Searching for author MosbachK in mipdatabase.com main collection

1. Dechtrirat D et al., Book chapter, Catalytically Active MIP Architectures, 
   In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 2, 19-34, (2016)
      
2. Yoshimatsu K et al., Corrigendum to "Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications" [Anal. Chim. Acta 584 (2007) 112-121].
   Analytica Chimica Acta, 657, (2), 215-215, (2010)
      
3. Allender C et al., MIP2008 Kobe, Japan, September 2008.
   Biosensors and Bioelectronics, 25, (3), 539-542, (2009)
      
4. Ye L et al., Molecular Imprinting: Synthetic Materials As Substitutes for Biological Antibodies and Receptors.
   Chemistry of Materials, 20, (3), 859-868, (2008)
      
5. Yoshimatsu K et al., Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications.
   Analytica Chimica Acta, 584, (1), 112-121, (2007)
      
6. Zhang HQ et al., Molecularly imprinted nanoreactors for regioselective Huisgen 1, 3-dipolar cycloaddition reaction.
   Journal of the American Chemical Society, 128, (13), 4178-4179, (2006)
      
7. Zhang HQ et al., Non-covalent molecular imprinting with emphasis on its application in separation and drug development.
   Journal of Molecular Recognition, 19, (4), 248-259, (2006)
      
8. Boonpangrak S et al., Preparation of molecularly imprinted polymers using nitroxide-mediated living radical polymerization.
   Biosensors and Bioelectronics, 22, (3), 349-354, (2006)
      
9. Mosbach K, The promise of molecular imprinting.
   Scientific American, 295, (4), 86-91, (2006)
      
10. Zhang H et al., MIP for Regioselective Huisgen 1, 3-Dipolar Cycloaddition Reaction.
    Synfacts, (7), 0742-0742, (2006)
       
11. Yilmaz E et al., Book chapter, The noncovalent approach, 
    In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 3, 25-57, (2005)
       
12. Gavioli E et al., Analyte templating: Enhancing the enantioselectivity of chiral selectors upon incorporation into organic polymer environments.
    Analytical Chemistry, 77, (15), 5009-5018, (2005)
       
13. Schmidt RH et al., A simple method for spin-coating molecularly imprinted polymer films of controlled thickness and porosity.
    Advanced Materials, 16, (8), 719-722, (2004)
       
14. Lettau K et al., An esterolytic imprinted polymer prepared via a silica-supported transition state analogue.
    Chemistry of Materials, 16, 2745-2749, (2004)
       
15. Yilmaz E et al., A facile method for preparing molecularly imprinted polymer spheres using spherical silica templates.
    Journal of Materials Chemistry, 12, (5), 1577-1581, (2002)
       
16. Yu YH et al., Removal of the fermentation by-product succinyl L-tyrosine from the b-lactamase inhibitor clavulanic acid using a molecularly imprinted polymer.
    Biotechnology and Bioengineering, 79, (1), 23-28, (2002)
       
17. Yu YH et al., Formation of a class of enzyme inhibitors (drugs), including a chiral compound, by using imprinted polymers or biomolecules as molecular-scale reaction vessels.
    Angewandte Chemie International Edition, 41, (23), 4459-4463, (2002)
       
18. Surugiu I et al., Chemiluminescence imaging ELISA using an imprinted polymer as the recognition element instead of an antibody.
    Analytical Chemistry, 73, (3), 487-491, (2001)
       
19. Yamazaki T et al., Towards the use of molecularly imprinted polymers containing imidazoles and bivalent metal complexes for the detection and degradation of organophosphotriester pesticides.
    Analytica Chimica Acta, 435, (1), 209-214, (2001)
       
20. Yamazaki T et al., A novel amperometric sensor for organophosphotriester insecticides detection employing catalytic polymer mimicking phosphotriesterase catalytic center.
    Electrochemistry, 69, (12), 969-972, (2001)
       
21. Ye L et al., Polymers recognizing biomolecules based on a combination of molecular imprinting and proximity scintillation: A new sensor concept.
    Journal of the American Chemical Society, 123, (12), 2901-2902, (2001)
       
22. Ye L et al., Molecular imprinting on microgel spheres.
    Analytica Chimica Acta, 435, (1), 187-196, (2001)
       
23. Ye L et al., Towards the development of molecularly imprinted artificial receptors for the screening of estrogenic chemicals.
    Analyst, 126, (6), 760-765, (2001)
       
