About this product

Product Identifiers

PublisherAmerican Chemical Society

ISBN-100841235740

ISBN-139780841235748

eBay Product ID (ePID)302711

Product Key Features

Number of Pages352 Pages

Publication NameMolecular and Ionic Recognition with Imprinted Polymers

LanguageEnglish

Publication Year1998

SubjectTextiles & Polymers, Materials Science / General, Physics / Polymer, Chemistry / Inorganic, Chemistry / General

TypeTextbook

AuthorMizuo Maeda

Subject AreaTechnology & Engineering, Science

SeriesAcs Symposium Ser.

FormatHardcover

Dimensions

Item Height0.9 in

Item Weight22.4 Oz

Item Length9.1 in

Item Width6.1 in

Additional Product Features

Intended AudienceCollege Audience

LCCN98-006979

Dewey Edition21

Reviews"Described as the world's first book on the rapidly growing field ofimprinted polymers . . . The book's first 22 chapters summarize the most recentinformation on the preparation of imprinted polymers and their applications inthe recognition of a variety of molecular and ionic species. . . . The chaptersin [the remaining] section focus primarily on the applications of imprintedpolymers in the determination and separation of such diverse species as aminoacids, drugs, herbicides, metal ions, and steroids. . . . With its descriptionsof imprinted polymer technology, say the editors, this book providesstate-of-the-art information for both the novice and the practitioner. It isintended as a resource for a variety of scientists and engineers, includinganalytical chemists, biochemists, chemical engineers, clinical chemists,pharmaceutical scientists, polymer scientists, and separationscientists."--Plastics Engineering, "From an April 1997 conference in San Francisco, 22 papers discuss a new approach to developing synthetic molecules that can mimic natural ones in recognizing other molecules. They introduce the two major types of polymer imprinting, describe the overall status of the field and generalprinciples for preparing the polymers, and summarize applications. Then they survey molecular and metal-ion recognition with organic-based polymers and recognition with inorganic-based polymers. Specific topics include important considerations in designing receptor sites using non-covalentimprinting, chiral ligand exchange adsorbents for amines and un-derivatized amino acids, preparing metal-ion imprinted resigns using complexation at the aqueous-organic interface, and recognition over footprint cavities."--SciTech Book News, 1. Mizuo Maeda and Richard Bartsch: Molecular and ionic recognition with imprinted polymers: a brief overview General Principles 2. Gunter Wulff, et al: Molecular imprinting for the preparation of enzyme-analogous polymers 3. Klaus Mosbach, et al: Molecular imprinting: Status artis et quo vadere? 4. Borje Sellergren: Important considerations in the design of receptor sites using noncovalent imprinting Molecular recognition with organic-based polymers 5. Olof Ramstrom, et al: Recent advances in the use of molecularly imprinted materials in separation and synthesis 6. Scott J. McNiven, et al: Applications of molecular imprinting to the recognition and detection of bioactive molecules 7. Frances H. Arnold, Susanne Striegler, and Vidyasankar Sundaresan: Chiral ligand exchange adsorbents for amines and underivatized amino acids: "bait-and switch" molecular imprinting 8. Toshifumi Takeuchi and Jun Matsui: Recognition of drugs and herbicides: strategy in selection of functional monomers for noncovalent molecular imprinting 9. Karsten Haupt: Noncovalent molecular imprinting of a synthetic polymer with the herbicide 2,4-dichlorophenoxyacetic acid in the prescence of polar protic solvents 10. Ken Hosoya and Nubuo Tanaka: Development of uniform-sized, molecular-imprinted stationary phases for HPLC 11. Designing metal complexes in porous organic hosts 12. Masakazu Yoshikawa: Molecularyly imprinted polymeric membranses for optical resolution 13. Takaomi Kobayashi, et al: Molecular imprinted membranes prepared by phase inversion of polyacrylonitrile copolymers containing carboxylic acid groups 14. Daisuke Umeno, Masafumi Kawasaki, and Mizuo Maeda: Imprinting of proteins on polymer-coated DNA for affinity separation with enhanced selectivity Metal ion recognition with organic-based polymers 15. Xiangfei Zeng, et al: Templated polymers for the selective sequestering and sensing of metal ions 16. Richard H. Fish: Metal ion templated polymers. Studies of N-(4-vinylbenzl)-1,4,7-triazacyclononane-metal ion complexes and their polymerization with divinylbenzene: the importance of thermodynamic and imprinting parameters in metal ion selectivity studies of the demetalated, templated polymers 17. Kazuhiko Tsukagoshi, et al: Surface imprinting: preparation of metal ion-imprinted resins by use of complexation at the aqueous-organic interface 18. Yoshifumi Koide, et al: Selective adsorption of metal ions to surface-templated resins prepared by emulsion polymerization using a functional surfactant 19. Kazuya Uezu, Masahiro Goto, and Fumiyuki Nakashio: Metal ion-imprinted polymers prepared by surface template polymerization with water-in-oil emulsions 20. Tohru Miyajima, et al: A physiochemical study on the origin of the imprinting effect 21. Kensaku Morihara: Recognition over footprint cavities 22. Darryl Y. Sasaki, et al: Molecular imprinted receptors in sol-gel materials for aqueous phase recognition of phosphates and phosphonates, "Described as the world's first book on the rapidly growing field of imprinted polymers . . . The book's first 22 chapters summarize the most recent information on the preparation of imprinted polymers and their applications in the recognition of a variety of molecular and ionic species. . . . The chapters in [the remaining] section focus primarily on the applications of imprinted polymers in the determination and separation of such diverse species as amino acids, drugs, herbicides, metal ions, and steroids. . . . With its descriptions of imprinted polymer technology, say the editors, this book provides state-of-the-art information for both the novice and the practitioner. It is intended as a resource for a variety of scientists and engineers, including analytical chemists, biochemists, chemical engineers, clinical chemists, pharmaceutical scientists, polymer scientists, and separation scientists."