       
28. Geng YY et al., The fabrication of highly ordered fluorescent molecularly imprinted mesoporous microspheres for the selective sensing of sparfloxacin in biological samples.
    Sensors and Actuators B: Chemical, 281, 821-829, (2019)
       
29. Deng HY et al., Rapidly colorimetric detection of caffeine in beverages by silver nanoparticle sensors coupled with magnetic molecularly imprinted polymeric microspheres.
    International Journal of Food Science & Technology, 54, (1), 202-211, (2019)
       
30. Miao YM et al., -Phosphorescent Mesoporous Surface Imprinting Microspheres: Preparation and Application for Transferrin Recognition from Biological Fluids.
    ACS Applied Materials & Interfaces, 11, (2), 2264-2272, (2019)
       
31. Wang YF et al., Preparation of Anti-Nonspecific Adsorption Chitosan-Based Bovine Serum Albumin Imprinted Polymers with Outstanding Adsorption Capacity and Selective Recognition Ability Based on Magnetic Microspheres.
    Macromolecular Materials And Engineering, 304, (4), Article1800731-(2019)
       
32. Manna J et al., Oxyanion-Binding in a Bioinspired Nanoparticle-Assembled Hybrid Microsphere Structure: Effective Removal of Arsenate/Chromate From Water.
    ACS Applied Nano Materials, 2, (3), 1525-1532, (2019)
       
33. Lu XC et al., Improvement of surface hydrophilicity and biological sample-compatibility of molecularly imprinted polymer microspheres by facile surface modification with α-cyclodextrin.
    European Polymer Journal, 115, 12-21, (2019)
       
34. Ma YJ et al., Well-defined biological sample-compatible molecularly imprinted polymer microspheres by combining RAFT polymerization and thiol-epoxy coupling chemistry.
    Journal of Materials Chemistry B, 7, (15), 2474-2483, (2019)
       
35. Süngü ÇZ et al., Molecularly imprinted polymeric shell coated monodisperse-porous silica microspheres as a stationary phase for microfluidic boronate affinity chromatography.
    Journal of Separation Science, 42, (11), 1962-1971, (2019)
       
36. Zhu YZ et al., Convenient synthesis of uncovered imprinted microspheres by Ganoderma lucidum spore-stabilized pickering emulsion polymerization and their enhanced recognition of spiramycin.
    RSC Advances, 9, (60), 34772-34783, (2019)
       
37. Wang XX et al., Preparation of Monodisperse Enrofloxacin Molecularly Imprinted Polymer Microspheres and Their Recognition Characteristics.
    International Journal of Analytical Chemistry, 2019, Article5970754-(2019)
       
38. Yang WX et al., Fabrication of inverse-opal lysozyme-imprinted polydopamine/polypyrrole microspheres with near-infrared-light-controlled release property.
    Journal of Colloid and Interface Science, 548, 37-47, (2019)
       
39. Zhao QY et al., Dual functional monomer surface molecularly imprinted microspheres for polysaccharide recognition in aqueous solution.
    Analytical Methods, 11, (21), 2800-2808, (2019)
       
40. Zhou JJ et al., Surface molecularly imprinted thermo-sensitive polymers based on light-weight hollow magnetic microspheres for specific recognition of BSA.
    Applied Surface Science, 486, 265-273, (2019)
       
41. Zhang YH et al., Molecularly imprinted polymer microspheres prepared via the two-step swelling polymerization for the separation of lincomycin.
    Journal of Applied Polymer Science, 136, (37), Article47938-(2019)
       
42. Liu Y et al., Novel fluorescent sensor using molecularly imprinted silica microsphere-coated CdSe@CdS quantum dots and its application in the detection of 2, 4, 6-trichlorophenol from environmental water samples.
    Luminescence, 34, (7), 680-688, (2019)
       
43. Guo PQ et al., Monodisperse molecularly imprinted microsphere cartridges coupled with HPLC for selective analysis of dexamethasone and hydrocortisone in cosmetics by using matrix solid-phase dispersion.
    Analytical Methods, 11, (29), 3687-3696, (2019)
       
44. Zhou JJ et al., Ni2+-BSA Directional Coordination-Assisted Magnetic Molecularly Imprinted Microspheres with Enhanced Specific Rebinding to Target Proteins.
    ACS Applied Materials & Interfaces, 11, (29), 25682-25690, (2019)
       
45. Lu X et al., Rapid and reliable determination of p-nitroaniline in wastewater by molecularly imprinted fluorescent polymeric ionic liquid microspheres.
    Biosensors and Bioelectronics, 99, 47-55, (2018)
       
