All notebooks

OPV light-intensity dependant JV fits with SIMsalabim (fake data)

OPV light-intensity dependant JV fits with SIMsalabim (real data)

Multi-objective BO: OPV light-intensity dependant JV fits with SIMsalabim (real data)

Perovskite light-intensity dependant JV fits with SIMsalabim (fake data)

Perovskite light-intensity dependant JV fits with SIMsalabim (real data)

Multi-objective BO: Perovskite hysteresis JV fits with SIMsalabim (fake data)

Multi-objective BO: Perovskite light-intensity dependant JV and impedance fits with SIMsalabim (fake data)

Bayesian Inference: OPV light-intensity dependant JV fits with SIMsalabim (fake data)

pymoo GA: OPV light-intensity dependant JV fits with SIMsalabim (fake data)

Layer stack optimization with Transfer Matrix Method (TMM)

Layer stack optimization with Transfer Matrix Method (TMM)

Pymoo: Layer stack optimization with Transfer Matrix Method (TMM)

Multi-objective BO: Fit of transient photoluminescence (TrPL) and transient microwave conductivity (trMC) with rate equations

Multi-objective BO: Fit of transient photoluminescence (TrPL) and transient microwave conductivity (trMC) with rate equations

Fit of transient photoluminescence (TrPL) with diffusion and recombination model

Transient absorption spectroscopy fits with rate equation (fake data)

Bayesian Inference: Transient absorption spectroscopy fits with rate equation (fake data)

Fit non ideal diode equation to dark or light JV-curve

pymoo GA: Fit non ideal diode equation to dark JV-curves

Design of Experiment: Optimize perovskite solar cells efficiency

Design of Experiment: Optimize perovskite solar cells efficiency

Design of Experiment: Optimize perovskite solar cells efficiency

Design of Experiment: perovskite thin film optimization PLQY and FWHM

Design of Experiment: perovskite thin film optimization PLQY and FWHM