Upload
others
View
0
Download
0
Embed Size (px)
Citation preview
143
REFERENCES
1. Adhyapak, P.V., Karandikar, P., Vijayamohanan, K., Athawale, A.A. and
Chandwadkar, A.J. “Synthesis of silver nanowires inside mesoporous
MCM-41 host”, Mater. Letter. Vol. 58, No. 7-8, pp 1168-1171, 2008.
2. Albers, W.M., Vikholm, I., Viitala, T. and Peltonen, J. “Interfacial and
materials aspects of the immobilization of biomolecules onto solid
surfaces”, Handbook of surfaces and interfaces of materials, SanDiego,
CA: Academic Press, Vol. 5, 2001.
3. Al-Khaldi, M.H., Nasr-El-Din, H.A., Mehta, S. and Al-Aamri, A.D.
“Reaction of citric acid with calcite”, Chem.Eng.Sci., Vol. 62, No. 21,pp. 5880-5896, 2007.
4. Appelo, C.A.J. and Postman, D. “Geochemistry, Groundwater andPollution”, Second Edition, Taylor & Francis, pp. 176-178, 2005.
5. Azari, F. and Gorgani, M.N. “Reversible denaturation of carbonic
anhydrase provides a method for its adsorptive immobilization”,Biotechnol. Bioeng., Vol. 62, No. 2, pp.195-199, 1999.
6. Bachu, S. “Sequestration of CO2 in geological media: criteria and
approach for site selection in response to climate change”, EnergyConvers. Manage., Vol. 41, No. 9, pp. 953-970, 2000.
7. Badjic, J.D. and Kostic, N.M. “Effect of encapsulation in Sol-Gel silica
glass on eterase activity, conformational stability, and unfolding of
bovine carboniic anhydrase II”, Chem. Mater. Vol.11, No. 12,pp. 3671-3679, 1999.
8. Bagshaw, S.A., Prouzetr, E. and Pinnavaia, T.J. “Templating of
mesoporous molecularsieves by nonionic polyethylene oxide
surfactants”, Science, Vol. 269, No. 5228, pp. 1242-1244, 1995.
9. Bai, Y., Yang H., Yang, W., Li, Y. and Sun, C. “Gold nanoparticles-
mesoporous silica composite used as an enzyme immobilization matrix
for amperometric glucose biosensor construction”, Sens. Actuators B,
Vol. 124, No. 1, pp. 179-186, 2007.
144
10. Bambrough, C.M., Slade, R.C.T. and Williams, R.T. “Steric effects in
the sorption of n-butanol and tert-butanol by tailored phenyl-modified
porous silicas”, Phys. Chem. Chem. Phys., Vol. 2, pp. 3499-3502,2000.
11. Baney, R.H., Itoh, M., Sakakibara, A. and Suzuki, T.“Silsesquioxanes”, Chem. Rev., Vol. 95, No. 5, pp. 1409-1430, 1995.
12. Baron, R., Willner, B. and Willner, I. “Biomolecule–nanoparticle
hybrids as functional units for nanobiotechnology”, Chem. Commun.,
pp. 323-332, 2007.
13. Bhagiyalakshmi, M., Anuradha, R., Park, S.D. and Jang, H.T.
“Octa(aminophenyl)silsesquioxane fabrication on chlorofunctionalized
mesoporous SBA-15 for CO2 adsorption”, Micropors Mesopors Mat.,Vol.131, No.1-3, pp. 265-273, 2010a.
14. Bhagiyalakshmi, M., Yun, L.J., Anuradha, R. and Jang, H.T.
“Utilization of rice husk ash as silica source for the synthesis of
mesoporous silicas and their application to CO2 adsorption through
TREN/TEPA grafting”, J. Hazard. Mater., Vol.175, No.1-3, pp. 928-938,
2010b.
15. Bhattacharya, S., Schiavone, M., Chakrabarti, S.and Bhattacharya, S.,
“CO2 hydration by immobilized carbonic anhydrase”, Biotechnol.Appl. Biochem. Vol. 38, pp. 111-117, 2003.
16. Bhaumik, A. and Tatsumi, T. “Organically modified titanium-rich Ti-
MCM-41, efficient catalysts for epoxidation reactions”, J. Catal.,
Vol.189, No.1, pp. 31-39, 2000.
17. Biener, J., Wittstock, A., Baumann, T. F., Weissmüller, J., Bäumer, M.,
and Hamza, A.V. “Surface chemistry in nanoscale materials”,Materials, Vol. 2, No. 4, pp. 2404-2428, 2009.
18. Bond, G. M., Egeland, G., Brandvold, D. K., Medina, M. G., Simsek, F. A.
and Stringer, J. “Enzymatic Catalysis and CO2, Sequestration” J.
World Resour. Rev., Vol. 11, No. 4, pp. 603-619, 1999.
19. Bond, G.M., Stringer J., Brandvold, D.K., Simsek F.A., Medina, G.
and Egeland, G. “Development of integrated system for biomimetic
CO2 sequestration using the enzyme Carbonic anhydrase”, EnergyFuels, Vol. 15, No.2, pp. 309-316, 2001.
145
20. Boussaand, A., Dziri, L., Arechabaleta, R., Tao, N.J. and Leblanc,
R.M. “Electron-transfer properties of cytochrome c Langmuir–
Blodgett films and interactions of cytochrome c with lipids”,Langmuir, Vol.14, No. 21, pp. 6215-6219, 1998.
21. Bradford, M.M. “A rapid and sensitive method for the quantitation of
microgram quantities of protein utilizing the principle of protein-dyebinding”, Anal. Biochem., Vol.72, pp. 248-254, 1976.
22. Brady, D. and Jordaan, J. “Advances in enzyme immobilization-
Review”, Biotechnol. Lett., Vol. 31, No. 11, pp.1639-1650, 2009.
23. Branden, C. and Tooze, J. “Introduction to Protein Structure”, GarlandPublishing, New York, 1991.
24. Burkett, S.L., Sims, S.D. and Mann, S. “Synthesis of hybrid inorganic-
organic mesoporous silica by co-condensation of siloxane andorganosiloxane precursors”,Chem. Commun., pp. 1367-1368, 1996.
25. Byrne, J. D., Betancourt, T. and Brannon-Peppas, L. “Active targeting
schemes for nanoparticle systems in cancer therapeutics”, Adv. DrugDeliv. Rev., Vol. 60, No.15, pp.1615-1626, 2008.
26. Cavenati, S., Grande, C.A. and Rodrigues, A.E. “Adsorption
equilibrium of methane, carbon dioxide, and nitrogen on zeolite 13X athigh pressures”. J. Chem. Eng. Data, Vol. 49, No. 4, pp. 1095-1101, 2004.
27. Chaffee, A.L., Knowles, G.P., Liang, Z., Zhang, J., Xiao, P. and
Webley, P.A. “CO2 capture by adsorption: Materials and processdevelopment”, Int. J. Greenh. Gas Con., Vol.1, No.1, pp.11-18, 2007.
28. Chao, K.J., Cheng, M.H., Ho, Y.F. and Liu, P.H. “Preparation and
characterization of highly dispersed gold nanoparticles within channelsof mesoporous silica”, Catal. Today, Vol. 97, No. 1, pp. 49-53, 2004.
29. Cheetham, P.S.J. “Principles of industrial biocatalysis and
bioprocessing. In Handbook of enzyme biotechnology”, London, EllisHorwood, pp. 83-234, 1995.
30. Chegwidden, W.R., Carter, N.D. and Edwards, Y.H. “The Carbonic
anhydrase new horizonns”, Basel,Switzerland; Birkhauser Verlag,
2000.
146
31. Chen, X., Hu, N., Zeng, Y., Rusling, J.F. and Yang, J. “Ordered
electrochemically active films of hemoglobin,
didodecyldimethylammonium ions and clay”, Langmuir, Vol. 15,No. 20, pp. 7022-7030, 1999.
32. Chen, Y.M., Yu, C.J., Cheng, T.L. and Tseng, W. L. “Colorimetric
detection of lysozyme based on electrostatic interaction with human
serum albumin-modified gold nanoparticles”, Langmuir, Vol. 24, No.7,
pp.3654-3660, 2008.
