Tantalum nitride thin film resistors by low temperature reactive sputtering for plastic electronics

Scandurra, Antonino; Indelli, Giuseppe Francesco; Pignataro, Bruno; Marco, Silvia Di; Stefano, Maria Ausilia Di; Ravesi, S.; Pignataro, S.

doi:10.1002/sia.2681

Cited by 17 publications

(12 citation statements)

References 11 publications

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“…Among these challenges, some are related to fundamental properties of the different materials involved such as metals, semiconductors, dielectrics, which have to withstand important constraints such as low cost, low processing temperature compatible with plastic substrates and mechanical flexibility. [2] To cope with this need, one strategy is offered by the use of inkjet printing of proper chemically formulated precursors on plastics. The direct thin film printing allows the elimination of expensive photolithographic subtractive processes.…”

Section: Introductionmentioning

confidence: 99%

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Scandurra

Indelli

Sparta

et al. 2010

Surface & Interface Analysis

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Silver metal patterns onto plastic substrates have been obtained by inkjet printing with commercial ink based on silver nanoscale particles. Morphological characterization by scanning electron microscopy of spin-coating processed films indicates that a sintering treatment at 250• C for 30 min is enough to sinterize the silver metal nanoparticles. X-ray photoelectron spectroscopy characterization of sintered metal films shows that the sinterization is accompanied by a reduction of carbon surface concentration coming from carbon-containing chemical compounds present in the ink formulation. After sintering at 250• C for 30 min, the material shows typical electrical resistivity of 4.6 × 10 −6 cm (i.e. about three times the value of bulk silver).Printed test structures show typical resistivity after sintering at 250• C for 30 min in the range of 5-7 × 10 −6 cm. Copyright

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Section: Introductionmentioning

confidence: 99%

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Scandurra

Indelli

Sparta

et al. 2010

Surface & Interface Analysis

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“…The porous Ta 3 N 5 single crystal shows the surface termination layer of Ta atoms even though negligible content of oxygen adsorption is present as confirmed in the high-sensitive low energy ion scattering (HS-LEIS) in Figure 3 d. XPS in the inset further presents the chemical interaction between Ta and N with peaks at 24.8 and 26.8 eV observed for Ta and 396.5 eV observed for N. [23,24] We further conduct XPS experiments of porous TaON and Ta 3 N 5 single crystals, as shown in Fig- ure S10. Both TaON and Ta 3 N 5 single crystals demonstrate almost identical peaks for N and Ta elements, which confirms the similar chemical interactions between N and Ta atoms in the lattice.…”

Section: Angewandte Chemiementioning

confidence: 76%

“…The clear and precise coordination of the Ta atom with N atoms is observed and confirmed to be long‐range ordering, which further validates the single crystallinity even in a porous microstructure. The porous Ta 3 N 5 single crystal shows the surface termination layer of Ta atoms even though negligible content of oxygen adsorption is present as confirmed in the high‐sensitive low energy ion scattering (HS‐LEIS) in Figure d. XPS in the inset further presents the chemical interaction between Ta and N with peaks at 24.8 and 26.8 eV observed for Ta and 396.5 eV observed for N . We further conduct XPS experiments of porous TaON and Ta 3 N 5 single crystals, as shown in Figure S10.…”

Section: Figurementioning

confidence: 84%

Porous Tantalum Nitride Single Crystal at Two‐Centimeter Scale with Enhanced Photoelectrochemical Performance

Jin

Cheng

et al. 2020

Angewandte Chemie

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Porous tantalum nitride (Ta3N5) single crystals, combining structural coherence and porous microstructure, would substantially improve the photoelectrochemical performance. The structural coherence would reduce the recombination of charge carriers and maintain excellent transport properties while the porous microstructure would not only reduce photon scattering but also facilitate surface reactions. Here, we grow bulk‐porous Ta3N5 single crystals on a two‐centimeter scale with (002), (023), and (041) facets, respectively, and show significantly enhanced photoelectrochemical performance. We show the preferential facet growth of porous crystals in a lattice reconstruction strategy in relation to lattice match and lattice channel. We present the facet engineering to enhance light absorption, exciton lifetime and transport properties. The porous Ta3N5 single crystal boosts photoelectrochemical oxidation of alcohols with the (002) facet showing the highest performance of >99 % alcohol conversion and >99 % aldehyde/ketone selectivity.

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“…The inserted XPS demonstrates the chemical interaction between Ta and N. Two peaks (25.1 and 27.0 eV) for Ta and one peak at 396.6 eV for N are observed. 21,22 Although lattice oxygen in Ta 3 N 5 provides a negligible XPS signal, the adsorbed oxygen in HS-LEIS accounts for most of the oxygen on the surface. Figure 2b shows that there is little difference (∼0.02 Ω cm) in the measured resistivity of Ta 3 N 5 under heating (temperature from 50 to 300 K) and cooling (temperature from 300 to 50 K) conditions, indicating that the material has good thermal stability and electronic conductivity.…”

Section: Resultsmentioning

confidence: 99%

Centimeter-Scale Porous Ta₃N₅ Single Crystal Monolith Enhances Photoelectrochemical Performance

Cheng

Jin

et al. 2021

J. Phys. Chem. C

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Semiconductor materials play an important role in converting solar energy to electrical chemical energy as a photoanode to realize photoelectrochemical conversion. Tantalum nitride (Ta3N5) as a semiconductor with a suitable band gap and appropriate band energy positions is considered to be one of the best photoelectrochemical materials. However, poor charge-carrier separation efficiency and charge-carrier mobility greatly limit its wide application in the photoelectrochemical field. Porous single crystal materials with ordered lattice structural coherence and large surface area are expected to greatly improve photogenerated charge-carrier separation efficiency through decreasing electron/hole recombination centers. In this paper, we use a two-step method to grow a porous tantalum nitride single crystal: first removing K atoms from KTaO3 to form TaON, and second removing O atoms from TaON to form (023) facet engineered Ta3N5. In the neutral solution (0.5 M Na2SO4), the onset potential of the photocurrent is lower than 0.2 VRHE, which is much less than the reported onset potentials (more than 0.4 VRHE). In addition, the applied bias photon-to-current efficiencies (ABPEs) of (023) facet engineered Ta3N5 can reach about 40% under 400 nm light irradiation, ∼16 times more than that of the reported Ta3N5 at the same experimental conditions. After 10 h of intensive light irradiation, we show that the porous Ta3N5 single crystal still has a relatively good photoelectrochemical performance. This inspires a wide application of the porous single crystal in the photoelectrochemical area.

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Tantalum nitride thin film resistors by low temperature reactive sputtering for plastic electronics

Cited by 17 publications

References 11 publications

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Porous Tantalum Nitride Single Crystal at Two‐Centimeter Scale with Enhanced Photoelectrochemical Performance

Centimeter-Scale Porous Ta₃N₅ Single Crystal Monolith Enhances Photoelectrochemical Performance

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Tantalum nitride thin film resistors by low temperature reactive sputtering for plastic electronics

Cited by 17 publications

References 11 publications

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Low‐temperature sintered conductive silver patterns obtained by inkjet printing for plastic electronics

Porous Tantalum Nitride Single Crystal at Two‐Centimeter Scale with Enhanced Photoelectrochemical Performance

Centimeter-Scale Porous Ta3N5 Single Crystal Monolith Enhances Photoelectrochemical Performance

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Product

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Centimeter-Scale Porous Ta₃N₅ Single Crystal Monolith Enhances Photoelectrochemical Performance