Biomedical Engineering Reference
In-Depth Information
[39]
Qin, L; He, XW; Li, WY; Zhang, YK. Molecularly imprinted polymer prepared with
bonded β-cyclodextrin and acrylamide on functionalized silica gel for selective
recognition of tryptophan in aqueous media.
Journal of Chromatography A
, 2008, 1187,
94-102.
[40]
Egawa, Y; Shimura, Y; Nowatari, Y; Aiba D, Juni,K. Preparation of molecularly
imprinted cyclodextrin microspheres,
International Journal of Pharmaceutics
, 2005,
293, 165-170.
[41]
Asanuma, H; Hishiya, T; Komiyama M. Efficient separation of hydrophobic molecules
by molecularly imprinted cyclodextrin polymers,
Journal of Inclusion Phenomena and
Macrocyclic Chemistry
, 2004, 50, 51-55.
[42]
Striegler,
S.
Carbohydrate
Recognition
in
Cross-Linked
Sugar-Templated
Poly(acrylates).
Macromolecules
, 2003, 36, 1310-1317.
[43]
Kubo, T; Hosoya, K; Nomachi,M; Tanaka, N; Kaya, K. Preparation of a novel
molecularly imprinted polymer using a water-soluble crosslinking agent.
Analytical and
Bioanalytical Chemistry
, 2005, 382, 1698-1701.
[44]
Janotta, M; Weiss, R; Mizaikoff, B; Bruggemann, O; Ye, L; Mosbach, K. Molecularly
Imprinted Polymers for Nitrophenols - An Advanced Separation Material for
Environmental Analysis.
International Journal of Environmental Analytical Chemistry
,
2001, 80, 75-86.
[45]
Bereli , N; Andac, M; Baydemir, G; Say, R; Galaev, IY; Denizli, A. Protein recognition
via ion-coordinated molecularly imprinted supermacroporous cryogels,
Journal of
Chromatography A
, 2008, 1190, 18-26.
[46]
Ozcan, AAt; Say, R; Denizli, A; Erso1z, A. L-Histidine Imprinted Synthetic Receptor
for Biochromatography Applications.
Analytical Chemistry
, 2006
,
78,7253-7258.
[47]
Odabaşi, M; Say, R; Denizli, A. Molecular imprinted particles for lysozyme
purification.
Materials Science and Engineering C
, 2007, 27, 90-99.
[48]
Shiomi, T; Matsui, M; Mizukami, F; Sakaguchi, K. A method for the molecular
imprinting of hemoglobin on silica surfaces using silanes.
Biomaterials
, 2005, 26, 5564-
5571.
[49]
Corma, A; Fornes, V; Jorda, JL; Rey, F; Fernandez-Lafuente R; Guisan, JM; Mateo, C.
Electrostatic and covalent immobilization of enzymes on ITQ-6 delaminated zeolitic
materials.
Chemical Communications
, 2001, 5, 419-420.
[50]
Bonini, F; Piletsky, S; Turner, APF; Speghini, A; Bossi, A. Surface imprinted beads for
the recognition of human serum albumin.
Biosensors and Bioelectronics
, 2007, 22,
2322-2328.
[51]
Tan, CJ; Chua, HG; Ker, KH; Tong, YW. Preparation of bovine serum albumin surface-
imprinted submicrometer particles with magnetic susceptibility through core-shell
miniemulsion polymerization.
Analytical Chemistry
, 2008, 80, 683-692.
[52]
Devanathan, S; Salamon, Z; Nagar, A; Narang, S; Schleich, D; Darman, P; Hruby, V;
Tollin, G. Subpicomolar sensing of α-ppioid receptor ligands by molecular-imprinted
polymers using plasmon-waveguide resonance spectroscopy.
Analytical Chemistry
,
2005, 77, 2569-2574.
[53]
Tan, CJ; Tong, YW. The effect of protein structural conformation on nanoparticle
molecular imprinting of ribonuclease a using miniemulsion polymerization,
Langmuir
,
2007, 23, 2722-2730.