Kooij

Van der Kooij D, JP Oranje, WAM Hijnen (1982) Growth of Pseudomonad aeruguinosa in tap water in relation to utilization of substrates at concentrations of few micrograms per liter. Appl Environ Microbiol 44 1086-1095. 

Van der Kooij D, WAM Hijnen (1984) Substrate utilization by an oxalate-consuming Spirillum species in relation to its growth in ozonated water. Appl Environ Microbiol 47 551-559. 

Van der Kooij D, A Visser, JP Oranje (1980) Growth of Aeromonas hydrophila at low concentrations of substrates added to tap water. Appl Environ Microbiol 39 1198-1204. 

Varit Veen A, Gommers D, Verbrugge SJC, Wollmer P, Mouton JW, Kooij PPM, Lachmann B (1999) Lung clearance of intratracheally instilled Tc-99m-tobramycin using pulmonary surfactant as vehicle. Br J Pharmacol 126 1091-1096. 

Noordermeer MA, van der Goot W, van Kooij AJ, Veldsink JW, Veldink GA, Vliegenthart JFG (2002) Journal of Agricultural and Food Chemistry 50 4270-4274... 

The constancy of k is in close agreement with the assumption that the reaction is unimolecular and not so closely with assumptions that the reaction is bi-, ter-, or quadri-molecular. This may mean that the slow reaction PH3=P+3H, is followed by the very rapid formation of molecules of hydrogen and phosphorus or it may mean that the reaction actually proceeds only in the adsorbed film of gas on the surface of the containing vessel, and that the velocity of the reaction in the adsorbed system is proportional to the press, of the gas in the interior of the vessel. The effect of the nature of the surface of the containing vessel must therefore be of importance, and D. M. Kooij found that the velocity coefficient in a new vessel was 0-0023, in an old vessel it was 0-0064. He also measured the effect of temp, on the velocity constant k, and found ... 

D. Schouten, M. Van der Kooij, J. Muller, M. N. Pieters, M. K. Bijsterbosch, and T. J. C. Van Berkel, Development of lipoprotein-like lipid particles for drug targeting neo-high density lipoproteins. Mol. Pharmacol. 44 486-492 (1993). 

Metal concentrations and metal activities in the pore water are dependent upon both the metal concentration in the solid phase and the composition of both the solid and the liquid phase. In matrix extrapolation, and with emphasis on the pore water exposure route, it is therefore of great practical importance to have a quantitative understanding of the distribution of heavy metals over the solid phase and the pore water. A relatively simple approach for calculating the distribution of heavy metals in soils is the equilibrium-partitioning (EP) concept (Shea 1988 van der Kooij et al. 1991). The EP concept assumes that chemical concentrations among environmental compartments are at equilibrium and that the partitioning of metals among environmental compartments can be predicted based on partition coefficients. The partition coefficient, Kp, used to calculate the distribution of heavy metals over solid phase and pore water is defined as... 

De Cock, J., K. Westveer, D. Heederik, E. te Velde and R. van Kooij (1994). Time to pregnancy and occupational exposure to pesticides in fruit growing in the Netherlands, Occup. Environ. Med., 51, 693-699. 

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