HIPPIE: a new platform for ambient-pressure X-ray photoelectron spectroscopy at the MAX IV Laboratory.
Suyun ZhuMattia ScardamagliaJan KundsenRami SankariHamed TarawnehRobert TempertonLouisa PickworthFilippo CavalcaChunlei WangHéloïse TissotJonas WeissenriederBenjamin HagmanJohan GustafsonSarp KayaFredrik LindgrenIda KällquistJulia MaibachMaria HahlinVirginia BoixTamires GalloFoqia RehmanGiulio D'AcuntoJoachim SchnadtAndrey ShavorskiyPublished in: Journal of synchrotron radiation (2021)
HIPPIE is a soft X-ray beamline on the 3 GeV electron storage ring of the MAX IV Laboratory, equipped with a novel ambient-pressure X-ray photoelectron spectroscopy (APXPS) instrument. The endstation is dedicated to performing in situ and operando X-ray photoelectron spectroscopy experiments in the presence of a controlled gaseous atmosphere at pressures up to 30 mbar [1 mbar = 100 Pa] as well as under ultra-high-vacuum conditions. The photon energy range is 250 to 2200 eV in planar polarization and with photon fluxes >1012 photons s-1 (500 mA ring current) at a resolving power of greater than 10000 and up to a maximum of 32000. The endstation currently provides two sample environments: a catalysis cell and an electrochemical/liquid cell. The former allows APXPS measurements of solid samples in the presence of a gaseous atmosphere (with a mixture of up to eight gases and a vapour of a liquid) and simultaneous analysis of the inlet/outlet gas composition by online mass spectrometry. The latter is a more versatile setup primarily designed for APXPS at the solid-liquid (dip-and-pull setup) or liquid-gas (liquid microjet) interfaces under full electrochemical control, and it can also be used as an open port for ad hoc-designed non-standard APXPS experiments with different sample environments. The catalysis cell can be further equipped with an IR reflection-absorption spectrometer, allowing for simultaneous APXPS and IR spectroscopy of the samples. The endstation is set up to easily accommodate further sample environments.
Keyphrases
- high resolution
- ionic liquid
- mass spectrometry
- single cell
- single molecule
- cell therapy
- air pollution
- dual energy
- particulate matter
- gold nanoparticles
- room temperature
- solid state
- magnetic resonance imaging
- high throughput
- social media
- magnetic resonance
- tandem mass spectrometry
- carbon dioxide
- high performance liquid chromatography