Composition, microstructure and SERS properties of titanium nitride thin film prepared via nitridation of sol–gel derived titania thin films

Wei, Hengyong; Wu, Mingming; Dong, Zhanliang; Chen, Ying; Bu, Jing Long; Lin, Jian; Yu, Yun; Wei, Yuan; Cui, Yi; Wang, Ruisheng

doi:10.1002/jrs.5080

Cited by 33 publications

(28 citation statements)

References 45 publications

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“…The peak position of TiN peaks in the XRD pattern of Pt-NbO x /TiN deposited by RSDT on Si shifted slightly when compared to the as-received TiN precursor nanoparticles ( Table 2) S3 and S4) corroborated with XRD results. Raman bands of cubic TiN were shown in three regions: the first in between 150 and 250 cm −1 corresponding to transverse acoustic mode, the second in between 250 and 350 cm −1 corresponding to longitudinal acoustic mode and the third in between 450 and 700 cm −1 corresponding to transverse optical mode in accordance with literature [35][36][37][38]. Raman lines of TiN nanoparticles processed by RDST were slightly shifted to lower frequencies compared to as purchased TiN nanoparticles ( Fig.…”

Section: Synthesis and Physical Characterization Of Pt-nbo X / Tin Casupporting

confidence: 88%

Nano-sized Pt–NbOx supported on TiN as cost-effective electrocatalyst for oxygen reduction reaction

Daudt

Poozhikunnath

et al. 2020

Mater Renew Sustain Energy

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Proton exchange membrane fuel cells (PEMFC) play a key role for sustainable energy; however, catalyst degradation remains one of the main challenges for competing with traditional energy technologies. The Pt/C commercially available electrocatalysts are susceptible to Pt dissolution and carbon support corrosion. In this context, we design a Pt–NbOx catalyst supported on TiN nanoparticles as an alternative electrocatalyst for the oxygen reduction reaction (ORR). The use of Pt–NbOx reduces materials’ costs by lowering the required platinum loading and improving catalyst performance. The TiN support is selected to improve support stability. The electrocatalyst is successfully synthesized by a one-step flame spray process called reactive spray deposition technology. Electrocatalyst with two different very low Pt loadings (0.032 mg cm−2 and 0.077 mg cm−2) are investigated and their performance as cathode is evaluated by the rotating disk electrode method. The new electrocatalyst based on Pt–NbOx supported on TiN has ORR performance that is comparable to the state-of-the-art Pt/C electrocatalyst. A half-wave potential of 910 mV was observed in the polarization curves, as well as a mass activity of 0.120 A∙mgPt−1 and a specific activity of 283 μA∙cmPt−2 at 0.9 V. These results demonstrate that Pt–NbOx on TiN electrocatalyst has the potential for replacing Pt/C cathode in PEMFC.

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Section: Synthesis and Physical Characterization Of Pt-nbo X / Tin Casupporting

confidence: 88%

Nano-sized Pt–NbOx supported on TiN as cost-effective electrocatalyst for oxygen reduction reaction

Daudt

Poozhikunnath

et al. 2020

Mater Renew Sustain Energy

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“…H. Wei et al described the composition, microstructure, and SERS properties of titanium nitride thin films prepared via nitridation of sol‐gel derived titania thin films. They found that films nitrided at 1000°C had the roughest surface with many hotspots formed, which were favorable for enhancing SERS; and as a result, these thin films exhibited the largest SERS enhancement . Y. Yang et al described nanoparticle‐assisted Raman information acquisition from metal encapsulated sandwich structures.…”

Section: Nannomaterialsmentioning

confidence: 99%

Recent advances in linear and nonlinear Raman spectroscopy. Part XII

Nafie

2018

J Raman Spectroscopy

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This annual review is an overview of advances in the field of Raman spectroscopy as found in papers published in the previous calendar year in the Journal of Raman Spectroscopy (JRS), as well as in trends over the past decade across journals that have published papers important to the field of Raman spectroscopy. This information is gleaned from statistical data on article counts obtained from the Clarivate Analytic's Web of Science Core Collection by year and by subfield of Raman spectroscopy. Additional information is gleaned from presentations at the XXVI International Conference on Raman Spectroscopy (ICORS 2018) in Jeju Island, Korea in August 2018, and contributions on Raman scattering at SCIX 2018, organized by the Federation of Analytical Chemistry and Spectroscopy Societies (FACSS) in Atlanta, Georgia, USA in October 2018. Coverage is also provided for topics from the European Conference on Nonlinear Optical Spetroscopy (ECONOS 2018) held in April in Milan, Italy and GeoRaman 2018 in Catania, Italy in June. Finally, papers published in JRS in 2017 are highlighted and arranged by topics at the frontier of Raman spectroscopy. On the basis of this survey information, it is clear that Raman spectroscopy continues as in recent years as a rapidly expanding field of research across a wide range of novel disciplines and applications that provide sensitive photonic information of matter at the molecular level.

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“…Normally, SERS substrates are made of noble metal, such as gold, silver, and copper, due to localized surface plasmon resonance (LSPR) inducing highly electromagnetic fields in the nanostructures. However, the applications of the SERS metal substrate are extremely limited due to its high cost, low stability, and mechanical rupture [6,7]. Obtaining a stable and reusable SERS substrate using a noble metal nanostructure remains a serious challenge.…”

Section: Introductionmentioning

confidence: 99%

Tailoring Properties of Hafnium Nitride Thin Film via Reactive Gas-Timing RF Magnetron Sputtering for Surface Enhanced-Raman Scattering Substrates

et al. 2022

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This study successfully demonstrated the tailoring properties of hafnium nitride (HfN) thin films via reactive gas-timing (RGT) RF magnetron sputtering for surface-enhanced Raman spectroscopy (SERS) substrate applications. The optimal RGT sputtering condition was investigated by varying the duration time of the argon and nitrogen gas sequence. The RGT technique formed thin films with a grain size of approximately 15 nm. Additionally, the atomic ratios of nitrogen and hafnium can be controlled between 0.24 and 0.28, which is greater than the conventional technique, resulting in a high absorbance in the long wavelength region. Moreover, the HfN thin film exhibited a high Raman signal intensity with an EF of 8.5 × 104 to methylene blue molecules and was capable of being reused five times. A superior performance of HfN as a SERS substrate can be attributed to its tailored grain size and chemical composition, which results in an increase in the hot spot effect. These results demonstrate that the RGT technique is a viable method for fabricating HfN thin films with controlled properties at room temperature, which makes them an attractive material for SERS and other plasmonic applications.

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Composition, microstructure and SERS properties of titanium nitride thin film prepared via nitridation of sol–gel derived titania thin films

Cited by 33 publications

References 45 publications

Nano-sized Pt–NbOx supported on TiN as cost-effective electrocatalyst for oxygen reduction reaction

Nano-sized Pt–NbOx supported on TiN as cost-effective electrocatalyst for oxygen reduction reaction

Recent advances in linear and nonlinear Raman spectroscopy. Part XII

Tailoring Properties of Hafnium Nitride Thin Film via Reactive Gas-Timing RF Magnetron Sputtering for Surface Enhanced-Raman Scattering Substrates

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