화학공학소재연구정보센터
검색결과 : 17건
No. Article
1 Describing Temperature-Dependent Self-Diffusion Coefficients and Fluidity of 1-and 3-Alcohols with the Compensated Arrhenius Formalism
Fleshman AM, Forsythe GE, Petrowsky M, Frech R
Journal of Physical Chemistry B, 120(37), 9959, 2016
2 Molecular Model of Self Diffusion in Polar Organic Liquids: Implications for Conductivity and Fluidity in Polar Organic Liquids and Electrolytes
Frech R, Petrowsky M
Journal of Physical Chemistry B, 118(9), 2422, 2014
3 Application of the Compensated Arrhenius Formalism to Fluidity Data of Polar Organic Liquids
Petrowsky M, Fleshman AM, Frech R
Journal of Physical Chemistry B, 117(10), 2971, 2013
4 Concentration Dependence of Molal Conductivity and Dielectric Constant of 1-Alcohol Electrolytes Using the Compensated Arrhenius Formalism
Fleshman AM, Petrowsky M, Frech R
Journal of Physical Chemistry B, 117(17), 5330, 2013
5 Mass and Charge Transport in Cyclic Carbonates: Implications for Improved Lithium Ion Battery Electrolytes
Petrowsky M, Ismail M, Glatzhofer DT, Frech R
Journal of Physical Chemistry B, 117(19), 5963, 2013
6 Application of the Compensated Arrhenius Formalism To Explain the Dielectric Constant Dependence of Rates for Menschutkin Reactions
Petrowsky M, Glatzhofer DT, Frech R
Journal of Physical Chemistry B, 117(46), 14432, 2013
7 Temperature Dependence of Ion Transport in Dilute Tetrabutylammonium Triflate-Acetate Solutions and Self-Diffusion in Pure Acetate Liquids
Bopege DN, Petrowsky M, Fleshman AM, Frech R, Johnson MB
Journal of Physical Chemistry B, 116(1), 71, 2012
8 Ion Transport with Charge-Protected and Non-Charge-Protected Cations in Alcohol-Based Electrolytes Using the Compensated Arrhenius Formalism. Part I: Ionic Conductivity and the Static Dielectric Constant
Petrowsky M, Fleshman A, Frech R
Journal of Physical Chemistry B, 116(19), 5760, 2012
9 Molecular and System Parameters Governing Mass and Charge Transport in Polar Liquids and Electrolytes
Petrowsky M, Fleshman A, Ismail M, Glatzhofer DT, Bopege DN, Frech R
Journal of Physical Chemistry B, 116(33), 10098, 2012
10 Extending the compensated Arrhenius formalism to concentrated alcohol electrolytes: Arrhenius vs. non-Arrhenius behavior
Fleshman AM, Petrowsky M, Jernigen JD, Bokalawela RSP, Johnson MB, Frech R
Electrochimica Acta, 57, 147, 2011