In situ/operando vibrational spectroscopy for the investigation of advanced nanostructured electrocatalysts
Electrochemical energy conversion via electrocatalysis offers promising solutions to tackle
problems of global energy crisis and environmental issues. The rational design of efficient …
problems of global energy crisis and environmental issues. The rational design of efficient …
The significance of properly reporting turnover frequency in electrocatalysis research
For decades, turnover frequency (TOF) has served as an accurate descriptor of the intrinsic
activity of a catalyst, including those in electrocatalytic reactions involving both fuel …
activity of a catalyst, including those in electrocatalytic reactions involving both fuel …
New insights into working nanostructured electrocatalysts through operando spectroscopy and microscopy
Highlights•Operando spectroscopy can give vital structural/chemical information on a
working electrocatalyst.•A synergistic combination of complementary techniques is required …
working electrocatalyst.•A synergistic combination of complementary techniques is required …
Morphology‐Tuned Pt3Ge Accelerates Water Dissociation to Industrial‐Standard Hydrogen Production over a wide pH Range
The discovery of novel materials for industrial‐standard hydrogen production is the present
need considering the global energy infrastructure. A novel electrocatalyst, Pt3Ge, which is …
need considering the global energy infrastructure. A novel electrocatalyst, Pt3Ge, which is …
Spectroscopy from machine learning by accurately representing the atomic polar tensor
P Schienbein - Journal of Chemical Theory and Computation, 2023 - ACS Publications
Vibrational spectroscopy is a key technique to elucidate microscopic structure and
dynamics. Without the aid of theoretical approaches, it is, however, often difficult to …
dynamics. Without the aid of theoretical approaches, it is, however, often difficult to …
How to probe structure, kinetics and dynamics at complex interfaces in situ and operando by optical spectroscopy
A Erbe, S Nayak, YH Chen, F Niu… - … Surface Science and …, 2017 - ntnuopen.ntnu.no
Techniques using light in a large spectral range are well suited to study interfaces. Photon-
based techniques have a special strength when it comes to application in situ and …
based techniques have a special strength when it comes to application in situ and …
Electrode potential dependent desolvation and resolvation of germanium (100) in contact with aqueous perchlorate electrolytes
F Niu, R Schulz, AC Medina, R Schmid… - Physical Chemistry …, 2017 - pubs.rsc.org
The electrode potential dependence of the hydration layer on an n-Ge (100) surface was
studied by a combination of in situ and operando electrochemical attenuated total reflection …
studied by a combination of in situ and operando electrochemical attenuated total reflection …
Vibrational spectroscopic study of pH dependent solvation at a Ge (100)-water interface during an electrode potential triggered surface termination transition
F Niu, M Rabe, S Nayak, A Erbe - The Journal of Chemical Physics, 2018 - pubs.aip.org
The charge-dependent structure of interfacial water at the n-Ge (100)-aqueous perchlorate
interface was studied by controlling the electrode potential. Specifically, a joint attenuated …
interface was studied by controlling the electrode potential. Specifically, a joint attenuated …
Controlling amphipathic peptide adsorption by smart switchable germanium interfaces
LM Baumgartner, A Erbe, AL Boyle… - Physical Chemistry …, 2022 - pubs.rsc.org
The in situ control of reversible protein adsorption to a surface is a critical step towards
biofouling prevention and finds utilisation in bioanalytical applications. In this work …
biofouling prevention and finds utilisation in bioanalytical applications. In this work …