Rodent Injury on 2,4‐D Pre‐Emergence‐Treated Corn<sup>1</sup>

Raleigh, S. M.; Patterson, R. E.

doi:10.2134/agronj1948.00021962004000050013x

Cited by 1 publication

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“…Thus the % to % (p to n) transition boundary may be defined as the locus of log Px2, 1/T points where % = ~e. This leads to log Pp, --2 2.303R T" Jr -2-log ..... [8] o-o~ This locus of log Px2, 1/T points plots as a straight line with slope -n/2[Q e -QJ2.303R] and intercept n/2 log z%/~%. Geometrically, it is the projected intersection of log % and log ze planar sheets of Fig.…”

Section: Conduction Domains In Log Px2 1/t Spacementioning

confidence: 99%

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Conduction Domains for Solid Electrolytes

Patterson

1971

J. Electrochem. Soc.

182

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The use of solid oxide electrolytes for determining oxygen concentrations in liquid metals has motivated much research of solid electrolyte properties over wide ranges of chemical potential and temperature. A useful scheme for assessing the electrolytic properties of solid electrolytes is that of plotting electronic and electrolytic conduction domains simultaneously with proposed application domains on chemical potential vs. 1/T diagrams. Accordingly, the concept and theoretical origins of conduction domains for solid electrolyte materials are outlined briefly. The origin and usefulness of the concept is discussed with respect to proposed applications of these solid electrolyte materials. Conduction domains for a number of known solid electrolytes are deduced from various conductivity and galvanic cell measurements and the results are presented in the form of conduction domain maps in log Px2 normalvs.1/T space. These maps constitute a survey of present status of knowledge regarding the materials considered. The solid electrolyte materials normalAgBr , normalAgI , normalCuBr , normalCuI , normalCuCl , CaF2 , Zr0.85Ca0.15O1.85 , and Th0.85Y0.15O1.925 are discussed. Controversial implications and interpretations of conflicting data are pointed out.

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Section: Conduction Domains In Log Px2 1/t Spacementioning

confidence: 99%

“…Also a limited number of the reported applications have made use of the ion-pumping ability of the solid electrolytes. The most important metallurgical applications of these coulometric titration techniques involve the study of selected metal (8) and metalloid (9,10) diffusivities in liquid and solid metallic hosts.…”

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confidence: 99%