46. Wang ZH et al., Polymerization induced shaping of Pickering emulsion droplets: From simple hollow microspheres to molecularly imprinted multicore microrattles.
    Chemical Engineering Journal, 332, 409-418, (2018)
       
47. Romano EFJ et al., Room temperature synthesis and binding studies of solution-processable histamine-imprinted microspheres.
    Journal of Molecular Recognition, 31, (1), ArticleNoe2659-(2018)
       
48. Gao BJ et al., Constituting of a new surface-initiating system on polymeric microspheres and preparation of basic protein surface-imprinted material in aqueous solution.
    Polymers for Advanced Technologies, 29, (1), 575-586, (2018)
       
49. Díaz-Álvarez M et al., Hollow fiber membrane-protected molecularly imprinted microspheres for micro solid-phase extraction and clean-up of thiabendazole in citrus samples.
    Journal of Chromatography A, 1531, 39-45, (2018)
       
50. Fernandes RS et al., Synthesis and characterization of porous surface molecularly imprinted silica microsphere for selective extraction of ascorbic acid.
    Microporous And Mesoporous Materials, 264, 28-34, (2018)
       
51. Li YL et al., Determination of carbonyl pollutants adsorbed on ambient particulate matter of type PM2.5 by using magnetic molecularly imprinted microspheres for sample pretreatment and capillary electrophoresis for separation and quantitation.
    Microchimica Acta, 185, (2), ArticleNo122-(2018)
       
52. Li YG et al., A robust electrochemical sensing platform using carbon paste electrode modified with molecularly imprinted microsphere and its application on methyl parathion detection.
    Biosensors and Bioelectronics, 106, 71-77, (2018)
       
53. Guo HQ et al., Surface molecular imprinting on carbon microspheres for fast and selective adsorption of perfluorooctane sulfonate.
    Journal of Hazardous Materials, 348, 29-38, (2018)
       
54. Demirkurt M et al., Electrospun polystyrene fibers knitted around imprinted acrylate microspheres as sorbent for paraben derivatives.
    Analytica Chimica Acta, 1014, 1-9, (2018)
       
55. Wang JX et al., Surface-imprinted fluorescence microspheres as ultrasensitive sensor for rapid and effective detection of tetracycline in real biological samples.
    Sensors and Actuators B: Chemical, 263, 533-542, (2018)
       
56. Wu XL et al., Bioinspired synthesis of pDA@GO-based molecularly imprinted nanocomposite membranes assembled with dendrites-like Ag microspheres for high-selective adsorption and separation of ibuprofen.
    Journal of Membrane Science, 553, 151-162, (2018)
       
57. Ren XH et al., Silver microspheres coated with a molecularly imprinted polymer as a SERS substrate for sensitive detection of bisphenol A.
    Microchimica Acta, 185, (4), ArticleNo242-(2018)
       
58. Zhu WT et al., Zipper-like magnetic molecularly imprinted microspheres for on/off-switchable recognition and extraction of 17β-estradiol from food samples.
    Food Chemistry, 261, 87-95, (2018)
       
59. Gui WY et al., Ratiometric fluorescent sensor with molecularly imprinted mesoporous microspheres for malachite green detection.
    Sensors and Actuators B: Chemical, 266, 685-691, (2018)
       
60. Li L et al., Preparation and characterization of hydrophilic molecularly imprinted microspheres for difenoconazole.
    Chemical Papers, 72, (5), 1277-1286, (2018)
       
61. Ying XG et al., Polyacrylamide-grafted calcium alginate microspheres as protein-imprinting materials.
    Polymer Bulletin, 75, (5), 2139-2150, (2018)
       
62. Chen HQ et al., Chitosan-Based Surface Molecularly Imprinted Polymer Microspheres for Sustained Release of Sinomenine Hydrochloride in Aqueous Media.
    Applied Biochemistry and Biotechnology, 185, (2), 370-384, (2018)
       
63. Monier M et al., Surface molecularly imprinted amino-functionalized alginate microspheres for enantio-selective extraction of l-ascorbic acid.
    Carbohydrate Polymers, 195, 652-661, (2018)
       
64. Chen HQ et al., Chitosan-Based Surface Molecularly Imprinted Polymer Microspheres for Sustained Release of Sinomenine Hydrochloride in Aqueous Media.
    Applied Biochemistry and Biotechnology, 185, (2), 370-384, (2018)
       