33. Cheng, L. H., Zhang, L., Chen, H.L., Cong, J. and Gao, C.J. “Hollow
fiber contained hydrogel-CA membrane contactor for carbon dioxide
removal from the enclosed spaces”, J. Membr. Sci., Vol. 324, No.1-2,pp.33-43, 2008.
34. Choi, D. and Yang, S.J. “Effect of two-step sol-gel reaction on the
mesoporous silica Structure”, J. Colloid. Interface Sci., Vol. 261, No.1,pp. 127-132, 2003.
35. Chong, M. A. S. and Zhao. X. S. “Functionalization of SBA-15 with
APTES and characterization of functionalized materials”, J. Phys.
Chem. B, Vol.107, No. 46, pp.12650-12657, 2003.
36. Christianson, D.W. and Fierke, C.A. “Carbonic anhydrase: evolution
of the zinc binding site by nature and by design”, Acc. Chem. Res.,Vol. 29, No. 44, pp. 331-339, 1996.
37. Coleman, J. E., Bauer, C., Gros, G. and Bartels, H. “Current concepts
of the mechanism of action of carbonic anhydrase”. Biophysics and
Physiology of Carbon Dioxide, Springer, Verlag, Berlin, pp. 133-I50,1980.
38. Cox, E.H., McLendon, G.L., Morel, F.M., Lane, T.W., Prince, R.C.,
Pickering, I.J. and George, G.N. “The active site structure of
Thalassiosira weissflogii carbonic anhydrase 1”, Biochemistry,
Vol. 39, No. 40, pp.12128-12130, 2000.
39. Croiset, E. and Thambimuthu, K.V. “Coal combustion in O2/CO2
mixtures compared to air”, Can. J. Chem. Eng., Vol. 78, pp. 402-407,2000.
147
40. Crumbliss, A.L., McLachlan, K.L., Odaly, J.P. and Henkens, R.W.
“Preparation and activity of carbonic anhydrase immobilized on porous
silica beads and graphite rods”, Biotech. Bioeng., Vol. 31, No. 8,pp.796-801, 1988.
41. Crumbliss, A.L., Perine, S.C., Stonehuerner, J., Tubergen, K.R., Zhao, J.
and Henkens, R.W. and O’Daly. “Colloidal gold as abiocompatible
immobilization matrix suitable for the fabrication of enzyme electrodes
by electrodeposition”, Biotechnol. Bioeng., Vol. 40, No. 4, pp. 483-490,1992.
42. Cutrufello, M.G., Rombi, E., Cannas, C., Casu, M. and Virga, A.,
“Synthesis, characterization and catalytic activity of Au supported on
functionalized SBA-15 for low temperature CO oxidation”, J Mater.
Sci., Vol. 44, No. 24, pp. 6644-6653, 2009.
43. Daniel, M.C., and Astruc, D. “Gold Nanoparticles: Assembly,
Supramolecular Chemistry, Quantum-Size-Related Properties, and
Applications toward Biology, Catalysis, and Nanotechnology”, Chem.
Rev., Vol. 104, No. 1, pp 293-346, 2004.
44. Dawson, B. and Spannagle, M. “The complete guide to climatechange”, First ed. Routledge, New York, 2009.
45. Deere, J., Magner, E., Wall, J.G. and Hodnett, B.K. “Adsorption and
activity of cytochrome c on mesoporous silicates”, Chem. Commun.,pp. 465-466, 2001.
46. Deere, J., Magner, E., Wall, J.G. and Hodnett, B.K. “Mechanistic and
structural features of protein adsorption onto mesoporous silicates”,J. Phys. Chem. B, Vol. 106, No. 29, pp. 7340-7347, 2002.
47. DeVoe, H. and Kistiakowsky, G.B. “The Enzymic Kinetics of
Carbonic Anhydrase from Bovine and Human Erythrocytes”, J. Am.Chem. Soc., Vol. 83, No. 2, pp. 274-280, 1961.
48. Diaz, J.F. and Balkus K.J. “Enzyme immobilization in MCM-41
molecular sieve”, J. Mol. Catal. B: Enzym., Vol. 2, No. 2-3 pp. 115-126,1996.
49. Dodgson, S.J., Forster, II, R.E., Storey, B.T. and Melat, L.,
“Mitochondrial carbonic anhydrase”, Proc. Natl. Acad. Sci. USA, Vol. 77,No. 9, pp. 5562-5566, 1980.
148
50. Drevon, G.F., Unbarke, C. and Russell, A.J. “Enzyme-Containing
Michael-Adduct-Based Coatings”, Biomacromolecules, Vol. 4, No. 3,
pp. 675-682, 2003.
51. Duda, D.M., Tu, C., Fisher, S. Z., An, H, Yoshioka, C., Govindasamy, L.,
Laipis, J.L., McKenna, M. A., Silverman, D.N. and McKenn,a R.
“Human carbonic anhydrase III: Structural and kinetic study of
catalysis and proton transfer”, Biochemistry, Vol. 44, No. 30,
pp. 10046-10053, 2005.
52. Dyal, A., Loos, K., Noto, M., Chang, S.W., Spagnoli, C., Shafi, K.V.P.M.,
Ulman, A., Cowman, M. and Gross, R.A. “Activity of Candida rogosa
lipase immobilized on -Fe2O3 magnetite nanoparticles”, J. Am. Chem.
Soc., Vol. 125, No.7, pp 1684-1685, 2003.
53. Espinosa, M., Pacheco, S. and Rodriguez. R. “Synthesis and
characterization of NH2-porphyrins covalently immobilized on
modified-SBA-15”, J.Non-Cryst. Solids, Vol. 353, No. 26, pp. 2573-2581,2007.
54. Fan, J., Lei, J., Wang, L., Yu, C., Tu, B. and Zhao, D. “Rapid and high-
capacity immobilization of enzymes based on mesoporous silicas withcontrolled morphologies”, Chem. Commun., pp. 2140-2141, 2003.
55. Fang, J., and Knobler, C.M. “Phase-separated two-component self-
assembled organosilane monolayers and their use in selective
adsorption of a protein”, Langmuir Vol. 12, No. 5, pp 1368-1374,
1996.
56. Fang, X., Liu, X., Schuster, S. and Tan W. “Designing a novel
molecular beacon for surface-immobilized DNA hybridizationstudies”, J. Am. Chem. Soc., Vol. 121, No.12, pp 2921-2922, 1999.
57. Favre, N., Christ, M.L. and Pierre, A. C. “Biocatalytic capture of CO2
with carbonic anhydrase and its transformation to solid carbonate”,
J. Mol. Catal B : Enzym., Vol. 60, No. 3-4, pp.163-170, 2009.
58. Feng, X., Fryxell, G.E., Wang, L.Q., Kim, A.Y., Liu, J. and Kemner, K.M.
“Functionalized monolayers on ordered mesoporous supports”,Science, Vol. 276, No. 5314, pp. 923-926, 1997.
149
59. Figueroa, J.D., Fout, T., Plasynski, S., McIlvried, H. and Srivastava, R.D.
“Advances in CO2 capture technology-The U.S. department of energy's
carbon sequestration program”, Int. J. Greenh. Gas Con., Vol. 2, No.1,pp. 9-20, 2008.
60. Fogler, H.S. “Elements of chemical reaction engineering”, pp. 383-392,New Jersey, Prentice-Hall, 1999.
61. Fowler, C.E., Lebeau, B. and Mann, S. “Covalent coupling of an
organic chromophore into functionalized MCM-41 mesophases by
template-directed co-condensation”, Chem. Commun., pp. 1825-1826,1998.
62. Franchina, J.G., Lackowski, W.M., Dermody, D.L., Crooks, R.M.,
Bergbreiter, D.E., Sirkar, K., Russell, R.J. and Pishko, M.V.
“Electrostatic immobilization of glucose oxidase in a weak acid,
polyelectrolyte hyperbranched ultrathin film on gold: Fabrication
characterization, and enzymatic activity”, Anal. Chem., Vol. 71,No. 15. pp. 3133-3139, 1999.
63. Frommer, W.B. “CO2mmon sense”, Science, Vol. 327, No. 327,
pp. 275-276, 2010.
64. Gemeiner, P. “Enzyme engineering immobilized biosystems”, London,
Ellis Horwood, pp. 9-108, 1992.