--Plastics Engineering "From an April 1997 conference in San Francisco, 22 papers discuss a new approach to developing synthetic molecules that can mimic natural ones in recognizing other molecules. They introduce the two major types of polymer imprinting, describe the overall status of the field and general principles for preparing the polymers, and summarize applications. Then they survey molecular and metal-ion recognition with organic-based polymers and recognition with inorganic-based polymers. Specific topics include important considerations in designing receptor sites using non-covalent imprinting, chiral ligand exchange adsorbents for amines and un-derivatized amino acids, preparing metal-ion imprinted resigns using complexation at the aqueous-organic interface, and recognition over footprint cavities."--SciTech Book News, "Described as the world's first book on the rapidly growing field of imprinted polymers . . . The book's first 22 chapters summarize the most recent information on the preparation of imprinted polymers and their applications in the recognition of a variety of molecular and ionic species. . . . The chapters in [the remaining] section focus primarily on the applications of imprinted polymers in the determination and separation of such diverse species as amino acids, drugs, herbicides, metal ions, and steroids. . . . With its descriptions of imprinted polymer technology, say the editors, this book provides state-of-the-art information for both the novice and the practitioner. It is intended as a resource for a variety of scientists and engineers, including analytical chemists, biochemists, chemical engineers, clinical chemists, pharmaceutical scientists, polymer scientists, and separation scientists."-- Plastics Engineering "From an April 1997 conference in San Francisco, 22 papers discuss a new approach to developing synthetic molecules that can mimic natural ones in recognizing other molecules. They introduce the two major types of polymer imprinting, describe the overall status of the field and general principles for preparing the polymers, and summarize applications. Then they survey molecular and metal-ion recognition with organic-based polymers and recognition with inorganic-based polymers. Specific topics include important considerations in designing receptor sites using non-covalent imprinting, chiral ligand exchange adsorbents for amines and un-derivatized amino acids, preparing metal-ion imprinted resigns using complexation at the aqueous-organic interface, and recognition over footprint cavities."-- SciTech Book News, "Described as the world's first book on the rapidly growing field of imprinted polymers . . . The book's first 22 chapters summarize the most recent information on the preparation of imprinted polymers and their applications in the recognition of a variety of molecular and ionic species. . . . The chapters in [the remaining] section focus primarily on the applications of imprinted polymers in the determination and separation of such diverse species as amino acids, drugs, herbicides, metal ions, and steroids. . . . With its descriptions of imprinted polymer technology, say the editors, this book provides state-of-the-art information for both the novice and the practitioner. It is intended as a resource for a variety of scientists and engineers, including analytical chemists, biochemists, chemical engineers, clinical chemists, pharmaceutical scientists, polymer scientists, and separation scientists."--Plastics Engineering"From an April 1997 conference in San Francisco, 22 papers discuss a new approach to developing synthetic molecules that can mimic natural ones in recognizing other molecules. They introduce the two major types of polymer imprinting, describe the overall status of the field and general principles for preparing the polymers, and summarize applications. Then they survey molecular and metal-ion recognition with organic-based polymers and recognition with inorganic-based polymers. Specific topics include important considerations in designing receptor sites using non-covalent imprinting, chiral ligand exchange adsorbents for amines and un-derivatized amino acids, preparing metal-ion imprinted resigns using complexation at the aqueous-organic interface, and recognition over footprint cavities."--SciTech Book News, "From an April 1997 conference in San Francisco, 22 papers discuss a newapproach to developing synthetic molecules that can mimic natural ones inrecognizing other molecules. They introduce the two major types of polymerimprinting, describe the overall status of the field and general principles forpreparing the polymers, and summarize applications. Then they survey molecularand metal-ion recognition with organic-based polymers and recognition withinorganic-based polymers. Specific topics include important considerations indesigning receptor sites using non-covalent imprinting, chiral ligand exchangeadsorbents for amines and un-derivatized amino acids, preparing metal-ionimprinted resigns using complexation at the aqueous-organic interface, andrecognition over footprint cavities."--SciTech Book News, "Described as the world's first book on the rapidly growing field of imprinted polymers . . . The book's first 22 chapters summarize the most recent information on the preparation of imprinted polymers and their applications in the recognition of a variety of molecular and ionic species. . . .The chapters in [the remaining] section focus primarily on the applications of imprinted polymers in the determination and separation of such diverse species as amino acids, drugs, herbicides, metal ions, and steroids. . . . With its descriptions of imprinted polymer technology, say the editors,this book provides state-of-the-art information for both the novice and the practitioner. It is intended as a resource for a variety of scientists and engineers, including analytical chemists, biochemists, chemical engineers, clinical chemists, pharmaceutical scientists, polymer scientists, andseparation scientists."--Plastics Engineering

Series Volume NumberNo. 703

Volume NumberVol. 703

IllustratedYes

Dewey Decimal543/.08

SynopsisThis volume reviews the theory, preparation, and applications of imprinted polymers in the detection, determination, and separation of important molecular and ionic species.

LC Classification NumberQD382.I43M65 1998