65. Wu M et al., Rapid Colorimetric Detection of Cartap Residues by AgNP Sensor with Magnetic Molecularly Imprinted Microspheres as Recognition Elements.
    Molecules, 23, (6), ArticleNo1443-(2018)
       
66. Wang B et al., Magnetic surface molecularly imprinted polymeric microspheres using gallic acid as a segment template for excellent recognition of ester catechins.
    Analytical Methods, 10, (27), 3317-3324, (2018)
       
67. Xiong Y et al., Preparation of Molecularly Imprinted Microspheres as Biomimetic Recognition Material for In Situ Adsorption and Selective Chemiluminescence Determination of Bisphenol A.
    Polymers, 10, (7), ArticleNo780-(2018)
       
68. Abdul-Quadir MS et al., Adsorptive denitrogenation of fuel over molecularly imprinted poly-2-(1H-imidazol-2-yl)-4-phenol microspheres.
    New Journal of Chemistry, 42, (15), 13135-13146, (2018)
       
69. Liu WF et al., Thermo-responsive ion imprinted polymer on the surface of magnetic carbon microspheres for identification and removal of low-concentrations of Cu2+.
    Environmental Chemistry, 15, (5), 306-316, (2018)
       
70. Wang YF et al., Fabrication of micron-sized BSA-imprinted polymers with outstanding adsorption capacity based on poly(glycidyl methacrylate)/polystyrene (PGMA/PS) anisotropic microspheres.
    Journal of Materials Chemistry B, 6, (37), 5860-5866, (2018)
       
71. Liang WX et al., Functionalization of Molecularly Imprinted Polymer Microspheres for the Highly Selective Removal of Contaminants from Aqueous Solutions and the Analysis of Food-Grade Fish Samples.
    Polymers, 10, (10), ArticleNo1130-(2018)
       
72. Sun XY et al., Magnetic boronate modified molecularly imprinted polymers on magnetite microspheres modified with porous TiO2 (Fe3O4@pTiO2@MIP) with enhanced adsorption capacity for glycoproteins and with wide operational pH range.
    Microchimica Acta, 185, (12), Article565-(2018)
       
73. Gong X et al., Synthesis of adenosine-imprinted microspheres for the recognition of ADP-ribosylated proteins.
    Biosensors and Bioelectronics, 87, 858-864, (2017)
       
74. Li XJ et al., Preparation of anti-nonspecific adsorption polydopamine-based surface protein-imprinted magnetic microspheres with the assistance of 2-methacryloyloxyethyl phosphorylcholine and its application for protein recognition.
    Sensors and Actuators B: Chemical, 241, 413-421, (2017)
       
75. Xia Q et al., Preparation and characterization of monodisperse molecularly imprinted polymer microspheres by precipitation polymerization for kaempferol.
    Designed Monomers and Polymers, 20, (1), 201-209, (2017)
       
76. Zhang YN et al., Preparation of novel three-dimensionally ordered macroporous molecularly imprinted microspheres and its recognition for proteins.
    International Journal of Polymeric Materials and Polymeric Biomaterials, 66, (2), 82-88, (2017)
       
77. Zhang XY et al., Immunostimulating peptide interfacial imprinted magnetic microspheres synthesized via Pickering emulsion polymerization.
    Journal of Materials Science, 52, (8), 4713-4726, (2017)
       
78. Zhang N et al., Preparation of protein imprinted microspheres using amphiphilic ionic liquid as stabilizer and emulsifier via miniemulsion polymerization.
    Chemical Engineering Journal, 317, 356-367, (2017)
       
79. Zhang Y et al., Preparation of Toluene-Imprinted Homogeneous Microspheres and Determination of Their Molecular Recognition Toward Template Vapor by Inverse Gas Chromatography.
    Chromatographia, 80, (3), 453-461, (2017)
       
80. Zhang XY et al., Preparation of magnetic epitope imprinted polymer microspheres using cyclodextrin-based ionic liquids as functional monomer for highly selective and effective enrichment of cytochrome c.
    Chemical Engineering Journal, 317, 988-998, (2017)
       
81. Lv YK et al., Preparation of Magnetic Surface-Imprinted Polymer Microspheres with Hydrophilic External Layers for Selective Extraction of Fluoroquinolones from Eggs.
    Australian Journal of Chemistry, 70, (3), 237-244, (2017)
       
82. Renkecz T et al., Book chapter, Preparation of Molecularly Imprinted Microspheres by Precipitation Polymerization, 
    In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 341-352, (2017)
       
83. Huang ZJ et al., Surface molecularly imprinted polymer microspheres based on nano-TiO2 for selective recognition of kaempferol.
    Journal of Applied Polymer Science, 134, (23), ArticleNo44888-(2017)
       
