27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
Später ansehen27.05.24 | Vollzeit | Wedel | Helmholtz-Zentrum hereon GmbHThe position entails the development and utilization of a computational framework based on the phase-field methodology for mesoscale simulations of room-temperature metal hydride materials. Important aspects to be studied computationally are hydrogen absorption/desorption kinetics, nucleation as well
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