65. Gentzis, T. “Subsurface sequestration of carbon dioxide- an overview
from an Alberta (Canada) perspective”, Int. J. Coal Geol., Vol. 43,No.1-4, pp.287-305, 2000.
66. Gilardi, G., and Fantuzzi, A. “Manipulating redox systems:
applications to nanotechnology”, Trends Biotechnol., Vol.19, No.11,pp.468-476, 2001.
67. Gole, A., Dash, C., Ramakrishnan, V., Sainkar, S.R., Mandle, A.B.,
Rao, M. and Sastry, M. “Pepsin-gold colloidal conjugates: Preparation,
characterization and enzymatic activity”, Langmuir, Vol. 17, No. 5,
pp. 1674-1679, 2001a.
68. Gole, A., Dash, C., Soman, C., Sainkar, S.R., Rao, M. and Sastry, M.
“On the preparation, characterization, and enzymatic activity of the
fungal protease– gold colloid bioconjugate”, Bioconj. Chem., Vol.12,No. 5, pp. 684-690, 2001b.
150
69. Gole, A., Vyas, S., Phadtare, S., Lachke, A. and Sastry M. “Studies on
the formation of bioconjugate of endoglucanase with colloidal gold”,
Coll. Surf. B-Biointerf., Vol. 25, No. 2, pp. 129-138, 2002.
70. Grace, J. “Understanding and Managing the Global Carbon Cycle”,J. Ecol., Vol. 92, No. 2, pp. 189-202, 2004.
71. Graf, D.L. “Crystallographic tables for rhombohedral carbonates”, Am.Miner., Vol. 46, pp.1283-1316, 1961.
72. Gu, H., Xu, K., Xu, C. and Xu, B. “Biofunctional magnetic
nanoparticles for protein separation and pathogen detection”, Chem.
Commun., pp. 941-949, 2006.
73. Guari, Y., Thieuleux, C., Mehdi, A., Reyé, C., Corriu, R.J.P.,
Gomez-Gallardo, S., Philippot, K. and Chaudret, B. “In Situ Formation
of Gold Nanoparticles within Thiol Functionalized HMS-C16 and
SBA-15 Type Materials via an Organometallic Two-Step Approach”,
Chem. Mater., Vol.15, No.10, pp. 2017-2024, 2003.
74. Guerrero, R.S., Dana, E. and Sayari. A. “New insights into the
interactions of CO2 with amine-functionalized silica”, Ind. Eng. Chem.Res., Vol. 47, No. 23, pp. 9406-9412, 2008.
75. Guisan, J.M. “Immobilization of Enzymes and Cells”, 2nd
ed., Humanapress, New Jersey, 2006.
76. Hall, S.R., Davis, S.A. and Mann, S. “Co-condensation of organosilica
hybrid shells on nanoparticle templates: A direct synthetic route to
functionalized core-shell colloids”, Langmuir, Vol.16, No.3,pp. 1454-1456, 2000.
77. Hamachi, I., Fujita, A. and Kunitake, T. “Enhanced N-dimethylase
activity of cytochrome c bound to a phosphate bearing synthetic bilayer
membrane”, J. Am. Chem. Soc., Vol. 116, No.19, pp. 8811-8812,1994.
78. Han, G., Ghosh, P., De, M. and Rotello, V. M. “Drug and Gene
Delivery using Gold Nanoparticles”, Nanobiotechnol., Vol. 3, pp. 40-45,2007.
79. Han, Y., Lee, S. S. and Ying, J. Y. “Pressure-driven enzyme
entrapment in siliceous mesocellular foam”, Chem. Mater., Vol.18,No. 3, pp. 643-649, 2006.
151
80. Harlick, P.J.E. and Sayari. A. ”Applications of pore-expanded
mesoporous silica. 5. Triamine grafted material with exceptional CO2
dynamic and equilibrium adsorption performance”, Ind. Eng. Chem.Res., Vol. 46, No. 2, pp. 446-458. 2007.
81. Hartmann, M. “Ordered mesoporous materials for bioadsorption andbiocatalysis”, Chem. Mater., Vol. 17, No. 18, pp. 4577-4593, 2005.
82. He, J., Li, X., Evans, D.G., Duan, X. and Li, C. “A new support for the
immobilization of penicillin acylase”, J. Mol. Catal. B Enzym.,
Vol. 11, No. 1, pp. 45-53, 2000.
83. Head, M.B., Mistry, K.S., Ridings, B.J. and Smith, C.A. “Nucleophilic
and enzymic catalysis of p-nitrophenylacetate hydrolysis”, J. Chem.Educ., Vol. 72, No. 2, pp.184- 86, 1995.
84. Heller, A., “Plugging metal connectors into enzymes”, Nat.Biotechnol., Vol. 31, No. 6, pp. 631-632, 2003.
85. Herzog, H. J. and Drake, E. M. “Carbon dioxide recovery and disposal
from large energy systems”, Annu. Rev. Energy Env., Vol. 21, No. 1,pp.145-166, 1996.
86. Hicks, J. C., Drese, J.D., Fauth, D.J., Gray, M.L., Qi, G. and Jones , C.W.
“Designing adsorbents for CO2 capture from flue gas-hyperbranched
aminosilicas capable of capturing CO2 reversibly”, J. Am. Chem. Soc.,
Vol. 130, No. 10, pp. 2902-2903, 2008.
87. Himeno, S., Komatsu, T. and Fujita, S. “High-Pressure adsorption
equilibria of methane and carbon dioxide on several activatedcarbons”, J. Chem. Eng. Data, Vol. 50, No. 2, pp. 369-376, 2005.
88. Ho, C. and Strurevant, J.M. “The kinetics of the hydration of carbondioxide at 25°”, J. Biol. Chem., Vol. 238, No.10, pp. 3499-3501, 1963.
89. Hosseinkhani, S. and Gorgani, M.N. “Partial unfolding of carbonic
anhydrase provides a method for its immobilization on hydrophobic
adsorbents and protects it against irreversible thermoinactivation”,Enzyme Microb.Technol., Vol. 33, No. 2-3, pp. 179-184, 2003.
90. Huang, H.Y., Yang, R.T., Chinn, D. and Munson, C.L. “Amine-grafted
MCM-48 and silica xerogel as superior sorbents for acidic gas removalfrom natural gas”, Ind. Eng. Chem. Res., Vol. 42, pp. 2427-2433, 2003.
152
91. Huang, S., Xue, Y., Sauer-Eriksson, E., Chirica, L., Lindskog, S. and
Jansson, B.H. “Crystal structure of carbonic anhydrase from Neisseria
gonorrhoeae and its complex with the inhibitor acetazolamide”, J.Mol. Biol., Vol. 283, No.1, pp. 301-310, 1998.
92. Huanga, J., Hea, C., Xiaoa, Y., Myaa, K.Y., Daib, J. and Siowb, Y.P.
“Polyimide/POSS nanocomposites: interfacial interaction, thermal
properties and mechanical properties”, Polymer, Vol. 44, No.16,
pp. 4491-4499, 2003.
93. Hudson, S., Magner, E., Cooney, J. and Hodnett, B. K. “Methodology
for the immobilization of enzymes onto mesoporous materials”,J. Phys. Chem. B, Vol.109, No. 41, pp.19496-9506, 2005.
94. Huo, Q., Feng, J., Schüth, Ferdi, and Stucky, G.D. “Preparation of hard
mesoporous silica spheres”, Chem. Mater., Vol. 9, No. 1, pp 14-17,
1997.
95. Huo, Q., Margolese, D.I., Ciesla, U.P., Feng, T.E., Gier, P. Sieger, R.,
Leon, P.M., Petroff, F. S. and Stucky, G.D. “Generalized synthesis of
periodic surfactant inorganic composite-materials, Nature, Vol. 368,
pp. 317-321, 1994.
96. Huo, Qisheng, Leon, R., Petroff, P.M. and Stucky, G.D.,
“Mesostructure Design with Gemini Surfactants: Supercage Formation
in a Three-Dimensional Hexagonal Array”, Science, Vol. 268, No. 5215,pp 1324-1327, 1995.
97. Inagaki, S., Fukushima, Y. and Kuroda, K. “Synthesis of highly
ordered mesoporous materials from a layered polysilicate”, J. Chem.Soc., Chem. Commun., pp. 680-682, 1993.