84. Gong CB et al., Photocontrolled extraction of uric acid from biological samples based on photoresponsive surface molecularly imprinted polymer microspheres.
    Journal of Separation Science, 40, (6), 1396-1402, (2017)
       
85. Liu Y et al., Preparation of molecularly imprinted polymeric microspheres based on distillation-precipitation polymerization for an ultrasensitive electrochemical sensor.
    Analyst, 142, (7), 1091-1098, (2017)
       
86. Sonawane SL et al., Probing cavity versus surface preference of fluorescent template molecules in molecularly imprinted polystyrene microspheres.
    Journal of Polymer Science Part A: Polymer Chemistry, 55, (9), 1558-1565, (2017)
       
87. Xie JF et al., Rapid and efficient separation of glycoprotein using pH double-responsive imprinted magnetic microsphere.
    Talanta, 169, 98-103, (2017)
       
88. Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
    Chemical Communications, 53, (27), 3890-3893, (2017)
       
89. Ding SC et al., Preparation of surface-imprinted microspheres using ionic liquids as novel cross-linker for recognizing an immunostimulating peptide.
    Journal of Materials Science, 52, (13), 8027-8040, (2017)
       
90. Lai SZ et al., Surface-imprinted microspheres prepared by a template-oriented method for the chiral separation of amlodipine.
    Journal of Separation Science, 40, (9), 1869-1876, (2017)
       
91. Romano EF et al., Assessment of the binding performance of histamine-imprinted microspheres by frontal analysis capillary electrophoresis.
    Electrophoresis, 38, (9-10), 1251-1259, (2017)
       
92. Fernandes RS et al., Molecularly imprinted core-shell hybrid microspheres for the selective extraction of vanillin.
    Analytical Methods, 9, (19), 2883-2889, (2017)
       
93. Wang ZH et al., The synthesis of hydrophilic molecularly imprinted polymer microspheres and their application for selective removal of bisphenol A from water.
    Reactive and Functional Polymers, 116, 69-76, (2017)
       
94. Zhang W et al., Preparation and Chromatographic Application of β-Cyclodextrin Molecularly Imprinted Microspheres for Paeoniflorin.
    Polymers, 9, (6), ArticleNo214-(2017)
       
95. Peng DP et al., Enzyme-linked immunoassay based on imprinted microspheres for the detection of sulfamethazine residue.
    Journal of Chromatography A, 1506, 9-17, (2017)
       
96. Lv N et al., Pyrophosphate-Imprinted Magnetic Mesoporous Silica Microspheres for Recognition, Enrichment and MS Detection of Phosphopeptides.
    ChemistrySelect, 2, (18), 5089-5094, (2017)
       
97. Wang YF et al., Fabrication and characterization of glutathione-imprinted polymers on fibrous SiO2 microspheres with high specific surface.
    Chemical Engineering Journal, 327, 932-940, (2017)
       
98. Liang WX et al., Combining Pickering Emulsion Polymerization with Molecular Imprinting to Prepare Polymer Microspheres for Selective Solid-Phase Extraction of Malachite Green.
    Polymers, 9, (8), ArticleNo344-(2017)
       
99. Zhang L et al., Recognition of 5-fluorouracil by thermosensitive magnetic surface molecularly imprinted microspheres designed using a computational approach.
    Journal of Applied Polymer Science, 134, (43), ArticleNo45468-(2017)
       
100. Kong DL et al., Facile Preparation of Ion-Imprinted Chitosan Microspheres Enwrapping Fe3O4 and Graphene Oxide by Inverse Suspension Cross-Linking for Highly Selective Removal of Copper(II).
     ACS Sustainable Chemistry & Engineering, 5, (8), 7401-7409, (2017)
        
101. Dai QZ et al., Adsorption and specific recognition of DNA by using imprinted polymer layers grafted onto ionic liquid functionalized magnetic microspheres.
     Microchimica Acta, 184, (11), 4433-4441, (2017)
        
102. Haran Y et al., Preparation of Quantum Dots and Fluorescent Molecularly Imprinted Composite Microspheres for Determination of Tyramine.
     Journal of Nanotechnology and Materials Science, 4, (2), 1-7, (2017)
        
103. Li RH et al., Synthesis, characterization and application of dummy-template molecularly imprinted microspheres for 2, 4-d butyl ester.
     Journal of Macromolecular Science, Part A, 54, (12), 931-937, (2017)
        
