Detail

µ-FOCUS 600 NAP

Small Spot µ-FOCUS 600 X-Ray Monochromator for Near Ambient Pressure Applications

The small spot monochromator µ-FOCUS 500/600 NAP is developed for XPS measurements in near ambient pressure regime. The X-ray monochromator operates according to Bragg´s Law of X-ray diffraction. A single wavelength of X-rays is reflected from a quartz single crystal mirror at a specific angle of reflection. The mirror has a 500 mm Rowland circle diameter for µ-FOCUS 500 NAP and 600 mm for µ-FOCUS 600 NAP, respectively. Due to its overall compactness, the µ-FOCUS 500/600 NAP is suitable for mounting on almost any analysis chambers as a bolt-on component. By using the differentially pumped NAP extension with Si₃N₄window, XPS measurements under gas atmospheres of up to 30 mbar can be carried out.

The µ-FOCUS 500/600 NAP monchromator is equipped with microfocus high performance X-ray source XR 50 MF which is specially designed for the use with the monochromator. This small spot source is equipped with Al anode. Thus, µ-FOCUS 500/600 NAP monochromator togeher with the XR 50 MF microfocus X-ray source is perfectly suited for small spot, high resolution and high intensity XPS measurements under NAP conditions.

KEY FEATURES

Spot size on the sample: between 200 µm and 1 mm
NAP extension with Si₃N₄ window for XPS measurements under gas atmospheres up to 30 mbar
Monochromatic Al Kα excitation with high energy resolution
High photon flux up to 1.9 x 10¹⁰ photons/s
Rowland circle with 500/600 mm
Pumping port for differential pumping

MADE FOR THESE METHODS
SPECIFICATIONS
RELATED PRODUCTS
PUBLICATIONS
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MADE FOR THESE METHODS

2

NAP-XPS and NAP-UPS

X-ray Photoelectron Spectroscopy (XPS) and Ultraviolet Photoelectron Spectroscopy (UPS) are well-established and versatile techniques commonly used...

XPS, Chemical Mapping

X-ray photoelectron spectroscopy (XPS) is a widely used method for chemical analysis. By surface imaging or mapping a chemical map can be recorded

SPECIFICATIONS

µ-FOCUS 600 NAP

Operation

Maximum Anode Voltage	15 kV
Dual Anode	n.a.
Working Conditions	UHV and NAP
Required Accessories	CCX 70 Isolation Unit Differential pumping Closed-Cycle Water Cooling System
Optional Accessories	n.a.
Monochromated	Yes
Power	180 W for Al anode

Performance

Cross Talk	n.a.
Photon Flux	1.9 x 10¹⁰ photons/s
Spot Size	variable spot size: 200 µm - 1 mm

Mounting

Insertion Depth	n.a. max. chamber port length for µ-FOCUS 500: 177 mm max. chamber port length for µ-FOCUS 600: 254 mm
Anode Materials Available	Al anode
Power Supply	UXC 1000 Universal X-Ray Source Control
Mounting Flange	DN100 CF
Rowland Cirlce Diameter	500 mm for µ-FOCUS 500 NAP 600 mm for µ-FOCUS 600 NAP

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PUBLICATIONS

(2018) Electrifying model catalysts for understanding electrocatalytic reactions in liquid electrolytes
Electrocatalysis is at the heart of our future transition to a renewable energy system. Most energy storage and conversion technologies for renewables rely on electrocatalytic processes and, with increasing availability of cheap electrical energy from renewables, chemical production will witness electrification in the near future1,2,3. However, our fundamental understanding of electrocatalysis lags behind the field of classical heterogeneous catalysis that has been the dominating chemical technology for a long time. Here, we describe a new strategy to advance fundamental studies on electrocatalytic materials. We propose to ‘electrify’ complex oxide-based model catalysts made by surface science methods to explore electrocatalytic reactions in liquid electrolytes. We demonstrate the feasibility of this concept by transferring an atomically defined platinum/cobalt oxide model catalyst into the electrochemical environment while preserving its atomic surface structure. Using this approach, we explore particle size effects and identify hitherto unknown metal–support interactions that stabilize oxidized platinum at the nanoparticle interface. The metal–support interactions open a new synergistic reaction pathway that involves both metallic and oxidized platinum. Our results illustrate the potential of the concept, which makes available a systematic approach to build atomically defined model electrodes for fundamental electrocatalytic studies.

F. Faisal, C.Stumm, M. Bertram, F. Waidhas, Y. Lykhach, S.Cherevko, F. Xiang, M. Ammon,
M. Vorokhta, B. Šmíd, T. Skála, N. Tsud, A. Neitzel, K. Beranová, K. C. Prince, S. Geiger,
O. Kasian, T. Wähler, R. Schuster, M. A. Schneider, V. Matolín, K. J. J.
Nature Materials volume 17, pages 592–598 (2018)
Read more

DOWNLOADS

4

XR-MF / XR-MF NAP Microfocus X-Ray Source

XR-MF Microfocus X-Ray Source — High intensity X-ray source with small spot size.

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UXC 1000 Universal X-Ray Controller for XR 50 MF

UXC 1000 Universal X-Ray Controller for XR 50 MF — Power supply for controlling the μ-FOCUS X-ray source.

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Customer Information Phosphor Schirm

UHV Phosphor Screens — Electron sensitive P20 phosphor screens used for beam alignment e.g. with FOCUS 500 X-Ray Monochromator - handling and specifications.

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Safety Bulletin UXC 1000, XR 50 MF

UXC1000 / CCX70 Customer Bulletin: Checking for Safe Operation — Safety bulletin for UXC 1000 / CCX 70 with XR 50 MF, intended to help meet safety requirements for the purpose of risk reduction.

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