98. Innocenti, A. and Supuran, C.T. “Paraoxon, 4-nitrophenyl phosphate
and acetate are substrates of - But not of -, - And -carbonic
anhydrases”, Bioorg. Med. Chem. Lett., Vol. 20, No. 21, pp. 6208-6212,
2010.
99. Innocenti, A., Scozzafava, A., Parkkila, S., Puccetti, L., Simone, G.D.
and Supuran, C.T. “Investigation of the esterase, phosphate, and
pulfatase activitiesof the cytosolic mammalian carbonic cnhydrase
isoform I, II and XIII with 4-nitrophenyl esters as substrates”, Bioorg.
Med. Chem. Lett., Vol. 18, No. 7, pp. 2267-2271, 2008.
153
100. IPCC “Climate Change 2001: The Scientific Basis”, CambridgeUniversity Press, New York, 2001.
101. Jain, P. K., Huang, X., El-Sayed, I. H. and El-Sayed, M. A. “Noble
metals on the nanoscale: optical and photothermal properties and some
applications in imaging, sensing, biology, and medicine”, Acc. Chem.Res., Vol. 41, No. 12 , pp. 1578-1586, 2008.
102. Katiyar, A., Yadav, S, Smirniotis, P.G. and Pinto, N.G. “Synthesis of
ordered large pore SBA-15 sphericals for adsorption of biomolecules”,
J. Chromatogr. A, Vol. 1122, No.1-2, pp.13-20. 2006.
103. Katz, E. and Willner, I. “Integrated nanoparticle–biomolecule hybrid
systems: synthesis, properties, and applications”, Angew. Chem., Int.Ed., Vol. 43, No. 45, pp. 6042-6108, 2004.
104. Keeling, C.D. and Whorf, T.P. “Atmospheric CO2 records from sites in
the SIO air sampling network. In Trends: A Compendium of data on
global change; Carbon dioxide information analysis center”, Oak
Ridge National Laboratory, U.S. Department of Energy: Oak Ridge,Tenn., U.S.A., 2004.
105. Kennedy J.F. “Principles of immobilization of enzymes. In Handbookof enzyme Biotechnology”, London: Ellis Horwood, pp. 235-295, 1995.
106. Kernohan, J.C. “The pH-activity curve of bovine carbonic anhydrase
and its relationship to the inhibition of the enzyme by anions”,Biochem. Biophys. Acta., Vol. 96, No. 2, pp. 304-307, 1964.
107. Khalifah, R.G. “Carbon dioxide hydration activity of carbonic
anhydrase: paradoxical consequences of the unusually rapid catalysis”,
Proc. Natl. Acad. Sci. USA, Vol. 70, pp. 1986-1989, 1973.
108. Khalifah, R.G. “The carbon dioxide hydration activity of carbonic
anhydrase: I. Stop-flow kinetic studies on the native human isoenzymes Band C”, J. Biol. Chem. Vol. 246, No. 1, pp. 2561-2573, 1971.
109. Khatri, R. A., Chuang, S.S.C., Soong, Y. and Gray, M. “Carbon
dioxide capture by diamine-grafted SBA-15: A combined fourier
transform infrared and mass spectrometry study”, Ind. Eng. Chem. Res.,Vol. 44, No. 10, pp. 3702-3708, 2005.
154
110. Kim, M.I., Kim, J., Lee, J., Jia, H., Na, H. B., Youn, J.K., Kwak, J.H.,
Dohnalkova, A., Grate, J. W., Wang, P., Hyeon, T., Park, H.G. and
Chang, H.N. “Crosslinked enzyme aggregates in hierarchically-ordered
mesoporous silica: A simple and effective method for enzymestabilization”, Biotechnol. Bioeng., Vol. 96, No. 2, pp. 210-218, 2007.
111. Kim, M.I., Kim, J., Lee, J., Shin, S., Na, H. B., Hyeon, T., Park, H. G.
and Chang, H. N. “One dimensional crosslinked enzyme aggregates in
SBA-15: Catalytic behavior to conventional enzme immobilization”,Micropor. Mesopor. Mater., Vol. 111, No. 1-3, pp. 18-23, 2008.
112. Kim, S., Ida, J., Guliants, V.V. and Lin, J.Y.S. “Tailoring pore
properties of MCM-48 silica for selective adsorption of CO2”, J. Phys.Chem. B, Vol. 109, No.13, pp. 6287-6293.2005.
113. Kisler, J.M., Stevens, G.W. and O’Connor, A.J. “Adsorption of
proteins on mesoporous molecular sieves”, Mater. Phys. Mech., Vol. 4,pp. 89-93, 2001.
114. Krajewska, B. “Application of chitin- and chitosan-based materials for
enzyme immobilizations: a review”. Enzyme Microb. Technol.,
Vol. 35, No. 2-3, pp. 126-139, 2004.
115. Krenkova, J. and Foret, F. “Immobilized microfluidic enzymatic
reactors”, Electrophoresis, Vol. 25, No. 21-22, pp. 3550-3563, 2004.
116. Kresge, C.T., Leonowicz, M.E., Roth, W.J., Vartuli, J.C. and Beck, J.S.
“Ordered mesoporous molecular sieves synthesized by a liquid-crystaltemplate mechanism”, Nature, Vol. 359, pp. 710-712, 1992.
117. Kumar, C.V. and McLendon, G.L. “Nanoencapsulation of cytochrome c
and horseradish peroxidase at the galleries of a-zirconium phosphate”,Chem. Mater. Vol. 9, No.3, pp. 863-870, 1997.
118. Kyoto Protocol, “The united nations framework convention on climatechange”, 2004.
119. Lee, C.H., Lang, J., Yen, C.W., Shih, P.C., Lin, T.S. and Mou, C.Y.,
“Enhancing stability and oxidation activity of cytochrome c by
immobilization in the nanochannels of mesoporous aluminosilicates”,J. Phys. Chem. B, Vol. 109, No. 25, pp. 12277-12286, 2005.
155
120. Lee, C.H., Mou, C.Y., Ke, S.C. and Lin, T.S. “Effect of spin
configuration on the reactivity of cytochrome c immobilized in
mesoporous silica”, Mol. Phys., Vol. 104, No. 10, 11, pp. 1635-1641.2006.
121. Lee, S.W., Park, S.B., Jeong, S.K., Limc, K.S., Lee, S.H. and
Trachtenberg, M.C., “On carbon dioxide storage based on
biomineralization strategies”, Micron, Vol.41, No. 4, pp. 273-282,
2010.
122. Lei, C., Shin, Y., Lui, J. and Ackerman, E.J. “Entrapping enzyme in a
functionalized nanoporous support”, J. Am. Chem. Soc., Vol.124,No. 38, pp. 11242-11243, 2002.
123. Lei, C., Soares, T.A., Shin, Y., Liu, J. and Ackerman, E.J. “Enzyme
specific activity in functionalized nanoporous supports”, Nanotech.
Vol. 19, No.12, pp.125102, 2008.
124. Li, D., He, Q., Cui, Y., Duan, L. and Li, J., “Immobilization of glucose
oxidase onto gold nanoparticles with enhanced thermostability”,
Biochem. Biophys. Res. Commun., Vol. 355, No. 2, pp 488-4936,
2007.
125. Li, W., Liu, L., Chen, W., Yu, L., Li, W. and Yu, H. “Calcium
carbonate precipitation and crystal morphology induced by microbial
carbonic anhydrase and other biological factors”, Process Biochem.,Vol. 45, No. 6, pp 1017-1021, 2010.
126. Liang, J.Y and Lipscomb, W.N. “Hydration of Carbon Dioxide by
Carbonic Anhydrase: Internal Proton Transfer of zinc(2+)-boundbicarbonate”, Biochemistry, Vol. 26, No. 17, pp. 5293-5301, 1987.
127. Liang, J.Y. and Lipscomb, W.N. “Hydration of carbon dioxide by
carbonic anhydrase: intramolecular proton transfer between zinc-bound
water and histidine 64 in human carbonic anhydrase II”, Biochemistry,
Vol. 27, No. 23, pp. 8676-8682, 1988.
128. Lin, D.H., Jiang, Y.X., Wang, Y. and Sun, S.G. “Silver Nanoparticles
Confined in SBA-15 Mesoporous Silica and the Application as a
Sensor for Detecting Hydrogen Peroxide”, J. Nanomater., Article ID473791, Vol. 2008, 2008.