104. Lim KF et al., Book chapter, Advances and Challenges in the Design and Synthesis of Molecularly Imprinted Microspheres, 
     In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 4, 55-77, (2016)
        
105. Song RY et al., Surface modification of imprinted polymer microspheres with ultrathin hydrophilic shells to improve selective recognition of glutathione in aqueous media.
     Materials Science and Engineering: C, 60, 1-6, (2016)
        
106. Li XJ et al., Effect of crosslinking degree and thickness of thermosensitive imprinted layers on recognition and elution efficiency of protein imprinted magnetic microspheres.
     Sensors and Actuators B: Chemical, 225, 436-445, (2016)
        
107. Guo XH et al., Preparation and characterization of imprinted microspheres for clopyralid.
     Journal of Macromolecular Science, Part A, 53, (1), 34-40, (2016)
        
108. Futra D et al., A novel electrochemical sensor for 17β-estradiol from molecularly imprinted polymeric microspheres and multi-walled carbon nanotubes grafted with gold nanoparticles.
     Analytical Methods, 8, (6), 1381-1389, (2016)
        
109. Du CB et al., Preparation of surface-imprinted microspheres effectively controlled by orientated template immobilization using highly cross-linked raspberry-like microspheres for the selective recognition of an immunostimulating peptide.
     Journal of Materials Chemistry B, 4, (8), 1510-1519, (2016)
        
110. Tiu BDB et al., Detection of aspartame via microsphere-patterned and molecularly imprinted polymer arrays.
     Colloids and Surfaces A: Physicochemical and Engineering Aspects, 495, 149-158, (2016)
        
111. Qin L et al., Porous Carbon Microspheres: An Excellent Support To Prepare Surface Molecularly Imprinted Polymers for Selective Removal of Dibenzothiophene in Fuel Oil.
     Industrial & Engineering Chemistry Research, 55, (6), 1710-1719, (2016)
        
112. Rong F et al., Molecularly imprinted photonic crystal microspheres for label-free detection.
     Nanomedicine: Nanotechnology, Biology and Medicine, 12, (2), 524-524, (2016)
        
113. Liu WF et al., Molecularly imprinted polymers on the surface of porous carbon microspheres for capturing dibenzothiophene.
     Microchimica Acta, 183, (3), 1153-1160, (2016)
        
114. Fan T et al., Molecularly imprinted polymer microspheres derived from pickering emulsions polymerization in determination of di(2-ethylhexyl) phthalate in bottled water samples.
     Journal of Applied Polymer Science, 133, (22), ArticleNo43484-(2016)
        
115. Peng HL et al., Preparation of photonic-magnetic responsive molecularly imprinted microspheres and their application to fast and selective extraction of 17β-estradiol.
     Journal of Chromatography A, 1442, 1-11, (2016)
        
116. Jiang WJ et al., A novel ion imprinted SiO2 microsphere for the specific and rapid extraction and pre-concentration of ultra-trace methyl mercury.
     RSC Advances, 6, (46), 40100-40105, (2016)
        
117. Qiao FX et al., Molecularly imprinted ionic liquid magnetic microspheres for the rapid isolation of organochlorine pesticides in environmental water.
     Journal of Separation Science, 39, (7), 1310-1315, (2016)
        
118. He K et al., Highly selective recognition and fluorescent detection of JEV via virus-imprinted magnetic silicon microspheres.
     Sensors and Actuators B: Chemical, 233, 607-614, (2016)
        
119. Lv YK et al., Fast clean-up and selective enrichment of florfenicol in milk by restricted access media molecularly imprinted magnetic microspheres based on surface-initiated photoiniferter-mediated polymerization.
     Analytical Methods, 8, (19), 3982-3989, (2016)
        
120. Liang JY et al., Construction of Molecularly Imprinted Polymer Microspheres by Using Helical Substituted Polyacetylene and Application in Enantio-Differentiating Release and Adsorption.
     ACS Applied Materials & Interfaces, 8, (19), 12494-12503, (2016)
        
121. Huang HL et al., Multifunctional Magnetic Cellulose Surface-Imprinted Microspheres for Highly Selective Adsorption of Artesunate.
     ACS Sustainable Chemistry & Engineering, 4, (6), 3334-3343, (2016)
        
122. Liu JQ et al., BSA imprinted polyethylene glycol grafted calcium alginate hydrogel microspheres.
     Journal of Applied Polymer Science, 133, (36), ArticleNo43617-(2016)
        
123. Yang R et al., An effective method for the synthesis of yolk-shell magnetic mesoporous carbon-surface molecularly imprinted microspheres.
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