Characterization of samarium thin films molecular plated from N,N-dimethylformamide solutions onto stainless steel substrates, with either mirrorlike or brushed finishes, was carried out using a Thermo Scientific K-Alpha x-ray photoelectron spectrometer. Survey scans of the two specimens showed the presence of samarium, carbon, and oxygen with minor amounts of sodium. High-resolution spectra were then taken of the Sm 3d, O 1s, and C 1s regions. The chemical compositions of the two samples were found to be very similar, with the key difference being the relative amounts of two carbon species. Spectra from the survey and narrow high-resolution scans of the Sm 3d, O 1s, and C 1s regions are reported herein.

Topics
Thin films, Ion source, Chemical elements, Electrochemistry, Physisorption, K-alpha, Surface science, X-ray photoelectron spectroscopy, Chemical compounds, Chemisorption

  • Accession #: 01483, 01484

  • Technique: XPS

  • Host Material: Molecular Sm thin film

  • Instrument: Thermo Scientific K-Alpha

  • Major Elements in Spectra: Sm, C, O

  • Minor Elements in Spectra: Na

  • Published Spectra: 8

  • Spectra in Electronic Record: 8

  • Spectral Category: Comparison

Oak Ridge National Laboratory’s (ORNL) Radiochemical Engineering Development Center (REDC) produces actinide thin films for a variety of scientific programs around the world (Refs. 1–4). The Californium Rare Isotope Breeder Upgrade (CARIBU) program at Argonne National Laboratory utilizes a 252Cf thin film as a fission fragment source produced at REDC to provide the Argonne Tandem Linac Accelerator System with beams of neutron-rich nuclei. In order to achieve a high fission fragment flux for the experiments run under the CARIBU program, the 252Cf films must be as thin and uniform as possible to minimize the self-attenuation of fission fragments in the thin film itself. A slight increase in thickness can lead to dramatically reduced fission fragment fluxes (Ref. 3). It is important to understand how current actinide thin film production techniques can be optimized to yield high-purity thin films with the desired morphologies. The most recent CARIBU sources have been produced by molecular plating californium from ammonium acetate solutions (Refs. 1–4). Previous work at ORNL using samarium as a surrogate for californium showed that molecular plating from ammonium acetate produced depositions with thicknesses of roughly 5 μm and only ∼50% area coverages of the substrate (Ref. 3). Characterization of the samarium thin films using an x-ray photoelectron spectrometer (XPS) gave evidence that the depositions were composed of samarium acetate rather than pure samarium oxide/hydroxide, which the literature suggests the samarium should deposit as (Refs. 3 and 4).

N,N-dimethylformamide (DMF) was recently investigated as an alternative molecular plating solvent by Vascon et al.5,6 They reported that DMF produced higher quality lanthanide thin films in terms of morphology compared with typical molecular plating solvents. They also noted that the surface roughness of the deposition substrates had a noticeable effect on the morphology of the thin films produced. For these reasons, it was of interest to investigate DMF as a potential molecular plating solvent for CARIBU source production. Although the effect DMF had on the morphology of deposition was investigated by Vascon, whether the elemental and chemical composition were also impacted by the surface roughness was not. XPS measurements were performed to answer this question.

Initial studies were conducted with samarium as a surrogate for californium since it is nonradioactive and easier to handle. Samarium itself has applications as a component of magnetic, catalytic, and optical materials. It is also an important element in the nuclear fuel cycle since it is a major fission product and neutron poison.

Two different surface finishes, mirrorlike (#8 finish) and brushed (#4 finish), were utilized for thin film molecular plating with DMF to evaluate the effect of surface finish on the morphology and chemical composition of the depositions.

XPS results from the samarium molecular plating in DMF exhibited noticeable differences in surface composition for the two surfaces. Specifically, the relative amounts of different carbon species were different. Although the two samples had carbon peaks at ∼285 eV (C-to-C bond) and ∼290 eV (carbonate-type C bond), the mirrorlike finish sample had a significantly higher peak at ∼285 eV compared with its peak at ∼290 eV. The brushed finish sample had the opposite effect with the peak at ∼290 eV being of higher intensity than the one at ∼285 eV. It was also found that the mirrorlike finish sample had higher ratios of carbon to samarium for total carbon as well as each peak. It then appeared that the mirrorlike finish produces samarium thin films with higher amounts of trapped solvent and/or degradation products.