129. Lindskog, S. “In Zinc Enzymes”, Spiro, T. G. ed., Wiley, New York,
p.77, 1983.
156
130. Lindskog, S., Engberg, P., Forsman, C., Ibrahim, S.A., Jonsson, B.H.,
Somonsson, I. and Tibell, L. “Kinetics and mechanism of carbonic
anhydrase isoenzymes”, Ann N.Y. Acad. Sci., Vol. 429, pp. 61-74,1984.
131. Lindskog, S., Joseph, E. and Coleman, T. “The catalytic mechanism of
carbonic anhydrase”, Proc. Nat. Acad. Sci., Vol. 70, No. 9, pp. 2505-2508, 1973.
132. Liu, N., Bond, G. M., Abel, A., McPherson, B.J. and Stringer, J.
“Biomimetic sequestration of CO2 in carbonate form: Role of produced
waters and other brines”, Fuel Process. Technol., Vol. 86, No.14-15,pp.1615-1625, 2005.
133. Liu, X., Li, L., Du, Y., Guo, Z., Ong, T.T., Chen, Y., Ng, S.C. and
Yang, Y. “Synthesis of large pore-diameter SBA-15 mesostructured
spherical silica and its application in ultra-high performance liquid
chromatography”, J. Chromatogr. A, Vol. 1216, No. 45, pp. 7767-7773,2009a.
134. Liu, X., Wang, A., Yang, X., Zhang, T., Mou, C.Y., Su, D.S. and Li, J.
“Synthesis of thermally stable and highly active bimetallic Au-Ag
nanoparticles on inert supports”, Chem. Mater., Vol. 21, No. 2,pp. 410-418. 2009b.
135. Llewellyn, P.L., Bourrelly, S., Serre, C., Filinchuk, Y.T. and Ferey, G.
“How hydration drastically improves adsorption selectivity for CO2
over CH4 in the flexible chromium terephthalate MIL-53”, Angew.Chem. Int. Ed., Vol. 45, No. 46, pp. 7751-7754, 2006.
136. Lloyd, J., McMillan, S., Hopkinson, D. and Edwards, “Nucleotide
sequence and derived amino acid sequence of a cDNA encoding humanmuscle carbonic anhydrase”, Gene, Vol. 41, No. 2-3, pp. 233-239, 1986.
137. Lodish, H., Baltimore, D., Berk, A., Zipursky, S.L., Matsudaira, P. and
Darnell, J. “Molecular Cell Biology”, Scientific American Books,1986.
138. Loidl-Stahlhofen, A., Schmitt, J., Noller, J., Hartmann, T., Brodowsky, H.,
Schmitt, W., and Keldenich, J. “Solid-supported biomolecules on modified
silica surface-A tool for fast physicochemical characterization and high
throughput screening”, Adv. Mater., Vol. 13, No. 23, pp. 1829-1834,2001.
157
139. Luan, Z., Fournier, J.A., Wooten, J.B. and Miser, D.E. “Preparation
and characterization of (3-aminopropyl)triethoxysilane-modified
mesoporous SBA-15 silica molecular sieves”, Micropor. Mesopor.Mater., Vol. 83, pp. 150-158, 2005.
140. Luckarift, H.R., Spain, J.C., Naik, R.R. and Stone, M.O. “Enzyme
immobilization in a biomimetic silica support”, Nat. Biotechnol.,Vol. 22, No. 2, pp. 211-213, 2004.
141. Lukachova, L.V., Karyakin, A., Ivanova, Y.N., Karyakin, E.E. and
Varfolomeyer, S.D. “Non-aqueous enzymology approach for
improvement of reagentless mediator-based glucose biosensor”,Analyst, Vol. 123, pp.1981-1985, 1998.
142. Lvov, Y., Ariga, K., Ichinose, I. and Kunitake, T. “Assembly of
multicomponent protein films by means of electrostatic layer-by-layer
Adsorption”, J. Am. Chem. Soc., Vol. 117, No. 22, pp. 6117-6123,1995.
143. Maciel, G.E. and Sindorf, D.W. “Silicon-29 nuclear magnetic
resonance study of the surface of silica gel by cross polarization and
magic- angle spinning”, J. Am. Chem. Soc., Vol. 102, No. 25,pp. 7606-7607, 1 980.
144. Macquarrie D.J. “Direct preparation of organically modified MCM-
type materials.Preparation and characterization of aminopropyl-MCMand 2-cyanoethyl-MCM”, Chem. Commun., pp. 1961-1962, 1996.
145. Madbouly, S.A., Otaigbe, J.U., Nanda, A.K. and Wicks, D.A.
“Rheological behavior of POSS/Polyurethane-Urea nanocomposite
films prepared by homogeneous solution polymerization in aqueousdispersions”, Macromolecules, Vol. 40, No. 14, pp. 4982-4991, 2007.
146. Margolese, D., Melero, J.A., Christiansen, S.C., Chmelka, B.F. and
Stucky, G.D. “Direct syntheses of ordered SBA-15 mesoporous silica
containing sulfonic acid groups”, Chem. Mater., Vol.12, No. 8,pp. 2448-2459, 2000.
147. Meldrum, N.U. and Roughton, F.J.W. “Carbonic anhydrase. Its
preparation and properties”, J. Physiol., Vol. 80, No. 2, pp. 113-142,1933.
158
148. Millward, A.R. and Yaghi, O.M. “Metal-Organic Frameworks with
exceptionally high capacity for storage of carbon dioxide at room
temperature”, J. Am. Chem. Soc., Vol. 127, No. 51, pp.17998-17999,2005.
149. Mirjafari, P, Asghari, K. and Mahinpey, N. “Investigating the
application of enzyme carbonic anhydrase for CO2 sequestrationpurposes”, Ind. Eng. Chem. Res., Vol. 46, No. 3, pp. 921-926, 2007.
150. Mitchell, D.T., Lee, S.B., Trofin, L., Li, N., Nevanen, T.K., Soderlund, H.,
and Martin, C.R. “Smart nanotubes for bioseparation and biocatalysis”,J. Am. Chem. Soc., Vol. 124, No. 40, pp. 11864-11865, 2002.
151. Moelans, D., Cool, P., Baeyens, J. and Vansant, E.F. “Using
mesoporous silica materials to immobilise biocatalysis-enzymes”,Catal. Commun., Vol. 6, No. 4, pp. 307-311, 2005.
152. Montgomery, J.C., Venta, P.J., Eddy, R.L., Fukushima, Y.S., Shows T.B.
and Tashian R.E. “Characterization of the human gene for a newly
discovered carbonic anhydrase, CA VII, and its localization tochromosome 16”, Genomics, Vol.11, No. 4, pp. 835-848, 1991.
153. Mrksich, M., Sigal, G.B. and Whitesides, G.M. “Plasmon resonance
permits in-situ measurement of protein adsorption on self-assembled
monolayer of alkanethiolates on gold”, Langmuir, Vol. 11, No. 11,pp. 4383-4385, 1995.
154. Mtksich, M. and Whitesides, G.M. “Using self-assembled monolayers
to understand the interactions of man-made surfaces with proteins and
cells”, Annu. Rev. Biophys. Biomol. Struct., Vol. 25, pp. 55-78, 1996.
155. Mukhopadhyay, K., Phadtare, S., Vinod, V.P., Kumar, A., Rao, M.,
Chaudhari, R.V. and Sastry, M. “Gold nanoparticles assembled on
amine-functionalized Na-Y zeolite: A biocompatible surface for
enzyme immobilization”, Langmuir, Vol. 19, No. 9, pp.3858-3863,
2003.
156. Murakami, H. and Sly, W.S. “Purification and characterization of
human salivary carbonic anhydrase”, J. Biol. Chem., Vol. 262, No. 3,pp.1382-1388, 1987.
159
157. Neimark, A. V., Ravikovitch, P.I., Grün, M., Schüth, F. and Unger, K.K.
“Pore size analysis of MCM-41 type adsorbents by means of nitrogen
and argon adsorption”, J. Colloid Interface Sci., Vol. 207, No.1,pp. 159-169, 1998.
158. Nicolini, C., Erokhin, V., Antolini, F., Catasti, P. and Facci, P.
“Thermal stability of protein secondary structure in Langmuir-Blodgettfilms”, Biochim. Biophys. Acta, Vol. 1158, No. 3, pp. 273-278, 1993.
