Fritsch, B.B.FritschHutzler, A.A.HutzlerWu, M.M.WuKhadivianazar, S.S.KhadivianazarVogl, L.L.VoglJank, M.M.JankMärz, M.M.MärzSpiecker, E.E.Spiecker2022-03-062022-03-062021https://publica.fraunhofer.de/handle/publica/26761410.1039/D0NA01027HA significant electron-beam induced heating effect is demonstrated for liquid-phase transmission electron microscopy at low electron flux densities using Au nanoparticles as local nanothermometers. The obtained results are in agreement with theoretical considerations. Furthermore, the impact of beam-induced heating on radiolysis chemistry is estimated and the consequences of the effect are discussed.enelectron beamsgold metallographygold nanoparticleshigh resolution transmission electron microscopyradiation chemistrytransmissionAu nanoparticleelectron fluxinduced heatinginduced temperatureliquid phaseelectron670620530journal article