24. Ye L et al., Molecularly imprinted microspheres as antibody binding mimics.
    Reactive and Functional Polymers, 48, (1-3), 149-157, (2001)
       
25. Ye L et al., The technique of molecular imprinting - Principle, state of the art, and future aspects.
    Journal of Inclusion Phenomena and Macrocyclic Chemistry, 41, (1-4), 107-113, (2001)
       
26. Yilmaz E et al., Book chapter, The use of imprinted polymers as recognition elements in biosensors and binding assays, 
    In: Novel Approaches In Biosensors And Rapid Diagnostic Assays, Liron Z, Bromberg A, Fisher M (Eds.) Kluwer Academic/Plenum Publishers: New York, Ch. 14, 193-209, (2001)
       
27. Janotta M et al., Molecularly imprinted polymers for nitrophenols - An advanced separation material for environmental analysis.
    International Journal of Environmental Analytical Chemistry, 80, (2), 75-86, (2001)
       
28. Mosbach K, Toward the next generation of molecular imprinting with emphasis on the formation, by direct molding, of compounds with biological activity (biomimetics).
    Analytica Chimica Acta, 435, (1), 3-8, (2001)
       
29. Mosbach K, Towards the development of artificial recognition elements in sensor technology vision with emphasis on molecular imprinting.
    Electrochemistry, 69, (12), 919-919, (2001)
       
30. Mosbach K et al., Generation of new enzyme inhibitors using imprinted binding sites: The anti-idiotypic approach, a step toward the next generation of molecular imprinting.
    Journal of the American Chemical Society, 123, (49), 12420-12421, (2001)
       
31. Surugiu I et al., An enzyme-linked molecularly imprinted sorbent assay.
    Analyst, 125, (1), 13-16, (2000)
       
32. Brüggemann O et al., New configurations and applications of molecularly imprinted polymers.
    Journal of Chromatography A, 889, (1-2), 15-24, (2000)
       
33. Ye L et al., Synthesis and characterization of molecularly imprinted microspheres.
    Macromolecules, 33, (22), 8239-8245, (2000)
       
34. Yilmaz E et al., The use of immobilized templates - A new approach in molecular imprinting.
    Angewandte Chemie International Edition, 39, (12), 2115-2118, (2000)
       
35. Yu C et al., Influence of mobile phase composition and cross-linking density on the enantiomeric recognition properties of molecularly imprinted polymers.
    Journal of Chromatography A, 888, (1-2), 63-72, (2000)
       
36. Cormack PAG et al., Book chapter, Affinity Separation | Imprint Polymers, 
    In: Encyclopedia of Separation Science, Wilson ID, Adlard TR, Poole CF, Cook M (Eds.) Elsevier Ltd: Oxford, 288-296, (2000)
       
37. Haupt K et al., Molecularly imprinted polymers and their use in biomimetic sensors.
    Chemical Reviews, 100, (7), 2495-2504, (2000)
       
38. Ye L et al., Molecularly imprinted monodisperse microspheres for competitive radioassay.
    Analytical Communications, 36, (2), 35-38, (1999)
       
39. Ye L et al., Use of molecularly imprinted polymers in a biotransformation process.
    Biotechnology and Bioengineering, 64, (6), 650-655, (1999)
       
40. Yilmaz E et al., Influence of functional and cross-linking monomers and the amount of template on the performance of molecularly imprinted polymers in binding assays.
    Analytical Communications, 36, (5), 167-170, (1999)
       
41. Cormack PAG et al., Molecular imprinting: recent developments and the road ahead.
    Reactive and Functional Polymers, 41, (1-3), 115-124, (1999)
       
42. Andersson HS et al., Study of the nature of recognition in molecularly imprinted polymers, II [1] - Influence of monomer-template ratio and sample load on retention and selectivity.
    Journal of Chromatography A, 848, (1-2), 39-49, (1999)
       
43. Haupt K et al., Molecularly imprinted polymers in chemical and biological sensing.
    Biochemical Society Transactions, 27, 344-350, (1999)
       
44. Jakusch M et al., Molecularly imprinted polymers and infrared evanescent wave spectroscopy. A chemical sensors approach.
    Analytical Chemistry, 71, (20), 4786-4791, (1999)
       
45. Kröger S et al., Imprinted polymer based sensor system for herbicides using differential-pulse voltammetry on screen printed electrodes.
    Analytical Chemistry, 71, (17), 3698-3702, (1999)
       
