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References:
1. Hongyuan Y., Kyung H.R., “Characteristic and Synthetic Approach of Molecularly Imprinted Polymer,” Int. J. Mol. Sci, 7, 155–178, 2006.
2. Figueiredo L., Erny G. L., Santos L.., Alves A., “Applications of Molecularly Imprinted Polymers to the Analysis and Removal of Personal Care Products: A Review,” Talanta, 146, 754–765, 2016.
3. Mattiasson B., Ye L., “Molecularly Imprinted Polymers in Biotechnology,” Springer International Publishing Switzerland., 2015.
4. Alvarez-lorenzo Carmen., “ Angel Concheiro., Handbook of Molecularly Imprinted Polymers.,” Smithers Rapra Technology Ltd UK., 2013.
5. Romana S., “Bioapplications for Molecularly Imprinted Polymers,” Anal. Chem., 86, 250–261, 2014.
6. Shen X., Xu C., Ye L., “Molecularly Imprinted Polymers for Clean Water: Analysis and Purification,” Ind. Eng. Chem. Res., 52, 13890–13899, 2012.
7. Nicholls I. A., Karlsson . C. G., Olsson G. D., Rosengren A.M., “Computational Strategies for the Design and Study of Molecularly Imprinted Materials,” Ind. Eng. Chem. Res., 52, 13900–13909, 2013.
8. Whitcombe M. J., Chianella I., Larcombe L., Piletsky S. a., Noble J., Porter R., Horgan A., “The Rational Development of Molecularly Imprinted Polymer-Based Sensors for Protein Detection.,” Chem. Soc. Rev., 40, 1547–1571, 2011.
9. Czulak J. C., Jakubiak-Marcinkowska A., Trochimczuk A., “Polymer Catalysts Imprinted with Metal Ions as Biomimics of Metalloenzymes,” Adv. Mater. Sci. Eng., 2013.
10. Takeuchi T., Hayashi T., Ichikawa S., Kaji A., Masui Mi., Matsumoto H., Sasao R., “Molecularly Imprinted Tailor-Made Functional Polymer Receptors for Highly Sensitive and Selective Separation and Detection of Target Molecules,” Chromatography, 37, 43–64, 2016.
11. Gunter W., “Enzyme-like Catalysis by Molecularly Imprinted Polymers,” Chem. Rev., 102, 1–27, 2002.
12. Dan-Lian H., Rong-Zhong W., Yun-Guo L., Guang-Ming Z., Cui L., Piao X., Bing-An L., Juan-Juan X., Cong W., Chao H., “Application of Molecularly Imprinted Polymers in Wastewater Treatment: A Review,” Environ. Sci. Pollut. Res., 22, 963–977, 2015.
13. Fosca M., Marina R., “Molecularly Imprinted Polymers for Catalysis and Synthesis,” Adv. Biochem. Eng. Biotechnol., 150, 107–129, 2015.
14. Yoshikawa M., Tharpa K., Dima Ş.O., “Molecularly Imprinted Membranes: Past, Present, and Future,” Chem. Rev., 116, 11500-11528, 2016.
15. Reddy S. M, Phan Q. T, El-Sharif H, Govada L, Stevenson D, and Chayen N.E., “Protein Crystallization and Biosensor Applications of Hydrogel-Based Molecularly Imprinted Polymers,” Bio. mac. 13, 3959-3965, 2012.
16. Poma A., Brahmbhatt H., Watts J. K., Turner N.W., “Nucleoside-Tailored Molecularly Imprinted Polymeric Nanoparticles (MIP NPs),” Macromolecules, 47, 6322-6330, 2014.
17. Wackerlig J., Schirhagl R., “Applications of Molecularly Imprinted Polymer Nanoparticles and Their Advances toward Industrial Use: A Review,” Anal. Chem., 88, 250–261, 2016.
18. Cirillo G., Iemma F., Puoci F., Parisi O I., Curcio M., Spizzirri U G., Picci N., “Imprinted Hydrophilic Nanospheres as Drug Delivery Systems for 5-fluorouracil Sustained Release.,” J. Drug Target., 17, 72–7, 2009.