The survey scans for both samples confirm that the major elemental constituents present are samarium, carbon, and oxygen along with minor amounts of sodium. The sodium trace contamination could arise from a variety of sources, such as generally handling, the hydrochloric acid solutions that are used to dissolve SmCl3 prior to the molecular plating. Samarium is added to the DMF solution in the form of SmCl3 dissolved in dilute hydrochloric acid.

The Sm 3d regions for both samples show that samarium is deposited as Sm(III). The C 1s regions for both samples have a carbonate-type carbon peak and carbon-to-carbon-type peak. The carbonate-type carbon is likely from chemisorbed species from the DMF and/or solvent degradation products. Similar results have been seen by Vascon et al.5,6 The XPS results suggest that the physisorbed and chemisorbed carbon-containing species are more stable on the mirrorlike-finish substrate than on the brushed-finish substrate. The binding energies of the O 1s peaks for both samples are consistent with oxygen being present in O/C-type to metal-type bonds and/or metal-to-hydroxide bonds.

Host Material: Molecular Sm thin film on mirrorlike stainless steel

CAS Registry #: Unknown

Host Material Characteristics: Homogeneous; solid; unknown crystallinity; unknown conductivity; inorganic compound; thin film

Chemical Name: Sm2O3

Source: Molecular-plated thin film

Host Composition: Sm2O3 thin film, as deposited

Form: Thin film deposited onto the stainless steel substrate with a mirrorlike finish

Structure: Unknown

History and Significance: Samarium was molecular plated as a thin film onto stainless steel substrates from a DMF solution containing 0.444 mM SmCl3. Stainless steel plates with two different surface finishes, either mirrorlike or brushed, were used as the cathode and deposition substrate material. A constant current of 0.7 mA cm−2 was applied for 15 min. A platinum plate was used as the anode. The deposition solution was removed from the electrochemical cell immediately after the deposition was completed. The electrochemical cell was then rinsed twice with DMF. The deposition substrate was then removed, stored in a Petri dish, and allowed to dry in a fume hood.

As Received Condition: As deposited onto a stainless steel plate. The sample was stored in a Petri dish under ambient conditions.

Analyzed Region: 400 μm × 400 μm

Ex Situ Preparation/Mounting: The specimen was examined with a scanning electron microscope prior to analysis.

In Situ Preparation: None

Charge Control: Dual-beam low-energy electron/ion source was used for charge neutralization (Thermo Scientific FG-03). The ion gun current was 150 μA, and the voltage was 45 V.

Temp. During Analysis: 300 K

Pressure During Analysis: <2 × 10−5 Pa

Preanalysis Beam Exposure: 0 s

Host Material: Molecular Sm thin film on brushed stainless steel

CAS Registry #: Unknown

Host Material Characteristics: Homogeneous; solid; unknown crystallinity; unknown conductivity; inorganic compound; thin film

Chemical Name: Sm2O3

Source: Molecular-plated thin film

Host Composition: Sm2O3 thin film, as deposited

Form: Thin film deposited onto the stainless steel substrate with a brushed finish

Structure: Unknown

History and Significance: Samarium was molecular plated as a thin film onto stainless steel substrates from a DMF solution containing 0.444 mM SmCl3. Stainless steel plates with two different surface finishes, either mirrorlike or brushed, were used as the cathode and deposition substrate material. A constant current of 0.7 mA cm−2 was applied for 15 min. A platinum plate was used as the anode. The deposition solution was removed from the electrochemical cell immediately after the deposition was completed. The electrochemical cell was then rinsed twice with DMF. The deposition substrate was then removed, stored in a Petri dish, and allowed to dry in a fume hood.