159. Niemeyer, C.M. “Nanoparticles, proteins, and nucleic acids:
Biotechnology meets materials science”, Angew. Chem. Int. ed.,Vol. 40, No. 22, pp. 4128-4158, 2001.
160. Nooney, R.I., Dhanasekaran, T., Chen, Y. Josephs, R. and Ostafin, A.E.
“Self-assembled highly ordered spherical mesoporous silica/goldnanocomposites”, Adv. Mater., Vol. 14, No. 7, pp. 529-532, 2002.
161. NRC “Climate change science: an analysis of key questions”, National
Academy Press, Washington, D.C., 2001.
162. Ohta, S., Alam, M.T., Arakawa, H. and Ikai, A.” Origin of mechanical
strength of bovine carbonic anhydrase studied by molecular dynamicssimulation”, Biophys. J., Vol. 87, No. 6, pp. 4007- 4020, 2004.
163. Olajire, A.A. “CO2 capture and separation technologies for end-of-pipeapplications - A review”, Energy, Vol. 35, No. 6, pp. 2610-2628, 2010.
164. Ozdemir, E., “Biomimetic CO2 sequestration: 1.Immobilization of
carbonic anhydrase within polyurethane foam”, Energy Fuels, Vol. 23,No. 11, pp. 5725-5730, 2009.
165. Packer, Y. and Bjorkquist, D.W. “Comparative studies of bovine
carbonic anhydrase in H2O and D2O. Stopped-flow studies of the
kinetics of interconversion of CO2 and HCO3-”, Biochem., Vol.16,
No. 26, pp. 5698-5707, 1977.
166. Park, S.A., Taton, T.A. and Mirkin, C.A. “Array-based electrical
detection of DNA with nanoparticle probes”, Science, Vol. 295,No. 5559, pp. 1503-1506, 2002.
167. Phadtare, S., Vinod, V.P., Mukhopadhyay, K., Kumar, A., Rao, M.,
Chaudhari, R.V. and Sastry, M. “Immobilization and biocatalytic
activity of fungal protease on gold nanoparticle-loaded zeolitemicrospheres”, Biotechnol. Bioeng., Vol. 85, No. 6, pp. 629-637, 2004.
160
168. Pittman, C.U., Li, G.Z. and Ni, H. “Hybrid inorganic/organic
crosslinked resins containing polyhedral oligomeric silsesquioxanes”,
Macromo. Symp., Vol. 196, pp. 301-325, 2003.
169. Plafker, K. and Macara, I.G. “Fluorescence resonance energy transfer
biosensors that detect ran conformational changes and a ran·GDP-
Importin- -RanBP1 complexin vitro and in intact cells”, J. Biol.Chem., Vol. 277, No. 33, pp. 30121-30127, 2002.
170. Pocker, Y. and Stone, J. T. “The catalytic versatility of erythrocyte
carbonic anhydrase. III. Kinetic studies of the enzyme-catalyzed
hydrolysis of p-nitrophenyl acetate”, Biochemistry, Vol. 6, No. 3,pp. 668-678, 1967.
171. Pocker, Y. and Stone, J.T. “The catalytic versatility of erythrocyte
carbonic anhydrase. VII. Kinetic studies of esterase activity and
competitive inhibition by substrate analogs”, Biochemistry, Vol. 7,No. 9, pp. 3021-3031, 1968a.
172. Pocker, Y. and Stone, J.T. “The catalytic versatility of erythrocyte
carbonic anhydrase. VI. Kinetic studies of noncompetitive inhibition of
enzyme-catalyzed hydrolysis of p-nitrophenyl acetate”, Biochemistry,Vol. 7, No. 8, pp. 2936-2945, 1968b.
173. Pocker, Y., and Sarkanen, S. “Carbonic anhydrase : structure, catalytic
versatility, and inhibition”, Adv. Enzymol. Relat. Areas Mol. Biol.,Vol.47, pp.149-274, 1978.
174. Prabhu, C., Wanjari, S., Gawande, S., Das, S., Labhsetwar, N., Kotwal, S.,
Puri, A.K., Satyanarayana, T. and Rayalu, S. “Immobilization of
carbonic anhydrase enriched microorganism on biopolymer basedmaterials”, J. Mol. Catal. B: Enzym., Vol. 60, No.1-2, pp.13-21, 2009.
175. Puxty, G., Rowland, R., Allport, A., Yang, Q., Bown, M., Burns, R.,
Maeder, M. and Attalla, M. “Carbon dioxide postcombustion capture: A
novel screening study of the carbon dioxide absorption performance of76 amines”, Environ. Sci. Technol., Vol. 43, No. 16, pp. 6427-6433, 2009.
176. Qhobosheane, M., Santra, S., Zhang, P. and Tan, W. “Biochemically
functionalized silica nanoparticles”, Analyst, Vol. 126, No.81,pp. 1274- 278, 2001.
177. Ramanathan, V. “Global Warming”, Bull. Am. Acad. Arts Sci.,
pp. 36-38, 2006.
161
178. Reichle, D., Houghton, J., Kane, B. and Ekmann, J. “CarbonSequestration: Research and Development”, U.S. DOE report, 1999.
179. Rembaum, A., and Dreyer, W.J. “Immunomicrospheres: Reagents for
cell labeling and separation”, Science, Vol. 208, No. 4442, pp. 364- 368,1980.
180. Ren, X. and Lindskog. S. “Buffer dependence of CO2 hydration
catalyzed by human carbonic anhydrase I”, Biochim. Biophys. Acta,Vol.1120, No.1, pp. 81-86, 1992.
181. Romaškevi, T., Budrie, S., Pielichowski, K. and Pielichowski, J.
“Application of polyurethane-based materials for immobilization of
enzymes and cells: a review”, Chemija., Vol.17, No. 4, pp. 74-89,2006.
182. Roquea, A.C.A., Bispoa, S., Pinheiroa, A.R.N., Antunesa, J.M.A.,
Goncalvesb, D. and Ferreirab, H.A. “Antibody immobilization on
magnetic particles”, J. Mol. Recognit., Vol. 22, Vol. 2, pp. 77-82, 2009.
183. Ruddiman, W.F. “How did humans first alter global climate”. Sci.Am., Vol. 292, No. 3, pp. 46-53, 2005.
184. Sadasivan, S., Dujardin, E., Li, M., Johnson, C.J. and Mann, S. “DNA-
driven assembly of mesoporous silica/gold satellite nanostructures”,Small, Vol. 1, No. 1, pp. 103-106, 2005.
185. Sadjadi, M.S., Farhadyar, N. and Zare, K., “Synthesis of bi-metallic
Au–Ag nanoparticles loaded on functionalized MCM-41 for
immobilization of alkaline protease and study of its biocatalyticactivity”, Superlattices Microstruct., Vol. 46, No. 4, pp. 563-571, 2009.
186. Sarraf, N. S., Saboury, A.A., Ranjbar, B. and Moosavi-Movahedi, A.A.
“A structural and functional changes of bovine carbonic anhydrase as a
consequence of temperature”, Acta Biochim. Pol., Vol. 51, No. 3,pp. 665-671, 2004.
187. Sastry M. “Entrapment of proteins and DNA in thermally evaporatedlipid films”, Trends Biotechnol., Vol. 20, No. 5, pp. 185-189, 2002.
188. Sastry, M., Kumar, A. and Mukherjee, P. “Phase transfer of aqueous
colloidal gold particles into organic solutions containing fatty aminemolecules”, Coll. Surf. A, Vol. 181, No. 1-3, pp. 255-259, 2001.
162
189. Sayari, A. and Hamoudi, S. “Periodic mesoporous silica-based organic
-Inorganic nanocomposite materials”, Chem. Mater., Vol. 13, No.10,
pp. 3151-3168, 2001.
190. Schmitt, J., Machtle, P., Eck, D., Mowald, H. and Helm, C.A.
“Preparation and Optical Properties of Colloidal Gold Monolayers”Langmuir, Vol. 15, No. 9, pp. 3256-3266, 1999.
191. Selvaraj, V. and Alagar, M. “Synthesis of novel Ag/POSS
nanocomposites powder for glucose oxidation and antimicrobial
applications”, J. Bionanoscience, Vol. 2, pp. 1-8, 2008.