1. Hongyuan Y., Kyung H.R., “Characteristic and Synthetic Approach of Molecularly Imprinted Polymer,” Int. J. Mol. Sci, 7, 155–178, 2006.
2. Figueiredo L., Erny G. L., Santos L.., Alves A., “Applications of Molecularly Imprinted Polymers to the Analysis and Removal of Personal Care Products: A Review,” Talanta, 146, 754–765, 2016.
3. Mattiasson B., Ye L., “Molecularly Imprinted Polymers in Biotechnology,” Springer International Publishing Switzerland., 2015.
4. Alvarez-lorenzo Carmen., “ Angel Concheiro., Handbook of Molecularly Imprinted Polymers.,” Smithers Rapra Technology Ltd UK., 2013.
5. Romana S., “Bioapplications for Molecularly Imprinted Polymers,” Anal. Chem., 86, 250–261, 2014.
6. Shen X., Xu C., Ye L., “Molecularly Imprinted Polymers for Clean Water: Analysis and Purification,” Ind. Eng. Chem. Res., 52, 13890–13899, 2012.
7. Nicholls I. A., Karlsson . C. G., Olsson G. D., Rosengren A.M., “Computational Strategies for the Design and Study of Molecularly Imprinted Materials,” Ind. Eng. Chem. Res., 52, 13900–13909, 2013.
8. Whitcombe M. J., Chianella I., Larcombe L., Piletsky S. a., Noble J., Porter R., Horgan A., “The Rational Development of Molecularly Imprinted Polymer-Based Sensors for Protein Detection.,” Chem. Soc. Rev., 40, 1547–1571, 2011.
9. Czulak J. C., Jakubiak-Marcinkowska A., Trochimczuk A., “Polymer Catalysts Imprinted with Metal Ions as Biomimics of Metalloenzymes,” Adv. Mater. Sci. Eng., 2013.
10. Takeuchi T., Hayashi T., Ichikawa S., Kaji A., Masui Mi., Matsumoto H., Sasao R., “Molecularly Imprinted Tailor-Made Functional Polymer Receptors for Highly Sensitive and Selective Separation and Detection of Target Molecules,” Chromatography, 37, 43–64, 2016.
11. Gunter W., “Enzyme-like Catalysis by Molecularly Imprinted Polymers,” Chem. Rev., 102, 1–27, 2002.
12. Dan-Lian H., Rong-Zhong W., Yun-Guo L., Guang-Ming Z., Cui L., Piao X., Bing-An L., Juan-Juan X., Cong W., Chao H., “Application of Molecularly Imprinted Polymers in Wastewater Treatment: A Review,” Environ. Sci. Pollut. Res., 22, 963–977, 2015.
13. Fosca M., Marina R., “Molecularly Imprinted Polymers for Catalysis and Synthesis,” Adv. Biochem. Eng. Biotechnol., 150, 107–129, 2015.
14. Yoshikawa M., Tharpa K., Dima Ş.O., “Molecularly Imprinted Membranes: Past, Present, and Future,” Chem. Rev., 116, 11500-11528, 2016.
15. Reddy S. M, Phan Q. T, El-Sharif H, Govada L, Stevenson D, and Chayen N.E., “Protein Crystallization and Biosensor Applications of Hydrogel-Based Molecularly Imprinted Polymers,” Bio. mac. 13, 3959-3965, 2012.
16. Poma A., Brahmbhatt H., Watts J. K., Turner N.W., “Nucleoside-Tailored Molecularly Imprinted Polymeric Nanoparticles (MIP NPs),” Macromolecules, 47, 6322-6330, 2014.
17. Wackerlig J., Schirhagl R., “Applications of Molecularly Imprinted Polymer Nanoparticles and Their Advances toward Industrial Use: A Review,” Anal. Chem., 88, 250–261, 2016.
18. Cirillo G., Iemma F., Puoci F., Parisi O I., Curcio M., Spizzirri U G., Picci N., “Imprinted Hydrophilic Nanospheres as Drug Delivery Systems for 5-fluorouracil Sustained Release.,” J. Drug Target., 17, 72–7, 2009.
