|
Volumn 32, Issue 3, 2011, Pages 321-325
|
Improved synthesis strategy of poly(amidoamine)s for biomedical applications: Catalysis by "green" biocompatible earth alkaline metal salts
|
Author keywords
biocompatibility; gene delivery; michael addition catalysis; poly(amido amine)
|
Indexed keywords
ACRYLAMIDES;
BIOLOGICAL ACTIVITIES;
BIOMEDICAL APPLICATIONS;
CATALYTIC ACTIVITY;
CATALYTIC SYNTHESIS;
EARTH ALKALINE;
GENE DELIVERY;
HIGH POTENTIAL;
LOW TOXICITY;
MICHAEL ADDITION REACTIONS;
MICHAEL ADDITIONS;
PHYSICOCHEMICAL PROPERTY;
POLY(AMIDO AMINE);
POLYMERIZATION REACTION;
PRIMARY AMINES;
REACTION MIXTURE;
SYNTHESIS STRATEGY;
SYNTHETIC METHODS;
ADDITION REACTIONS;
ALKALI METALS;
ALKALINITY;
BIOACTIVITY;
BIOCOMPATIBILITY;
BIODEGRADABLE POLYMERS;
BIODEGRADATION;
CALCIUM CHLORIDE;
CATALYSIS;
CATALYST ACTIVITY;
FUNCTIONAL POLYMERS;
GENE THERAPY;
GENE TRANSFER;
ORGANIC COMPOUNDS;
POLYMERIZATION;
POLYMERS;
REACTION RATES;
SALTS;
SYNTHESIS (CHEMICAL);
TOXICITY;
TRANSITION METAL COMPOUNDS;
TRANSITION METALS;
SYNTHETIC METALS;
ALKALINE EARTH METAL;
BIOMATERIAL;
POLYAMIDOAMINE;
POLYAMINE;
POLYMER;
ARTICLE;
CATALYSIS;
CHEMISTRY;
EVALUATION;
GREEN CHEMISTRY;
MEDICAL RESEARCH;
METHODOLOGY;
POLYMERIZATION;
SYNTHESIS;
BIOCOMPATIBLE MATERIALS;
BIOMEDICAL RESEARCH;
CATALYSIS;
GREEN CHEMISTRY TECHNOLOGY;
METALS, ALKALINE EARTH;
POLYAMINES;
POLYMERIZATION;
POLYMERS;
|
EID: 79251496662
PISSN: 10221336
EISSN: 15213927
Source Type: Journal
DOI: 10.1002/marc.201000545 Document Type: Article |
Times cited : (19)
|
References (22)
|