46. Liu XC et al., Catalysis of benzisoxazole isomerization by molecularly imprinted polymers.
    Abstracts of Papers of the American Chemical Society, 217, (BTEC), 66-66, (1999)
       
47. Ramström O et al., Synthesis and catalysis by molecularly imprinted materials.
    Current Opinion in Chemical Biology, 3, (6), 759-764, (1999)
       
48. Berglund J et al., Selection of phage display combinatorial library peptides with affinity for a yohimbine imprinted methacrylate polymer.
    Analytical Communications, 35, (1), 3-7, (1998)
       
49. Ye L et al., Molecularly imprinted polymeric adsorbents for byproduct removal.
    Analytical Chemistry, 70, (14), 2789-2795, (1998)
       
50. Ye L et al., A new application of molecularly imprinted materials.
    Journal of Molecular Recognition, 11, (1-6), 75-78, (1998)
       
51. Yu C et al., Insights into the origins of binding and the recognition properties of molecularly imprinted polymers prepared using an amide as the hydrogen-bonding functional group.
    Journal of Molecular Recognition, 11, (1-6), 69-74, (1998)
       
52. Cormack P et al., Molecularly imprinted polymers for application in chemical analysis.
    American Biotechnology Laboratory, 16, (6), 47-48, (1998)
       
53. Haupt K et al., Assay system for the herbicide 2, 4-dichlorophenoxyacetic acid using a molecularly imprinted polymer as an artificial recognition element.
    Analytical Chemistry, 70, (3), 628-631, (1998)
       
54. Haupt K et al., Herbicide assay using an imprinted polymer based system analogous to competitive fluoroimmunoassays.
    Analytical Chemistry, 70, (18), 3936-3939, (1998)
       
55. Haupt K et al., Plastic antibodies: developments and applications.
    Trends In Biotechnology, 16, (11), 468-475, (1998)
       
56. Ansell RJ et al., Magnetic molecularly imprinted polymer beads for drug radioligand binding assay.
    Analyst, 123, (7), 1611-1616, (1998)
       
57. Liu XC et al., Catalysis of benzisoxazole isomerization by molecularly imprinted polymers.
    Macromolecular Rapid Communications, 19, (12), 671-674, (1998)
       
58. Mosbach K et al., Some new developments and challenges in non-covalent molecular imprinting technology.
    Journal of Molecular Recognition, 11, (1-6), 62-68, (1998)
       
59. Mosbach K et al., Book chapter, Molecular imprinting: Status artis et quo vadere?, 
    In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 3, 29-48, (1998)
       
60. Ramström O et al., Screening of a combinatorial steroid library using molecularly imprinted polymers.
    Analytical Communications, 35, (1), 9-11, (1998)
       
61. Ramström O et al., Applications of molecularly imprinted materials as selective adsorbents: Emphasis on enzymatic equilibrium shifting and library screening.
    Chromatographia, 47, (7-8), 465-469, (1998)
       
62. Sabourin L et al., Molecularly imprinted polymer combinatorial libraries for multiple simultaneous chiral separations.
    Analytical Communications, 35, (9), 285-287, (1998)
       
63. Senholdt M et al., Determination of cyclosporin A and metabolites total concentration using a molecularly imprinted polymer based radioligand binding assay.
    Analytical Letters, 30, (10), 1809-1821, (1997)
       
64. Siemann M et al., Separation and detection of macrolide antibiotics by HPLC using macrolide-imprinted synthetic polymers as stationary phases.
    Journal of Antibiotics, 50, (1), 89-91, (1997)
       
65. Yu C et al., Molecular imprinting utilizing an amide functional group for hydrogen bonding leading to highly efficient polymers.
    Journal of Organic Chemistry, 62, (12), 4057-4064, (1997)
       
66. Yu C et al., Enantiomeric recognition by molecularly imprinted polymers using hydrophobic interactions.
    Analytical Letters, 30, (12), 2123-2140, (1997)
       
67. Haupt K et al., Binding assays for drugs and herbicides using molecularly imprinted polymer particles as recognition elements in different assay formats.
    Abstracts of Papers of the American Chemical Society, 213, (IEC), 32-32, (1997)
       
68. Kriz D et al., Molecular imprinting - New possibilities for sensor technology.
    Analytical Chemistry, 69, A345-A349, (1997)
       
