Effects of Impurities on the Electrochemical Characterization of Liquid-Phase Exfoliated Niobium Diselenide Nanosheets

Ahmad, Habib; Ghosh, Sujoy; Dutta, Gaurab; Maddaus, Alec G.; Tsavalas, John G.; Hollen, Shawna M.; Song, Edward

doi:10.1021/acs.jpcc.9b00485

Cited by 20 publications

(25 citation statements)

References 62 publications

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“…The Se 3d core level spectrum in Figure 2d can be deconvolved into three components, with the main component stemming from Se 2in NbSe2. 42,43 The fitting procedure resulted in an atomic ratio Se/Nb of 2.1, in good agreement with the expected ratio of 2.0, corroborating the high quality of the NbSe2 monolayers. The other two minor components can be ascribed to residual amorphous Se and trigonal Se, which form as clusters on the surface that are imaged as bright protrusions in large area AFM maps (see Figure S1).…”

Section: Resultssupporting

confidence: 73%

Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

et al. 2020

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2D transition metal dichalcogenides (TMDs) represent an ideal testbench for the search of materials by design, since their optoelectronic properties can be manipulated through surface engineering and molecular functionalization. However, the impact of molecules on intrinsic physical properties of TMDs, such as superconductivity, remains largely unexplored. In this work, the critical temperature (TC) of large-area NbSe2 monolayers is manipulated employing ultra-thin molecular adlayers. Spectroscopic evidences indicate that aligned molecular dipoles within the self-assembled layers act as a fixed gate terminal, collectively generating a macroscopic electrostatic field on NbSe2. This results in a ̴ 55% increase and a 70% decrease in TC depending on the electric field polarity, which is controlled via molecular selection. The reported functionalization, which improves the air stability of NbSe2, is efficient, practical, up-scalable and suited to functionalize large-area TMDs. Our results indicate the potential of hybrid 2D materials as a novel platform for tunable superconductivity. TEXTTransition metal dichalcogenides (TMDs) are layered compounds which can be thinned down to the single-layer limit. 1,2 While mechanical exfoliation generates atomically thin TMD flakes

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Section: Resultssupporting

confidence: 73%

Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

et al. 2020

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“…The O-1 s XPS spectra (Figure 1d) show a significant change with higher Nb content -while MoÀ O bonds are seen in the pristine material, the growing fraction of oxygen in the modified samples exhibits a prominent peak at a binding energy of 530.6 eV which corresponds to Nb 2 O 5 . [54] To conclude: the XPS characterization probes the thin petals of the nanoflowers, showing that Nb-modified MoSe 2 , MoO 3 , and Nb 2 O 5 exist on the surface without evidence for niobium selenide phases. The shift observed in the binding energy of Mo and Se upon Nb doping suggests that the electronic structure is modified, which can potentially affect the chemical interaction with the reaction intermediates to promote catalytic activity.…”

Section: Resultsmentioning

confidence: 95%

Incorporating Nb into MoSe₂ Nanoflowers for Overall Electrocatalytic Water Splitting

Vasu

Siva

Bar‐Ziv³

et al. 2021

Israel Journal of Chemistry

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Incorporating transition metals such as by doping has a significant effect on the properties of TMDs, and it is an appealing research strategy to provide structural and functional tunability of these prospective materials for energy and environmental applications. Here we report the effect of incorporating Nb into MoSe2 nanoflowers on the catalytic properties for electrochemical water‐splitting. Impressively, the Nb incorporation greatly improved the active surface area and the charge‐transfer kinetics of the catalyst resulting in significant enhancement of the HER and OER activity. The considerable enhancement can be attributed to the synergistic effect of electronic regulation and surface modification induced by the Nb addition. The Nb‐modified MoSe2 comprise thin coverage of active Nb2O5 phase as evident from XPS. The niobium oxide is chemically stable under acidic and neutral conditions but degraded in strong alkaline media, thus our catalyst becomes a good candidate for water electrolysis under non‐alkaline conditions.

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“…where C is the capacitive constant, j is the imaginary unit, f is the frequency, and n is a CPE power that is between 0 and 1. Q is the pure capacitance when n = 1, and Q is the pure resistance when n = 0 [32]. R s is the solution resistance, Q f represents the CPE of the passive film, and R f is the resistance of film.…”

Section: Electrochemical Characteristicsmentioning

confidence: 99%

Effect of pH on the Corrosion and Repassivation Behavior of TA2 in Simulated Seawater

et al. 2021

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The effect of pH on the corrosion and repassivation behavior of TA2 in simulated seawater was studied using electrochemical tests, immersion experiments, and surface morphology topology analysis. The results show that Ecorr and Rf increased while ipass and weight loss rate decreased as the pH of simulated seawater increased. The TA2 passive film was determined to be mainly composed of a large amount of TiO2 and a small amount of TiO. The repassivation function of TA2 can be expressed as E = −0.1375 + 0.0532ln(t − 1.241) for a simulated seawater pH of 8.2. The parameter b, which represents the slope of the potential–time curve during the friction electrode test, was used to evaluate the repassivation behavior of TA2. The increase in pH value was observed to promote the repassivation speed of the passive film, which is beneficial to the corrosion resistance of TA2.

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Effects of Impurities on the Electrochemical Characterization of Liquid-Phase Exfoliated Niobium Diselenide Nanosheets

Cited by 20 publications

References 62 publications

Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

Incorporating Nb into MoSe₂ Nanoflowers for Overall Electrocatalytic Water Splitting

Effect of pH on the Corrosion and Repassivation Behavior of TA2 in Simulated Seawater

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Effects of Impurities on the Electrochemical Characterization of Liquid-Phase Exfoliated Niobium Diselenide Nanosheets

Cited by 20 publications

References 62 publications

Tailoring Superconductivity in Large-Area Single-Layer NbSe2 via Self-Assembled Molecular Adlayers

Tailoring Superconductivity in Large-Area Single-Layer NbSe2 via Self-Assembled Molecular Adlayers

Incorporating Nb into MoSe2 Nanoflowers for Overall Electrocatalytic Water Splitting

Effect of pH on the Corrosion and Repassivation Behavior of TA2 in Simulated Seawater

Contact Info

Product

Resources

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Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

Tailoring Superconductivity in Large-Area Single-Layer NbSe₂ via Self-Assembled Molecular Adlayers

Incorporating Nb into MoSe₂ Nanoflowers for Overall Electrocatalytic Water Splitting