192. Serra, E., Mayoral, A., Sakamoto, Y., Blanco, R.M. and D az, I.
“Immobilization of lipase in ordered mesoporous materials: Effect of
textural and structural parameters”, Micropor. Mesopor. Mater.,Vol. 114, No. 1-3, pp. 201-2131, 2008.
193. Shakeri, M. and Shoda, M. “Decolorization of an anthraquinone dye by
the recombinant dye-decolorizing peroxidase (rDyP) immobilized on
mesoporous materials”, J. Mol. Catal. B, Vol. 54, No.1-2, pp. 42-49,2008.
194. Shimahara, H., Yoshida, T., Shibata, Y., Shimizu, M., Kyogoku, Y.,
Sakiyama, F., Nakazawa, T., Tate, S., Ohki, S., Kato, T., Moriyam, H.,
Kishida, K., Tano, Y., Ohkubo, T. and Kobayashi, Y. “Tautomerism of
histidine 64 associated with proton transfer in catalysis of carbonicanhydrase. J. Biol. Chem., Vol. 282, No. 13, pp. 9646-9656, 2007.
195. Shuler, M.L. and Kargi, F. “Bioprocess Engineering (BasicConcepts)”. New Jersey, Prentice-Hall, pp. 58-102, 1992.
196. Sindorf, D.W. and Maciel, G.E. “Solid-state NMR studies of the
reactions of silica surfaces with polyfunctional chloromethylsilanes
and ethoxymethylsilanes”, J. Am. Chem. Soc., Vol.105, No.12,pp. 3767-3776, 1983.
197. Sondi, I. and Matijevic, E. “Homogeneous precipitation of calcium
carbonates by enzyme catalyzed reaction”, J. Colloid Interface Sci.
Vol. 234, No. 1, pp.208-214, 2001.
198. Stein, A., Melde, B.J. and Schroden, R.C. “Hybrid inorganic-organic
mesoporous silicates – Nanoscopic reactors coming of age”, Adv.Mater., Vol.12, pp. 1403-1419, 2000.
163
199. Stonehuerner, J.G., Zhao, J., O’Daly, J.P., Crumbliss, A.L. and
Henkens, R.W. “Comparison of colloidal gold electrode fabrication
methods: the preparation of a horseradish peroxidase enzymeelectrode”, Biosens. Bioelectron., Vol. 7, No. 6, pp. 421-428, 1992.
200. Straathof, A.J.J. “Development of a computer program for analysis of
enzyme kinetics by progress curve fitting”, J. Mol. Catal. B: Enzym.,Vol. 11, No. 4-6, pp. 991-998, 2001.
201. Stucky, G.D., Qisheng, H., Firouzi, A., Chmelka, B.F., Schacht, S.,
Voigt-Martin, I.G. and Ferdi, S. “Directed synthesis of organic/
inorganic composite structures”, Stud. Surf. Sci. Catal., Vol. 105,pp 3-28, 1997.
202. Subramanian, A., Kennel, S.J., Oden, P.I., Jacobson, K.B., Woodward, J.
and Doktycz, M.J. “Comparison of techniques for enzyme
immobilization on silicon supports”, Enzyme Microb. Technol.,Vol. 24, No.1-2, pp. 26-34, 1999.
203. Sujandi, Prasetyanto, E.A., Lee, S.C. and Park, S.E. “Microwave
synthesis of large pored chloropropyl functionalized mesoporous silica
with p6mm, Ia-3d, and Im3m structures”, Micropor. Mesopor. Mater.,Vol. 118, No.1-3, pp.134-142, 2009.
204. Takahashi, H., Li, B., Sasaki, T., Miyazaki, C., Kajino, T. and Inagaki, S.
“Catalytic activity in organic solvents and stability of immobilized
enzymes depend on the pore size and surface characteristics of
mesoporous silica”, Chem. Mater., Vol.12, No. 11, pp. 3301-3305, 2000.
205. Takahashi, H., Li, B., Sasaki, T., Miyazaki, C., Kajino, T. and Inagaki, S.
“Immobilized enzymes in ordered mesoporous silica materials and
improvement of their stability and catalytic activity in an organicsolvent”, Micropor. Mesopor. Mater., Vol. 44-45, pp. 755-762, 2001.
206. Tamaki, R., Tanaka,Y., Asuncion, M.Z., Choi, J. and Laine, R.M.
“Octa(aminophenyl)silsesquioxane as a nanoconstruction site”, J. Am.Chem. Soc., Vol.123, No. 49, pp. 12416-12417, 2001.
207. Tanev, P. and Pinnavaia, T.J. “A neutral templating route to
mesoporous molecular sieves”, Science, Vol. 267, Vol. 5199, pp. 865-867,1995.
164
208. Taylor, R.F., “Commercially available supports for protein
immobilization. In protein immobilization: fundamentals and
applications”, New York, Marcel Dekker, pp. 139-160, 1991.
209. Thorslund, A. and Lindskog, S. “Studies of the esterase activity and
anion inhibition of bovine zinc and cobalt carbonic anhydrases”, Eur. J.Biochem., Vol. 3, pp. 117-123, 1967.
210. Trachtenberg, M.C., Tu, C.K., Landers, R.A., Wilson, R.C.,
McGregor, M.L., Laipis, P.J., Paterson, M., Silverman, D.N., Thomas, D.,
Smith, R.L. and Rudolph, F.B. “Carbon dioxide transport by proteic
and facilitated transport membranes”, Life Support Biosph. Sci.,Vol. 6, pp. 293-302, 1999.
211. Tripp, B.C., Smith, K. and Ferry, J.G. “Carbonic anhydrase: new
insights for an ancient enzyme”, J. Biol. Chem., Vol. 276, No. 52,
pp. 48615-48618, 2001.
212. Veawab, A., Tontiwachwuthikul, P. and Chakma, A. “Corrosion
behavior of carbon steel in the CO2 absorption process using aqueous
amine solutions”, Ind. Eng. Chem. Res., Vol. 38, No. 10, pp. 3917-3924,
1999.
213. Velev, O. D. and Kaler, E. W. “In Situ assembly of colloidal particles
into miniaturized biosensors”, Langmuir, Vol.15, No.11, pp. 3693-3698,1999.
214. Vieth, W.R. “Bioprocessing engineering – Kinetics, mass transport,
reactors and gene expression”, New York, Wiley-Interscience
Publications, pp. 21-51, 1994.
215. Vinoba, M., Jeong, S.W., Bhagiyalakshmi, M. and Alagar, M.
“Electrocatalytic reduction of hydrogen peroxide on silver
nanoparticles stabilized by amine grafted mesoporous SBA-15”, Bull.Korean Chem. Soc., Vol. 31, No. 12, pp. 3668-3674, 2010.
216. Vinoba, M., Kim, D.H., Lim, K.S., Jeong, S.K., Lee, S.W. and Alagar, M.
“Biomimetic sequestration of CO2 and reformation to CaCO3 using
bovine carbonic anhydrase immobilized on SBA-15”, Energy fuels,Vol. 25, No. 1, pp. 438-445, 2011.
217. Vinu, A., Miyahara, M. and Ariga, K., “Assemblies of biomaterials in
mesoporous media”, J. Nanosci. Nanotechnol., Vol. 6, No. 6,
pp. 1510-1532, 2006.
165
218. Vinu, A., Murugesan, V., Tangermann, O. and Hartmann, M.
“Adsorption of cytochrome on mesoporous molecular sieves: influence
of pH, pore diameter, and aluminum incorporation”, Chem. Mater.,Vol. 16, No.16, pp. 3056-3065, 2004.
219. Wang, C.Y. “Control the polymorphism and morphology of calcium
carbonate precipitation from a calcium acetate and urea solution”,Mater. Lett., Vol. 62, No.16, pp. 2377-2380, 2008.
220. Wang, P., Dai, S., Waezsada, S.D., Tsao, A.Y. and Davison, B.H.
“Enzyme stabilization by covalent binding in nanoporous sol-gel glass
for nonaqueous biocatalysis”, Biotech. Bioeng., Vol. 74, No. 3,pp. 249-255, 2001.
221. Wang, S.T., Yan, J.C. and Li, C. “Formation of gold nanoparticles and
self-assembly into dimer and trimer aggregates”, Mater. Lett., Vol. 59,
No. 11, pp 1383-1386, 2005.