As Received Condition: As deposited onto a stainless steel plate. The sample was stored in a Petri dish under ambient conditions.

Analyzed Region: 400 μm × 400 μm

Ex Situ Preparation/Mounting: The specimen was examined with a scanning electron microscope prior to analysis.

In Situ Preparation: None

Charge Control: Dual-beam low-energy electron/ion source was used for charge neutralization (Thermo Scientific FG-03). The ion gun current was 150 μA, and the voltage was 45 V.

Temp. During Analysis: 300 K

Pressure During Analysis: <2 × 10−5 Pa

Preanalysis Beam Exposure: 0 s

Manufacturer and Model: Thermo Scientific K-Alpha XPS

Analyzer Type: Spherical sector

Detector: Multichannel resistive plate

Number of Detector Elements: 128

Analyzer Mode: Constant pass energy

Throughput (T = EN): N = −1

Excitation Source Window: 0.25 m Rowland circle monochromator with microfocused x-ray source

Excitation Source: Al Kα monochromatic

Source Energy: 1486.68 eV

Source Strength: 72 W

Source Beam Size: 5 μm × 5 μm

Signal Mode: Analog direct

Incident Angle:

Source-to-Analyzer Angle: 45°

Emission Angle: 45°

Specimen Azimuthal Angle:

Acceptance Angle from Analyzer Axis:

Analyzer Angular Acceptance Width: 45° × 0°

Manufacturer and Model: Thermo Scientific EX-06

Energy: 1000 eV

Current: 10 mA

Current Measurement Method: Faraday cup

Sputtering Species: Ar

Spot Size (unrastered): 400 μm

Comment: The ion gun was utilized to clean the surfaces of the calibration standards.

Energy Scale Correction: The sample was not charging, and no energy-scale correction was needed.

Recommended Energy Scale Shift: 0

Peak Shape and Background Method:thermo avantage software version 4.61 was used to carry out the background subtraction using the Shirley function as well as the determination of the peak positions and full width at half maximum (FWHM) values. The peaks were fitted using Gaussians.

Quantitation Method: The atomic concentrations were calculated using the Al Scofield sensitivity factors in the thermo avantage software version 4.61.

SPECTRAL FEATURES TABLE

Spectrum ID #Element/TransitionPeak Energy
(eV)		Peak Width FWHM
(eV)		Peak Area
(eV × counts/s)		Sensitivity FactorConcentration
(at. %)		Peak Assignment
01483-02 C 1s 284.9 2.2 27 937 1.000 23.1 C-to-C type 
01483-02 C 1s 289.9 2.2 19 959 1.000 16.5 Carbonate type 
01483-03 O 1s 531.8 2.2 151 088 2.930 48.9 O/C type 
01483-04 Na 1s 1071.8 3.8 18 201 8.520 3.3 Residual Na 
01483-04 Sm 3d5/2 1083.4 4.2 208 817 40.370 8.2 Sm(III) 
01483-04 Sm 3d3/2 1110.7 … … … … Sm(III) 
01484-02 C 1s 285.2 2.1 11 834 1.000 11.3 C-to-C type 
01484-02 C 1s 290.1 2.0 20 393 1.000 19.6 Carbonate type 
01484-03 O 1s 531.8 2.0 150 635 2.930 56.4 O/C type 
01484-04 Na 1s 1072.0 0.7 2687 8.520 0.6 Residual Na 
01484-04 Sm 3d5/2 1083.8 4.1 265 388 40.370 12.11 Sm(III) 
01484-04 Sm 3d3/2 1110.7 … … … … Sm(III) 
Spectrum ID #Element/TransitionPeak Energy
(eV)		Peak Width FWHM
(eV)		Peak Area
(eV × counts/s)		Sensitivity FactorConcentration
(at. %)		Peak Assignment
01483-02 C 1s 284.9 2.2 27 937 1.000 23.1 C-to-C type 
01483-02 C 1s 289.9 2.2 19 959 1.000 16.5 Carbonate type 
01483-03 O 1s 531.8 2.2 151 088 2.930 48.9 O/C type 
01483-04 Na 1s 1071.8 3.8 18 201 8.520 3.3 Residual Na 
01483-04 Sm 3d5/2 1083.4 4.2 208 817 40.370 8.2 Sm(III) 
01483-04 Sm 3d3/2 1110.7 … … … … Sm(III) 
01484-02 C 1s 285.2 2.1 11 834 1.000 11.3 C-to-C type 
01484-02 C 1s 290.1 2.0 20 393 1.000 19.6 Carbonate type 
01484-03 O 1s 531.8 2.0 150 635 2.930 56.4 O/C type 
01484-04 Na 1s 1072.0 0.7 2687 8.520 0.6 Residual Na 
01484-04 Sm 3d5/2 1083.8 4.1 265 388 40.370 12.11 Sm(III) 
01484-04 Sm 3d3/2 1110.7 … … … … Sm(III) 
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ANALYZER CALIBRATION TABLE

