Tunable Bandstop Resonator and Filter on Si-Substrate with PST Thin Film by Sol-Gel Deposition

Chun, Young-Hoon; Fragkiadakis, Charalampos; Bao, Peng; Lüker, A.; Wright, Robert V.; Kirby, P.B.; Zhang, Qi; Jackson, Tim; Lancaster, M.J.

doi:10.1109/eumc.2008.4751374

Cited by 7 publications

(4 citation statements)

References 7 publications

(6 reference statements)

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“…7 shows the photograph of the fabricated filter. Two ferroelectric thin film varactors fabricated using Lead-Strontium-Titanate (PST) materials [8] are implemented in the optimum location for electronically tuning. The experimental results, obtained using Agilent 8510B network analyzer, are plotted in Fig.…”

Section: Tunable Filtermentioning

confidence: 99%

Microstrip cross-coupled stepped-impedance line bandstop filter

Tang

Chun

2009

2009 IEEE MTT-S International Microwave Symposium Digest

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This paper presents a novel design of a wide spurious-free bandstop filter using cross-coupled stepped impedance lines. A measured bandstop filter with 10-dB bandwidth of 160 MHz is designed at the center frequency of 1.0 GHz, and it shows no spurious responses up to 5.2 GHz. As a preliminary investigation, the filter is tuned electronically using ferroelectric thin film varactors.Index Terms -Dual-mode resonator, bandpass filters, microstrip filters.

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Section: Tunable Filtermentioning

confidence: 99%

Microstrip cross-coupled stepped-impedance line bandstop filter

Tang

Chun

2009

2009 IEEE MTT-S International Microwave Symposium Digest

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“…Because of their high values of ferroelectric polarization, piezoelectric coefficient, and dielectric permittivity ferroelectric films with perovskite structure like lead zirconate titanate (PbZr x Ti 1‐x O 3 , PZT), lead strontium titanate (Pb x Sr 1‐x TiO 3 , PST), and barium strontium titanate (Ba x Sr 1‐x TiO 3 , BST) films are widely used in the fields of sensors, energy harvesting, capacitors, and FeRAMs technology . PST and BST films can be used for tunable microwave device components, such as phase shifters, filters, varactors, and delay lines . PST thin films are promising candidates for these specific applications as PST thin films show lower loss tangent, larger tunability, and lower processing temperatures than BST thin films.…”

Section: Introductionmentioning

confidence: 99%

Polymer‐based route to ferroelectric lead strontium titanate thin films

Benkler

Hobmaier

Gleißner

et al. 2014

J of Applied Polymer Sci

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Ceramic films with high values of ferroelectricity, piezoelectricity, and dielectricity with perovskite structure, like lead zirconate titanate (PZT, PbZrxTi1‐xO3), lead strontium titanate (PST, PbxSr1‐xTiO3), and barium strontium titanate (BST, BaxSr1−xTiO3), are subjects of intensive research due to their use in sensors, energy harvesters, capacitors, and FeRAMs. Here a novel, simple way to produce micropatterned perovskite PST thin films on silicon substrates by a polymer‐based direct UV‐lithography process is presented. By acrylic acid modification of PST precursor sols it is possible to generate photosensitive metal organic PST precursor xerogel films by spin‐coating and subsequently drying on silicon wafers. These films can be patterned by UV‐lithography and developed with organic solvents. The resulting patterned gel films can be crystallized in air via rapid thermal annealing. The obtained perovskite thin ceramic films are polycrystalline and fine grained. © 2014 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2014, 131, 40901.

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“…It was shown that SrO grows first epitaxially even on H-terminated Si surfaces with a sharp interface and thus provides an ionic template for the subsequent growths of perovskite SrTiO 3 [8,10,12]. We showed earlier that a functional PST layer (thickness > 300 nm) grows directly on top of SiO 2 [13] and that a very thin PST film (thickness < 50 nm) can serve as a barrier layer and template for the growths of PZT on top of SiO 2 [14]. However, a direct comparison between the interfacial regions of PST/SiO 2 and PZT/SiO 2 is still outstanding.…”

Section: Introductionmentioning

confidence: 99%

Study of compositional change in the interfacial regions between lead strontium titanate/SiO2 and lead zirconate titanate/SiO2 by Auger emission spectroscopy

2010

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Auger spectroscopy was used to study the compositional change in the interfacial region between ferroelectric thin films, namely lead strontium titanate (PST) and lead zirconate titanate (PZT), and commercial available Si substrates with a 200 nm thick thermal oxide layer. Both PST and PZT thin films were prepared via a sol-gel spin coating method. The thin films from both materials were annealed under the same conditions (temperature and time). It was found that strontium stops the lead diffusion into SiO 2 by forming SrTiO 3 and/or SrO , maintaining a well defined SiO 2 region, while PbSiO 3 is formed in the PZT/SiO 2 system. These results are important for a general understanding of interdiffusions in material interfaces in particular for the realization of future high-dielectric-constant (high-k) oxide layers and for the next generation of advanced electronic devices.

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Tunable Bandstop Resonator and Filter on Si-Substrate with PST Thin Film by Sol-Gel Deposition

Cited by 7 publications

References 7 publications

Microstrip cross-coupled stepped-impedance line bandstop filter

Microstrip cross-coupled stepped-impedance line bandstop filter

Polymer‐based route to ferroelectric lead strontium titanate thin films

Study of compositional change in the interfacial regions between lead strontium titanate/SiO2 and lead zirconate titanate/SiO2 by Auger emission spectroscopy

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