69. Ansell RJ et al., Molecularly imprinted polymers by suspension polymerisation in perfluorocarbon liquids, with emphasis on the influence of the porogenic solvent.
    Journal of Chromatography A, 787, (1-2), 55-66, (1997)
       
70. Liu XC et al., Studies towards a tailor-made catalyst for the Diels-Alder reaction using the technique of molecular imprinting.
    Macromolecular Rapid Communications, 18, (7), 609-615, (1997)
       
71. Liu XC et al., Novel separation material suitable for both boronate affinity chromatography and immobilized metal affinity chromatography.
    Abstracts of Papers of the American Chemical Society, 213, (BIOT), 157-157, (1997)
       
72. Mayes AG et al., Molecularly imprinted polymers: useful materials for analytical chemistry?
    TrAC Trends in Analytical Chemistry, 16, (6), 321-332, (1997)
       
73. Mosbach K, The emerging technique of molecular imprinting and its future impact on biotechnology.
    Abstracts of Papers of the American Chemical Society, 213, (IEC), 111-111, (1997)
       
74. Berglund J et al., Recognition in molecularly imprinted polymer a2-adrenoreceptor mimics.
    Bioorganic & Medicinal Chemistry Letters, 6, (18), 2237-2242, (1996)
       
75. Siemann M et al., Selective recognition of the herbicide atrazine by noncovalent molecularly imprinted polymers.
    Journal of Agricultural and Food Chemistry, 44, (1), 141-145, (1996)
       
76. Andersson HS et al., Study of the nature of recognition in molecularly imprinted polymers.
    Journal of Molecular Recognition, 9, (5-6), 675-682, (1996)
       
77. Andersson LI et al., Molecular imprinting of the endogenous neuropeptide Leu(5)-enkephalin and some derivatives thereof.
    Macromolecular Rapid Communications, 17, (1), 65-71, (1996)
       
78. Andersson LI et al., Book chapter, Molecular Imprinting: The current status and future development of polymer-based recognition systems, 
    In: Biochemical Technology, Part B, Bittar EE, Danielsson B, Bulow L (Eds.) Elsevier: Amsterdam, Ch. 32, 651-670, (1996)
       
79. Ansell RJ et al., Towards artificial antibodies prepared by molecular imprinting.
    Clinical Chemistry, 42, (9), 1506-1512, (1996)
       
80. Ansell RJ et al., Molecularly imprinted polymers for bioanalysis: Chromatography, binding assays and biomimetic sensors.
    Current Opinion in Biotechnology, 7, (1), 89-94, (1996)
       
81. Kriz D et al., Introduction of molecularly imprinted polymers as recognition elements in conductometric chemical sensors.
    Sensors and Actuators B: Chemical, 33, (1-3), 178-181, (1996)
       
82. Liu XC et al., A tailor-made catalyst for Diels-Alder reaction.
    Abstracts of Papers of the American Chemical Society, 212, (OLY), 254-254, (1996)
       
83. Matsui J et al., Carbon-carbon bond formation using substrate selective catalytic polymers prepared by molecular imprinting: An artificial class II aldolase.
    Journal of Organic Chemistry, 61, (16), 5414-5417, (1996)
       
84. Matsui J et al., Metal ion mediated recognition in molecularly imprinted polymers.
    Analytica Chimica Acta, 335, (1-2), 71-77, (1996)
       
85. Mayes AG et al., Molecularly imprinted polymer beads: Suspension polymerization using a liquid perfluorocarbon as the dispersing phase.
    Analytical Chemistry, 68, (21), 3769-3774, (1996)
       
86. Mosbach K et al., The emerging technique of molecular imprinting and its future impact on biotechnology.
    Bio/Technology, 14, 163-170, (1996)
       
87. Nicholls IA et al., Some recent developments in the preparation of novel recognition systems: A recognition site for the selective catalysis of an aldol condensation using molecular imprinting and specific affinity motifs for a-chymotrypsin using a phage display peptide library.
    Journal of Molecular Recognition, 9, (5-6), 652-657, (1996)
       
88. Ramström O et al., Artificial antibodies to corticosteroids prepared by molecular imprinting.
    Chemistry & Biology, 3, (6), 471-477, (1996)
       
89. Ramström O et al., Chiral recognition in adrenergic receptor binding mimics prepared by molecular imprinting.
    Journal of Molecular Recognition, 9, (5-6), 691-696, (1996)
       
90. Ansell R et al., Molecularly imprinted polymers - New tools for biomedical science.
    Pharmaceutical News, 3, (2), 16-20, (1995)
       