Spectrum ID #Element/TransitionPeak Energy
(eV)		Peak Width FWHM (eV)Peak Area
(eV × counts/s)		Sensitivity FactorConcentration
(at. %)		Peak Assignment
… Ag 3d5/2 368.2 0.92 818 043 11.054 >95 … 
… Cu 2p3/2 932.6 1.08 1 049 700 15.425 >95 … 
… Au 4f7/2 83.9 1.02 529 237 8.839 >95 … 
Spectrum ID #Element/TransitionPeak Energy
(eV)		Peak Width FWHM (eV)Peak Area
(eV × counts/s)		Sensitivity FactorConcentration
(at. %)		Peak Assignment
… Ag 3d5/2 368.2 0.92 818 043 11.054 >95 … 
… Cu 2p3/2 932.6 1.08 1 049 700 15.425 >95 … 
… Au 4f7/2 83.9 1.02 529 237 8.839 >95 … 
View Large

GUIDE TO FIGURES

Spectrum (Accession) #Spectral RegionVoltage ShiftaMultiplierBaselineComment #b
01483-01 Survey 
01483-02 C 1s 
01483-03 O 1s 
01483-04 Sm 3d5/2, Sm 3d3/2, Na 1s 
01484-01 Survey 
01484-02 C 1s 
01484-03 O 1s 
01484-04 Sm 3d5/2, Sm 3d3/2, Na 1s 
Spectrum (Accession) #Spectral RegionVoltage ShiftaMultiplierBaselineComment #b
01483-01 Survey 
01483-02 C 1s 
01483-03 O 1s 
01483-04 Sm 3d5/2, Sm 3d3/2, Na 1s 
01484-01 Survey 
01484-02 C 1s 
01484-03 O 1s 
01484-04 Sm 3d5/2, Sm 3d3/2, Na 1s 
a

Voltage shift of the archived (as-measured) spectrum relative to the printed figure. The figure reflects the recommended energy-scale correction due to a calibration correction, sample charging, flood gun, or other phenomena.

b

1. Survey scan of an Sm thin film molecular plated onto the mirrorlike-finish stainless steel substrate. 2. High resolution scan of the C 1s region. Two different types of carbon are present. The peak at ∼285 eV is C-to-C type carbon, whereas the peak at ∼290 eV is likely carbonate-type carbon. The carbonate-type carbon is likely from physisorbed and chemisorbed DMF solvent. 3. High resolution scan of the O 1s region. The binding energies of the O 1s peak are consistent with oxygen being present in O/C-type to metal-type bonds and/or metal-to-hydroxide bonds. 4. High resolution scan of the Sm 3d region. Only Sm(III) is present given the positions of the Sm 3d5/2 and 3d3/2 peaks. The shoulder at higher binding energy of the Sm 3d5/2 peak is likely due to a charge transfer effect (Ref. 7). 5. Survey scan of Sm thin film molecular plated onto the brushed-finish stainless steel substrate. 6. High resolution scan of the C 1s region. Two different types of carbon are present. The peak at ∼285 eV is C-to-C type carbon, whereas the peak at ∼290 eV is likely carbonate-type carbon. The carbonate-type carbon is likely from physisorbed and chemisorbed DMF solvent. 7. High resolution scan of the O 1s region. The binding energies of the O 1s peak are consistent with oxygen being present in O/C-type to metal-type bonds and/or metal-to-hydroxide bonds. 8. High resolution scan of the Sm 3d region. Only Sm(III) is present given the positions of the Sm 3d5/2 and 3d3/2 peaks. The shoulder at higher binding energy of the Sm 3d5/2 peak is likely due to a charge transfer effect (Ref. 7).

