Add to ORKGSmall polaron formation is known to limit ground-state mobilities in metal oxide photocatalysts. However, the role of small polaron formation in the photoexcited state and how this affects the photoconversion efficiency has yet to be determined. Here, transient femtosecond extreme-ultraviolet measurements suggest that small polaron localization is responsible for the ultrafast trapping of photoexcited carriers in haematite (α-Fe2O3). Small polaron formation is evidenced by a sub-100 fs splitting of the Fe 3p core orbitals in the Fe M2,3 edge. The small polaron formation kinetics reproduces the triple-exponential relaxation frequently attributed to trap states. However, the measured spectral signature resembles only the spectral predictions ...
Photo-excited charge carrier dynamics in hematite (α-Fe2O3), ranging from 10–8 to 10–5 s, was invest...
Intrinsic doping of hematite through the inclusion of oxygen vacancies (VO) is being increasingly ex...
State-of-the-art first-principles calculations are implemented and utilized in order to optimize or ...
Small polaron formation is known to limit ground-state mobilities in metal oxide photocatalysts. How...
Polaron formation and hopping is known to diminish carrier mobility in the ground state of metal oxi...
Hematite has long been a promising photoanode material for photoelectrochem. water splitting due to ...
Small polaron formation limits the mobility and lifetimes of photoexcited carriers in metal oxides. ...
Hematite (α-Fe2O3) is the most studied artificial oxygen-evolving photo-anode and yet its efficiency...
The thermally activated, incoherent hopping of small electron polarons generated by continuous illum...
Understanding and controlling the relaxation process of optically excited charge carriers in solids ...
Understanding and controlling the relaxation process of optically excited charge carriers in solids ...
The ultrafast dynamics of excited states in cerium oxide are investigated to access the early moment...
Femtosecond transient reflectivity and absorption are used to measure the carrier lifetimes in α‐Fe2...
The optical band gap is a major selection criterion for an absorber in photocatalytic water splitti...
Intrinsic doping of hematite through the inclusion of oxygen vacancies (VO) is being increasingly ex...
Photo-excited charge carrier dynamics in hematite (α-Fe2O3), ranging from 10–8 to 10–5 s, was invest...
Intrinsic doping of hematite through the inclusion of oxygen vacancies (VO) is being increasingly ex...
State-of-the-art first-principles calculations are implemented and utilized in order to optimize or ...
Small polaron formation is known to limit ground-state mobilities in metal oxide photocatalysts. How...
Polaron formation and hopping is known to diminish carrier mobility in the ground state of metal oxi...
Hematite has long been a promising photoanode material for photoelectrochem. water splitting due to ...
Small polaron formation limits the mobility and lifetimes of photoexcited carriers in metal oxides. ...
Hematite (α-Fe2O3) is the most studied artificial oxygen-evolving photo-anode and yet its efficiency...
The thermally activated, incoherent hopping of small electron polarons generated by continuous illum...
Understanding and controlling the relaxation process of optically excited charge carriers in solids ...
Understanding and controlling the relaxation process of optically excited charge carriers in solids ...
The ultrafast dynamics of excited states in cerium oxide are investigated to access the early moment...
Femtosecond transient reflectivity and absorption are used to measure the carrier lifetimes in α‐Fe2...
The optical band gap is a major selection criterion for an absorber in photocatalytic water splitti...
Intrinsic doping of hematite through the inclusion of oxygen vacancies (VO) is being increasingly ex...
Photo-excited charge carrier dynamics in hematite (α-Fe2O3), ranging from 10–8 to 10–5 s, was invest...
Intrinsic doping of hematite through the inclusion of oxygen vacancies (VO) is being increasingly ex...
State-of-the-art first-principles calculations are implemented and utilized in order to optimize or ...