Molecular recognition : biotechnology, chemical engineering and materials applications /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: McEvoy, Jason A.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova Science Publishers, ©2011.
Colección:Chemical engineering methods and technology.
Temas:
Molecular recognition.
Reconnaissance moléculaire.
SCIENCE > Life Sciences > Biochemistry.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Molecular recognition: biotechnology, chemical engineering and materials applications
  • molecular recognition: biotechnology, chemical engineering and materials applications
  • contents
  • preface
  • molecular recognition of carboxylic acids and carboxylate anions by synthetic receptor
  • abstract
  • 1. introduction
  • 2. synthetic receptor molecules for the sensing of carboxylate anions and carboxylic acids
  • 2.1. macrocyclic polyamines
  • 2.2. protonated heterocycles
  • 2.3. receptors with guanidine and amidine functions
  • 2.4. receptors containing urea and thiourea moieties 2.5. receptors containing amide group
  • 2.6. receptor with amidopyridine fragment
  • 2.7. metal-based receptors
  • 2.8. receptors based on cyclodextrins and calixarenes
  • conclusion
  • acknowledgments
  • references
  • next generation molecular imprinted polymers: examples of liquid crystalline materials and hydrogels for protein recognition
  • abstract
  • introduction
  • 1. liquid crystal mips
  • i.1. chiral recognition in lc-mips
  • i.2. catalytic lc-mips
  • I.3. application to the recognition of pesticides ii. hydrogel mips for protein recognition
  • ii. 1. recent accomplishments
  • ii. 2. patterning of mips for micro- and nanosystems applications
  • conclusion
  • acknowledgments
  • references
  • molecular recognition and crystal growth
  • abstract
  • 1. introduction: supramolecular chemistry and molecular recognition
  • 2. molecular recognition by biological receptors
  • 2.1. drug action mechanism
  • 2.2. sweetness perception
  • 3. hydrogen bonding in molecular recognition
  • 3.1. general features of hydrogen bonding3.2. infrared spectroscopy and hydrogen bonding
  • 4. co-crystals
  • 5. polymorphism
  • 6. molecular recognition in solution and crystal structure
  • 7. conformational recognition in solution and crystal structure
  • 8. molecular recognition at interfaces
  • 8.1. crystal growth in the presence of taylor-made additives
  • 8.2. effect of the solvent on the crystalline habit
  • 8.3. conformational mimicry
  • 8.4. seeding crystallization
  • concluding remarks
  • references
  • Spectroscopic and microscopic examination of chiral recognition at the molecular level abstract
  • introduction
  • infrared
  • raman
  • stm
  • afm
  • chiral surfaces and their investigation by stm and afm
  • chiral recognition and ir and sers
  • chiral surfaces and others methods
  • acknowledgment
  • conclusion
  • references
  • molecular imprinting: state of the art and applications
  • 1.1. general introduction
  • 1.2. molecular imprinting underlying principle
  • 1.3. imprinting mechanisms
  • 1.3.1. covalent imprinting

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