91. Johansson A et al., Horse liver alcohol-dehydrogenase can accept NADP+ as coenzyme in high-concentrations of acetonitrile.
    European Journal of Biochemistry, 227, (1-2), 551-555, (1995)
       
92. Glad M et al., Molecularly imprinted composite polymers based on trimethylolpropane trimethacrylate (TRIM) Particles for efficient enantiomeric separations.
    Reactive Polymers, 25, (1), 47-54, (1995)
       
93. Andersson LI et al., Mimics of the binding-sites of opioid receptors obtained by molecular imprinting of enkephalin and morphine.
    Proceedings of the National Academy of Sciences of the United States of America, 92, (11), 4788-4792, (1995)
       
94. Andersson LI et al., Book chapter, Antibody mimics obtained by noncovalent molecular imprinting, 
    In: Immunoassays of Agrochemicals, Karu AE, Nelson JO, Wong RB (Eds.) The American Chemical Society: Washington DC, Ch. 6, 89-96, (1995)
       
95. Kempe M et al., Molecular imprinting used for chiral separations.
    Journal of Chromatography A, 694, (1), 3-13, (1995)
       
96. Kempe M et al., Separation of amino-acids, peptides and proteins on molecularly imprinted stationary phases.
    Journal of Chromatography A, 691, (1-2), 317-323, (1995)
       
97. Kempe M et al., Receptor-binding mimetics - a novel molecularly imprinted polymer.
    Tetrahedron Letters, 36, (20), 3563-3566, (1995)
       
98. Kempe M et al., An approach towards surface imprinting using the enzyme ribonuclease A.
    Journal of Molecular Recognition, 8, (1-2), 35-39, (1995)
       
99. Kriz D et al., Competitive amperometric morphine sensor-based on an agarose immobilized molecularly imprinted polymer.
    Analytica Chimica Acta, 300, (1-3), 71-75, (1995)
       
100. Kriz D et al., Introducing biomimetic sensors based on molecularly imprinted polymers as recognition elements.
     Analytical Chemistry, 67, (13), 2142-2144, (1995)
        
101. Kriz D et al., Preparation and characterization of composite polymers exhibiting both selective molecular recognition and electrical conductivity.
     Biomimetics, 3, (2), 81-90, (1995)
        
102. Mosbach K, Molecular imprinting - molecularly imprinted polymers - their use in enantiomeric resolution, as antibody-binding mimics and as catalysis.
     Protein Engineering, 8, 54-54, (1995)
        
103. Nicholls IA et al., Recognition and enantioselection of drugs and biochemicals using molecularly imprinted polymer technology.
     Trends In Biotechnology, 13, (2), 47-51, (1995)
        
104. Nicholls IA et al., Insights into the role of the hydrogen-bond and hydrophobic effect on recognition in molecularly imprinted polymer synthetic peptide receptor mimics.
     Journal of Chromatography A, 691, (1-2), 349-353, (1995)
        
105. Nilsson KGI et al., Molecular imprinting of acetylated carbohydrate-derivatives into methacrylic polymers.
     Journal of Chromatography A, 707, (2), 199-203, (1995)
        
106. Andersson LI et al., Book chapter, Molecular imprinting - A versatile technique for the preparation of separation materials of predetermined selectivity, 
     In: Highly selective separations in biotechnology, Street G (Ed.) Blackie: London, Ch. 9, 207-225, (1994)
        
107. Kempe M et al., Chiral recognition of N-a-protected amino-acids and derivatives in noncovalently molecularly imprinted polymers.
     International Journal of Peptide and Protein Research, 44, 603-606, (1994)
        
108. Kempe M et al., Direct resolution of naproxen on a noncovalently molecularly imprinted chiral stationary-phase.
     Journal of Chromatography A, 664, (2), 276-279, (1994)
        
109. Kriz D et al., Thin-layer chromatography based on the molecular imprinting technique.
     Analytical Chemistry, 66, (17), 2636-2639, (1994)
        
110. Mayes AG et al., Sugar binding polymers showing high anomeric and epimeric discrimination obtained by noncovalent molecular imprinting.
     Analytical Biochemistry, 222, (2), 483-488, (1994)
        
111. Mosbach K, The technique of molecular imprinting in the formation of antibody mimics, and their applications to the analysis of pesticides.
     Abstracts of Papers of the American Chemical Society, 207, (AGRO), 149-149, (1994)
        