View Large
. Accession #01483-01Host Material:Molecular Sm thin filmTechnique:XPSSpectral Region:SurveyInstrument:Thermo Fisher K-Alpha XPSExcitation Source:Al Kα monochromaticSource Energy:1486.68 eVSource Strength:72 WSource Size:0.005 mm × 0.005 mmAnalyzer Type:Spherical sector analyzerIncident Angle:0°Emission Angle:45°Analyzer Pass Energy:200 eVAnalyzer Resolution:0.86 eVTotal Signal Accumulation Time:680.5 sTotal Elapsed Time:831 sNumber of Scans:10Effective Detector Width:1 eV
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Accession #01483-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
Accession #01483-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
View Large

. Accession #01483-01Host Material:Molecular Sm thin filmTechnique:XPSSpectral Region:SurveyInstrument:Thermo Fisher K-Alpha XPSExcitation Source:Al Kα monochromaticSource Energy:1486.68 eVSource Strength:72 WSource Size:0.005 mm × 0.005 mmAnalyzer Type:Spherical sector analyzerIncident Angle:0°Emission Angle:45°Analyzer Pass Energy:200 eVAnalyzer Resolution:0.86 eVTotal Signal Accumulation Time:680.5 sTotal Elapsed Time:831 sNumber of Scans:10Effective Detector Width:1 eV
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Accession #01483-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
Accession #01483-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
View Large

Close modal
. . Accession #: 01483-02. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: C 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 201 s. Total Elapsed Time: 291 s. Number of Scans: 20. Effective Detector Width: 0.1 eV
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  • Accession #:01483-02

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: C 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 201 s

  • Total Elapsed Time: 291 s

  • Number of Scans: 20

  • Effective Detector Width: 0.1 eV

. . Accession #: 01483-02. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: C 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 201 s. Total Elapsed Time: 291 s. Number of Scans: 20. Effective Detector Width: 0.1 eV
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  • Accession #:01483-02

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: C 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 201 s

  • Total Elapsed Time: 291 s

  • Number of Scans: 20

  • Effective Detector Width: 0.1 eV

Close modal
. . Accession #: 01483-03. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: O 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 100.5 s. Total Elapsed Time: 145 s. Number of Scans: 10. Effective Detector Width: 0.1 eV
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  • Accession #:01483-03

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: O 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 100.5 s

  • Total Elapsed Time: 145 s

  • Number of Scans: 10

  • Effective Detector Width: 0.1 eV

. . Accession #: 01483-03. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: O 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 100.5 s. Total Elapsed Time: 145 s. Number of Scans: 10. Effective Detector Width: 0.1 eV
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  • Accession #:01483-03

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: O 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 100.5 s

  • Total Elapsed Time: 145 s

  • Number of Scans: 10

  • Effective Detector Width: 0.1 eV

Close modal
. . Accession #: 01483-04. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 901.5 s. Total Elapsed Time: 1080 s. Number of Scans: 30. Effective Detector Width: 0.1 eV
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  • Accession #:01483-04

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 901.5 s

  • Total Elapsed Time: 1080 s

  • Number of Scans: 30

  • Effective Detector Width: 0.1 eV

. . Accession #: 01483-04. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 901.5 s. Total Elapsed Time: 1080 s. Number of Scans: 30. Effective Detector Width: 0.1 eV
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  • Accession #:01483-04

