Novel supported Pd hydrogenation bionanocatalyst for hybrid homogeneous/heterogeneous catalysis
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J. Wood | M. Merroun | K. Deplanche | I. Mikheenko | L. Macaskie | S. Selenska-Pobell | N. J. Creamer | P. Yong | D. Sanyahumbi | K. Pollmann
[2] K. Fahmy,et al. Secondary structure and Pd(II) coordination in S-layer proteins from Bacillus sphaericus studied by infrared and X-ray absorption spectroscopy. , 2006, Biophysical journal.
[3] Manufacturing and characterization of Pd nanoparticles formed on immobilized bacterial cells , 2006, Letters in applied microbiology.
[4] T. Beveridge,et al. Native Cell Wall Organization Shown by Cryo-Electron Microscopy Confirms the Existence of a Periplasmic Space in Staphylococcus aureus , 2006, Journal of bacteriology.
[5] L. Macaskie,et al. Biorecovered precious metals from industrial wastes: single-step conversion of a mixed metal liquid waste to a bioinorganic catalyst with environmental application. , 2006, Environmental science & technology.
[6] Katrin Pollmann,et al. Novel surface layer protein genes in Bacillus sphaericus associated with unusual insertion elements. , 2005, Microbiology.
[7] L. Hall,et al. A novel non line-of-sight method for coating hydroxyapatite onto the surfaces of support materials by biomineralization. , 2005, Journal of biotechnology.
[8] L. Macaskie,et al. Reduction of Cr(VI) by immobilized cells of Desulfovibrio vulgaris NCIMB 8303 and Microbacterium sp. NCIMB 13776. , 2005, Biotechnology and bioengineering.
[9] T. Beveridge,et al. Cryo‐electron microscopy reveals native polymeric cell wall structure in Bacillus subtilis 168 and the existence of a periplasmic space , 2005, Molecular microbiology.
[10] J. Farr,et al. Reduction of Cr(VI) by “palladized” biomass of Desulfovibrio desulfuricans ATCC 29577 , 2004, Biotechnology and bioengineering.
[11] I. Mikheenko,et al. Sulphate-reducing bacteria, palladium and the reductive dehalogenation of chlorinated aromatic compounds , 2003, Biodegradation.
[12] J. Wood,et al. Monitoring of Itaconic Acid Hydrogenation in a Trickle Bed Reactor Using Fiber-Optic Coupled Near-Infrared Spectroscopy , 2003, Applied spectroscopy.
[13] I. R. Harris,et al. Bioreduction and biocrystallization of palladium by Desulfovibrio desulfuricans NCIMB 8307 , 2002, Biotechnology and bioengineering.
[14] D. Goodman,et al. Oxidation Catalysis by Supported Gold Nano-Clusters , 2002 .
[15] W. Eberhardt. Clusters as new materials , 2002 .
[16] M. Callow,et al. Effect of nutrient limitation on biofilm formation and phosphatase activity of a Citrobacter sp. , 2002, Microbiology.
[17] P. Riello,et al. Nanostructure of Pd/SiO2 supported catalysts , 2001 .
[18] Wolfgang Pompe,et al. Electron-Beam Induced Formation of Highly Ordered Palladium and Platinum Nanoparticle Arrays on the S Layer of Bacillus sphaericus NCTC 9602 , 2001 .
[19] S. Nishimura. Handbook of Heterogeneous Catalytic Hydrogenation for Organic Synthesis , 2001 .
[20] L. Hall,et al. [20] Study of biofilm within a packed-bed reactor by theee-dimensional magnetic resonance imaging , 2001 .
[21] W. Herrmann,et al. Applied homogeneous catalysis with organometallic compounds : a comprehensive handbook , 2017 .
[22] J. Kollár,et al. Size-dependent paramagnetic-ferromagnetic phase transition in palladium clusters , 2000 .
[23] Paul Mulvaney,et al. Silica encapsulation of quantum dots and metal clusters , 2000 .
[24] S. Yamada,et al. Anomalous magnetic polarization effect of Pd and Au nano-particles , 1999 .
[25] Vinzenz Brendler,et al. ROBL – a CRG beamline for radiochemistry and materials research at the ESRF , 1999 .
[26] J. Walter,et al. LETTER TO THE EDITOR: Magnetization studies in quasi two-dimensional palladium nanoparticles encapsulated in a graphite host , 1999 .
[27] T. Shinohara,et al. Size dependent magnetization of PdFe fine particles , 1999 .
[28] V. Miteva,et al. Selective accumulation of heavy metals by three indigenous Bacillus strains, B. cereus, B. megaterium and B. sphaericus, from drain waters of a uranium waste pile , 1999 .
[29] R. Baquero,et al. FERROMAGNETISM IN 4D (TC, RU, RH, PD) AND 5D (IR, PT) TRANSITION-METAL MONOLAYERS ON A CU(001) SUBSTRATE , 1999 .
[30] William Wiley Navarre,et al. Surface Proteins of Gram-Positive Bacteria and Mechanisms of Their Targeting to the Cell Wall Envelope , 1999, Microbiology and Molecular Biology Reviews.
[31] A. Bliek,et al. Gas–solid adhesion and solid–solid agglomeration of carbon supported catalysts in three phase slurry reactors , 1999 .
[32] Martin Reinhard,et al. Hydrodechlorination and hydrogenation of aromatic compounds over palladium on alumina in hydrogen-saturated water , 1998 .
[33] A. Ankudinov,et al. REAL-SPACE MULTIPLE-SCATTERING CALCULATION AND INTERPRETATION OF X-RAY-ABSORPTION NEAR-EDGE STRUCTURE , 1998 .
[34] D. Koningsberger,et al. The “invisible” metal particles in catalysis , 1997 .
[35] T. Taniyama,et al. Ferromagnetism of Pd fine particles , 1997 .
[36] T. Taniyama,et al. Observation of 4d ferromagnetism in free-standing Pd fine particles , 1997 .
[37] J. Clark,et al. Heterogeneous Catalysis in Liquid Phase Transformations of Importance in the Industrial Preparation of Fine Chemicals , 1997 .
[38] John Meurig Thomas. Principles and practice of heterogeneous catalysis , 1996 .
[39] J. Winterbottom,et al. Study of mass transfer characteristics of a cocurrent downflow bubble column reactor using hydrogenation of itaconic acid , 1996 .
[40] T. Kai,et al. Effect of copious vacancies on magnetims of Pd , 1996 .
[41] T. Taniyama,et al. Intraparticle structure of Pd fine particles , 1995 .
[42] R. Empson,et al. Enzymatically‐mediated uranium accumulation and uranium recovery using a Citrobacter sp. Immobilised as a biofilm within a plug‐flow reactor , 1995 .
[43] Cox,et al. Magnetism in 4d-transition metal clusters. , 1994, Physical review. B, Condensed matter.
[44] John M. Winterbottom,et al. The cocurrent downflow contactor (CDC) reactor-chemically enhanced mass transfer & reaction studies for slurry & fixed bed catalytic hydrogenation , 1992 .