| 1 - 1 |
Engineering with membranes: Medical and biological applications -Preface
Catapano G, Cui ZF |
| 2 - 11 |
Adsorption of pure recombinant MBP-fusion proteins on amylose affinity membranes
Cattoli F, Boi C, Sorci M, Sarti GC |
| 12 - 19 |
Adsorption of lectins on affinity membranes
Boi C, Cattoli F, Facchini R, Sorci M, Sarti GC |
| 20 - 24 |
Novel porous membranes from chemically modified poly(vinylidene fluoride)
Bottino A, Capannelli G, Comite A |
| 25 - 30 |
Modification of cellulose based membranes by gamma-radiation: Effect of cellulose content
de Lara R, Vazquez MI, Galan P, Benavente J |
| 31 - 37 |
Topological micropatterned membranes and its effect on the morphology and growth of human mesenchymal stem cells (hMSCs)
Yu BY, Chou PH, Sun YM, Lee YT, Young TH |
| 38 - 46 |
Polymeric composite membranes based on carbon/PSf
Torras C, Torne V, Fierro V, Montane D, Garcia-Valls R |
| 47 - 57 |
Development of a novel electrophoresis-UV grafting technique to modify PES UF membranes used for NOM removal
Wei X, Wang R, Li ZS, Fane AG |
| 58 - 67 |
Flux decline during ultrafiltration of protein-fatty acid mixtures
Priyananda P, Chen V |
| 68 - 76 |
Protein aggregate deposition and fouling reduction strategies with high-flux silicon nitride microsieves
Girones M, Lammertink RGH, Wessling M |
| 77 - 83 |
Monitoring of lactate and glucose levels in engineered cartilage construct by microdialysis
Boubriak OA, Urban JPG, Cui ZF |
| 84 - 88 |
Transport of large molecules in hyaluronic acid-based membranes and solution
De Rosa E, Borselli C, Netti PA |
| 89 - 96 |
Analysis of in vitro continuous wet-dry CO2 removal with hydrophilic membranes from slowly flowing blood
Czermak P, Walz M, Catapano G |
| 97 - 105 |
Production of loaded PMMA structures using the supercritical CO2 phase inversion process
Reverchon E, Cardea S, Rappo ES |
| 106 - 115 |
Development of highly porous microparticles from poly(ether imide) prepared by a spraying/coagulation process
Albrecht W, Lutzow K, Weigel T, Groth T, Schossig M, Lendlein A |
| 116 - 123 |
On the possibility of using liquid or lipid, lipid like-polymer membrane systems as taste sensor
Szpakowska M, Magnuszewska A, Szwacki J |
| 124 - 128 |
Chitosan membrane as a template for hydroxyapatite crystal growth in a model dual membrane diffusion system
Ehrlich H, Krajewska B, Hanke T, Born R, Heinemann S, Knieb C, Worch H |
| 129 - 142 |
A theoretical and experimental analysis of a membrane bioreactor performance in recycle configuration
Curcio S, Calabro V, Iorio G |
| 143 - 151 |
Advective flow through membrane-aerated biofilms - Modeling results
Motlagh ARA, Voller VR, Semmens MJ |
| 152 - 158 |
Towards the development of a membrane reactor for enzymatic inulin hydrolysis
Diaz EG, Catana R, Ferreira BS, Luque S, Fernandes P, Cabral JMS |