112. Mosbach K, Molecular imprinting.
     Trends In Biochemical Sciences, 19, (1), 9-14, (1994)
        
113. Ramström O et al., Synthetic peptide receptor mimics - highly stereoselective recognition in noncovalent molecularly imprinted polymers.
     Tetrahedron: Asymmetry, 5, (4), 649-656, (1994)
        
114. Ståhl M et al., Bio-imprinting changes the stereospecificity of l-amino-acid oxidase from crotalus-adamanteus in organic-solvents.
     Protein Engineering, 6, (Supplement), 51-51, (1993)
        
115. Vlatakis G et al., Drug assay using antibody mimics made by molecular imprinting.
     Nature, 361, (6413), 645-647, (1993)
        
116. Hedborg E et al., Some studies of molecularly-imprinted polymer membranes in combination with field-effect devices.
     Sensors and Actuators A-Physical, 37-8, 796-799, (1993)
        
117. Andersson LI et al., Book chapter, Bioseparation and catalysis in molecularly imprinted polymers, 
     In: Molecular Interactions in Bioseparations, Ngo TT (Ed.) Plenum Press: New York, Ch. 24, 383-394, (1993)
        
118. Kempe M et al., Chiral separation using molecularly imprinted heteroatomic polymers.
     Journal of Molecular Recognition, 6, (1), 25-29, (1993)
        
119. Müller R et al., Molecularly imprinted polymers facilitating a b-elimination reaction.
     Makromolekulare Chemie-Rapid Communications, 14, (10), 637-641, (1993)
        
120. Ramström O et al., Recognition sites incorporating both pyridinyl and carboxy functionalities prepared by molecular imprinting.
     Journal of Organic Chemistry, 58, (26), 7562-7564, (1993)
        
121. Ståhl M et al., Induced stereoselectivity and substrate selectivity of bio-imprinted a-chymotrypsin in anhydrous organic media.
     Journal of the American Chemical Society, 113, (24), 9366-9368, (1991)
        
122. Fischer L et al., Direct enantioseparation of b-adrenergic blockers using a chiral stationary phase prepared by molecular imprinting.
     Journal of the American Chemical Society, 113, (24), 9358-9360, (1991)
        
123. Kempe M et al., Binding-studies on substrate-and enantio-selective molecularly imprinted polymers.
     Analytical Letters, 24, (7), 1137-1145, (1991)
        
124. Rosatzin T et al., Preparation of Ca2+ selective sorbents by molecular imprinting using polymerizable ionophores.
     Journal of the Chemical Society-Perkin Transactions 2, (8), 1261-1265, (1991)
        
125. Ståhl M et al., The synthesis of a d-amino-acid ester in an organic media with a-chymotrypsin modified by a bio-imprinting procedure.
     Biotechnology Letters, 12, 161-166, (1990)
        
126. Andersson LI et al., Enantiomeric resolution of amino-acid derivatives on molecularly imprinted polymers as monitored by potentiometric measurements.
     Journal of Chromatography A, 516, (2), 323-331, (1990)
        
127. Andersson LI et al., Molecular recognition in synthetic-polymers - preparation of chiral stationary phases by molecular imprinting of amino-acid amides.
     Journal of Chromatography A, 513, (1), 167-179, (1990)
        
128. Andersson LI et al., Enantiomeric resolution on molecularly imprinted polymers prepared with only noncovalent and nonionic interactions.
     Journal of Chromatography A, 516, (2), 313-322, (1990)
        
129. O’Shannessy DJ et al., Molecular recognition in synthetic polymers. Enantiomeric resolution of amide derivatives of amino acids on molecularly imprinted polymers.
     Journal of Molecular Recognition, 2, (1), 1-5, (1989)
        
130. Moradian A et al., Preparation of a functional, highly selective polymer by molecular imprinting. A demonstration with L-p-aminophenylalanine anilide as a template molecule allowing multiple points of attachment.
     Journal of Molecular Recognition, 2, (4), 167-169, (1989)
        
131. Ekberg B et al., Molecular imprinting - a technique for producing specific separation materials.
     Trends In Biotechnology, 7, (4), 92-96, (1989)
        
132. Andersson LI et al., Molecular imprinting of the coenzyme-substrate analog N-pyridoxyl-L-phenylalaninanilide.
     Makromolekulare Chemie-Rapid Communications, 10, (9), 491-495, (1989)
        
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