222. Wang, Y. and Caruso, F. “Mesoporous silica spheres as supports for
enzyme immobilization and encapsulation”, Chem. Mater., Vol. 17,No. 5, pp 953-961, 2005.
223. Wang, Z.J., Xie, Y. and Liu C.J. “Synthesis and characterization of
noble metal (Pd, Pt, Au, Ag) nanostructured materials confined in the
channels of mesoporous SBA-15”, J. Phys. Chem. C, Vol. 112, No. 50,pp. 19818-19824, 2008.
224. Wangoo, N., Bhasin, K.K., Meht, S.K. and Suri, C.R. “Synthesis and
capping of water-dispersed gold nanoparticles by an amino acid:
Bioconjugation and binding studies”, J. Colloid Interface Sci.,Vol. 323, No. 2, pp. 247-254, 2008.
225. Washmon-Kriel, L., Jimenez, V.L. and Balkus, K.J. “Cytochrome c
immobilization into mesoporous molecular sieves”, J. Mol. Catal. B:Enzym., Vol.10, No. 5, pp. 453-46, 2000.
226. Whitford, D. “Proteins Structure and Function”, John Wiley & Sons,
2005.
227. Whitney, P.L. “Inhibition and modification of human carbonic
anhydrase B with bromoacetate and iodoacetamide”, Eur. J. Biochem.,Vol.16, No.1, pp.126-135, 1970.
166
228. Willner, I., Basnar, B. and Willner, B. “Nanoparticle-enzyme hybrid
systems for nanobiotechnology”, FEBS J., Vol. 274, No. 2,
pp. 302-309, 2007.
229. Woodward, J. “Immobilised cells & enzymes a practical approach”,England, Oxford. pp. 3-17, 1985.
230. Xu, X., Song, C., Miller, B. G. and Scaroni. A. W. “Influence of
moisture on CO2 separation from gas mixture by a nanoporous
adsorbent based on polyethylenimine-modified molecular sieve
MCM-41”, Ind. Eng. Chem. Res., Vol. 44, No. 21, pp. 8113-8119, 2005.
231. Yadav, R., Wanjari, S., Prabhu, C., Kumar, V., Labhsetwar, N.,
Satyanarayana, T., Kotwal, S. and Rayalu, S. “Immobilized carbonic
anhydrase for the biomimetic carbonation reaction”, Energy fuel,Vol. 24, No. 11, pp. 6198-6207, 2010.
232. Yang, C.M., Liu, P.H., Ho, Y.F., Chiu, C.Y. and Chao, K.J. “Highly
dispersed metal nanoparticles in functionalized SBA-15”, Chem.Mater., Vol. 15, No. 1, pp. 275-280, 2003.
233. Yang, Q.Y., Zhu, Y., Tian, L, Xie, S.H., Pei, Y., Li, and Fan, K.N.
“Preparation and characterization of Au-In/APTMS-SBA-15 catalysts
for chemoselective hydrogenation of crotonaldehyde to crotyl alcohol”,
Appl. Catal. A: Gen., Vol. 369, No. 1-2, pp. 67-76, 2009.
234. Yang, W.C. and Ciferno, J. “Assessment of carbozyme enzyme-based
membrane technology for CO2 capture from flue gas”. DOE/NETL401/072606, 2006.
235. Yang, Z., Mesiano, A.J., Venkatasubramanian, S., Gross, S.H. and
Russel, A.J. “Activity and stability of enzymes incorporated into
acrylic polymers”, J. Am. Chem. Soc., Vol. 117, No. 17, pp. 4843-4850,1995.
236. Yao, Y.J., Khoo, K.S., Chungb, M.C.M. and Li, S.F.Y.
“Determination of isoelectric points of acidic and basic proteins by
capillary electrophoresis”, J. Chrom. A, Vol. 680, No. 2, pp. 431-435,1994.
237. Yiu, H.H.P., Wright, P.A. and Botting, N.P. “Enzyme immobilization
using SBA-15 mesoporous molecular sieves with functionalisedsurfaces”, J. Mol. Catal. B., Vol. 15, No. 1-3, pp. 81-92, 2001a.
167
238. Yiu, H.H.P., Botting, C.H., Botting, N.P. and Wright, P.A. “Size
selective protein adsorption on thiol-functionalised SBA-15
mesoporous molecular sieve”, Phys. Chem.Chem. Phys., Vol. 3,pp. 2983-2985, 2001b.
239. Yiu, H.H.Y. and Wright, P.A. “Enzymes supported on ordered
mesoporous solids: a special case of an inorganic-organic hybrid”,J. Mater. Chem., Vol. 15, pp. 3690-3700, 2005.
240. Zhao, B., Shi, B. and Ma, R. “Immobilization of papain on the
mesoporous molecular sieve MCM-48”, Eng. Life Sci., Vol. 5, No. 5,pp. 436-441, 2005.
241. Zhao, D., Feng, J., Huo, Q., Melosh, N., Fredrickson, G.H., Chmelka, B.F.
and Stucky, G.D. “Triblock copolymer syntheses of mesoporous silica
with priodic 50 to 300 angstrom pores”, Science, Vol. 279, No. 5350,
pp. 548-552, 1998a.
242. Zhao, D., Huo, Q., Feng, J., Chmelka, B.F. and Stucky, G.D.
“Nonionic triblock and star diblock copolymer and oligomeric
surfactant syntheses of highly ordered,hydrothermally stable,
mesoporous silica structures”, J. Am. Chem. Soc., Vol. 120, No. 24,pp. 6024-6036, 1998b.
243. Zhao, D., Huo, Q., Feng, J., Kim, J., Han, Y. and Stucky, G.D., “Novel
mesoporous silicates with two-dimensional mesostructure direction
using rigid bolaform surfactants”, Chem. Mater., Vol. 11, No. 10,
pp. 2668-2672, 1999.
244. Zhao, G.J. and Stevens, S.E. “Multiple parameters for the
comprehensive evaluation of the susceptibility of Escherichia coli tothe silver ion”, Biometals, Vol.11, No.1, pp. 27-32, 1998.
245. Zhao, J., O’Daly, J.P., Henkens, R.W., Stonehuerner, J. and
Crumbliss, A.L. “A xanthine oxidase/colloidal gold enzyme electrode
for amperometric biosensor applications”, Biosens. Bioelectron.,Vol. 11, No. 5, pp. 493-502, 1996.
246. Zhao, X.S. and Lu, G.Q. “Modification of MCM-41 by surface
silylation with trimethylchlorosilane and adsorption study”, J. Phys.Chem. B., Vol.102, No. 9, pp. 1556-1561,1998.
247. Zhao, X.S., Bao, X.Y., Guo, W. and Lee, F.Y. “Immobilizing catalysts
on porous materials”, Mater. Today, Vol. 9, No. 3, pp. 32-39, 2006.
168
248. Zheng, Y.J. and Merz, K.M. “Mechanism of the human carbonic
anhydrase II-catalyzed hydration of carbon dioxide”, J. Am. Chem.
Soc., Vol. 114, No. 26, pp.10498-10507, 1992.
249. Zhijian, L., Bandar, F., Schneider, C.J. and Chaffee, A.L. “Stepwise
growth of melamine-based dendrimers into mesopores and their CO2
adsorption properties”, Micropor. Mesopor. Mater., Vol. 111, No.1-3,pp. 536-543, 2008.
250. Zhou, X.C., O'Shea, S.J. and Li, S.F.Y. “Amplified microgravimetric
gene sensor using Au nanoparticle modified oligonucleotides”, Chem.Commun., pp. 953-954, 2000.
251. Zhu, J., Kónya, Z., Puntes, V., Imre K., Miao, C. X., Ager, J.W.,
Alivisatos, A.P. and Somorjai, G.A. “Encapsulation of metal (Au, Ag,
Pt) nanoparticles into the mesoporous SBA-15 structure”, Langmuir,
Vol. 19, No. 10, pp. 4396-4401, 2003.
252. Zhu, X.L. and Sly, W.S. “Carbonic anhydrase IV from human lung.
Purification, characterization, and comparison with membrane
carbonic anhydrase from human kidney”, J. Biol. Chem., Vol. 265,
No.15, pp. 8795-8801, 1990.