University of Illinois / North-Holland Personal Library / /
IndustryTerm
physical and chemical nonequilibrium systems / stationary solution / chemical pathway / stock solution / immersion oil / transferred energy / chemical equilibrium / separate chemical activation process / real-time measurements / chemical nonequilibrium conditions / chemical dynamics / primordial solution / chemical nonequilibrium condition / uorescence energy transfer / aqueous solution / physical and chemical nonequilibrium / nonequilibrium systems / simulated hydrothermal pore systems / uorescence resonance energy transfer / chemical reactions / local free energy considerations / translational products / energy-rich nucleotides / approximate solution / chemical process / high-resolution sonar imaging / chemical steady state / energy transfer / analytic solution / chemical and physical nonequilibrium processes / steady-state solution / potential catalytic energy traps / /
NaturalFeature
Yellowstone Lake / /
Organization
Center for Theoretical Physics / Ludwig-Maximilians-Universität Munich Initiative Functional Nanosystems / Physics Department / Ludwig-Maximilians-Universität München / University of Illinois / Center for Nanoscience / /
Person
Michael Nash / Severin Schinkb / David Smith / Ann Phys / Moritz Kreysing / Ulrich Gerlandb / Christof B. Masta / Ingo Stein / Kaiser Akad Wiss / Philip Tinnefeld / Nigel Goldenfeld / Mario Herzog / Ernesto di Mauro / Dieter Brauna / /
Position
prearranged editor / predictive theoretical model for our system / Author / /
Escalation of polymerization in a thermal gradient Christof B. Masta,1, Severin Schinkb,1, Ulrich Gerlandb, and Dieter Brauna,2 a Systems Biophysics, Physics Department, Center for Nanoscience, and bArnold-Sommerfeld-Cen