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 901.5 s

  • Total Elapsed Time: 1080 s

  • Number of Scans: 30

  • Effective Detector Width: 0.1 eV

Close modal
. Accession #01484-01Host Material:Molecular Sm thin filmTechnique:XPSSpectral Region:SurveyInstrument:Thermo Fisher K-Alpha XPSExcitation Source:Al Kα monochromaticSource Energy:1486.68 eVSource Strength:72 WSource Size:0.005 mm × 0.005 mmAnalyzer Type:Spherical sector analyzerIncident Angle:0°Emission Angle:45°Analyzer Pass Energy:200 eVAnalyzer Resolution:0.86 eVTotal Signal Accumulation Time:680.5 sTotal Elapsed Time:831 sNumber of Scans:10Effective Detector Width:1 eV
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Accession #01484-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
Accession #01484-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
View Large

. Accession #01484-01Host Material:Molecular Sm thin filmTechnique:XPSSpectral Region:SurveyInstrument:Thermo Fisher K-Alpha XPSExcitation Source:Al Kα monochromaticSource Energy:1486.68 eVSource Strength:72 WSource Size:0.005 mm × 0.005 mmAnalyzer Type:Spherical sector analyzerIncident Angle:0°Emission Angle:45°Analyzer Pass Energy:200 eVAnalyzer Resolution:0.86 eVTotal Signal Accumulation Time:680.5 sTotal Elapsed Time:831 sNumber of Scans:10Effective Detector Width:1 eV
View largeDownload slide

Accession #01484-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
Accession #01484-01
Host Material: Molecular Sm thin film 
Technique: XPS 
Spectral Region: Survey 
Instrument: Thermo Fisher K-Alpha XPS 
Excitation Source: Al Kα monochromatic 
Source Energy: 1486.68 eV 
Source Strength: 72 W 
Source Size: 0.005 mm × 0.005 mm 
Analyzer Type: Spherical sector analyzer 
Incident Angle: 0° 
Emission Angle: 45° 
Analyzer Pass Energy: 200 eV 
Analyzer Resolution: 0.86 eV 
Total Signal Accumulation Time: 680.5 s 
Total Elapsed Time: 831 s 
Number of Scans: 10 
Effective Detector Width: 1 eV 
View Large

Close modal
. . Accession #: 01484-02. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: C 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 201 s. Total Elapsed Time: 291 s. Number of Scans: 20. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-02

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: C 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 201 s

  • Total Elapsed Time: 291 s

  • Number of Scans: 20

  • Effective Detector Width: 0.1 eV

. . Accession #: 01484-02. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: C 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 201 s. Total Elapsed Time: 291 s. Number of Scans: 20. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-02

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: C 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 201 s

  • Total Elapsed Time: 291 s

  • Number of Scans: 20

  • Effective Detector Width: 0.1 eV

Close modal
. . Accession #: 01484-03. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: O 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 100.5 s. Total Elapsed Time: 145 s. Number of Scans: 10. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-03

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: O 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 100.5 s

  • Total Elapsed Time: 145 s

  • Number of Scans: 10

  • Effective Detector Width: 0.1 eV

. . Accession #: 01484-03. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: O 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 100.5 s. Total Elapsed Time: 145 s. Number of Scans: 10. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-03

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: O 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 100.5 s

  • Total Elapsed Time: 145 s

  • Number of Scans: 10

  • Effective Detector Width: 0.1 eV

Close modal
. . Accession #: 01484-04. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 901.5 s. Total Elapsed Time: 1082 s. Number of Scans: 30. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-04

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 901.5 s

  • Total Elapsed Time: 1082 s

  • Number of Scans: 30

  • Effective Detector Width: 0.1 eV

. . Accession #: 01484-04. Host Material: Molecular Sm thin film. Technique: XPS. Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s. Instrument: Thermo Fisher K-alpha XPS. Excitation Source: Al Kα monochromatic. Source Energy: 1486.68 eV. Source Strength: 72 W. Source Size: 0.005 mm × 0.005 mm. Analyzer Type: Spherical sector. Incident Angle: 0°. Emission Angle: 45°. Analyzer Pass Energy: 50 eV. Analyzer Resolution: 0.01 eV. Total Signal Accumulation Time: 901.5 s. Total Elapsed Time: 1082 s. Number of Scans: 30. Effective Detector Width: 0.1 eV
View largeDownload slide

  • Accession #:01484-04

  • Host Material: Molecular Sm thin film

  • Technique: XPS

  • Spectral Region: Sm 3d5/2, Sm 3d3/2, Na 1s

  • Instrument: Thermo Fisher K-alpha XPS

  • Excitation Source: Al Kα monochromatic

  • Source Energy: 1486.68 eV

  • Source Strength: 72 W

  • Source Size: 0.005 mm × 0.005 mm

  • Analyzer Type: Spherical sector

  • Incident Angle: 0°

  • Emission Angle: 45°

  • Analyzer Pass Energy: 50 eV

  • Analyzer Resolution: 0.01 eV

  • Total Signal Accumulation Time: 901.5 s

  • Total Elapsed Time: 1082 s

  • Number of Scans: 30

  • Effective Detector Width: 0.1 eV

Close modal

The authors thank Harry Meyer for the use of his lab to perform the measurements. This research was supported by the U.S. Department of Energy, Office of Nuclear Physics, Isotope Development and Production for Research and Applications Program. This manuscript has been authored by UT-Battelle, LLC, under Contract No. DE-AC05-00OR22725 with the U.S. Department of Energy (DOE). The U.S. government retains and the publisher, by accepting the article for publication, acknowledges that the U.S. government retains a nonexclusive, paid-up, irrevocable, worldwide license to publish or reproduce the published form of this manuscript, or allow others to do so, for U.S. government purposes. The DOE will provide public access to these results of federally sponsored research in accordance with the DOE Public Access Plan (http://energy.gov/downloads/doe-public-access-plan).

1.
J. D.
Burns
,
Sm. M.
Van Cleve
,
E. H.
Smith
, and
R. A.
Boll
,
J. Radioanal. Nucl. Chem.
305
,
109
(
2015
).
https://doi.org/10.1007/s10967-014-3815-5
Google Scholar
Crossref
Search ADS
 
2.
J. D.
Burns
 and
R. A.
Boll
,
Sep. Sci. Technol.
50
,
2819
(
2015
).
Google Scholar
 
3.
J. D.
Burns
,
K. G.
Myhre
,
N. J.
Sims
,
D. W.
Stracener
, and
R. A.
Boll
,
Nucl. Instrum. Methods Phys. Res. A
830
,
95
(
2016
).
https://doi.org/10.1016/j.nima.2016.05.062
Google Scholar
Crossref
Search ADS
 
4.
K.
Myhre
,
J.
Burns
,
H.
Meyer
,
N.
Sims
, and
R.
Boll
,
Surf. Sci. Spectra
23
,
70
(
2016
).
https://doi.org/10.1116/1.4954390
Google Scholar
Crossref
Search ADS
 
5.
A.
Vascon
,
N.
Wiehl
,
T.
Reich
,
J.
Drebert
,
K.
Eberhardt
, and
Ch. E.
Dullmann
,
Nucl. Instrum. Methods Phys. Res. A
721
,
35
(
2013
).
https://doi.org/10.1016/j.nima.2013.04.050
Google Scholar
Crossref
Search ADS
 
6.
A.
Vascon
,
S.
Santi
,
A. A.
Isse
,
T.
Reich
,
J.
Drebert
,
H.
Christ
,
K.
Eberhardt
, and
Ch. E.
Dullmann
,
J. Radioanal. Nucl. Chem.
299
,
1085
(
2014
).
https://doi.org/10.1007/s10967-013-2631-7
Google Scholar
Crossref
Search ADS
 
7.
K.
Kuntaiah
,
P.
Sudarsanam
,
B.
Reddy
, and
A.
Vinu
,
RSC Adv.
3
,
7953
(
2013
).
https://doi.org/10.1039/c3ra23491f
Google Scholar
Crossref
Search ADS
 
© 2018 Author(s).
2018
Author(s)

Supplementary Material

Supplementary Material- zip file