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1. Structure and crystallization behavior of complex mold flux glasses in the system CaO‐Na2O‐Li2O‐CaF2‐B2O3‐SiO2: A multi‐nuclear NMR spectroscopic study

   https://doi.org/10.1111/jace.18610  

   Yeo, Tae‐min ; Cho, Jung‐Wook ; Hung, Ivan ; Gan, Zhehong ; Sen, Sabyasachi ( October 2022 , Journal of the American Ceramic Society)
2. Effect of Microwave Processing on the Crystallization and Energy Density of BaO-Na 2 O-Nb 2 O 5 -SiO 2 -B 2 O 3 Glass-Ceramics

   https://doi.org/10.1111/jace.14485  

   Davis, III, Calvin ; Pertuit, Andre L. ; Nino, Juan C. ; Ihlefeld, ed., J. ( January 2017 , Journal of the American Ceramic Society)
3. Fluorocarbon based atomic layer etching of Si 3 N 4 and etching selectivity of SiO 2 over Si 3 N 4

   https://doi.org/10.1116/1.4954961  

   Li, Chen ; Metzler, Dominik ; Lai, Chiukin Steven ; Hudson, Eric A. ; Oehrlein, Gottlieb S. ( July 2016 , Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films)
4. Al Composition Dependence of Band Offsets for SiO 2 on α-(Al x Ga 1−x ) 2 O 3

   https://doi.org/10.1149/2162-8777/ac39a8  

   Xia, Xinyi ; Fares, Chaker ; Ren, Fan ; Hassa, Anna ; von Wenckstern, Holger ; Grundmann, Marius ; Pearton, S. J. ( November 2021 , ECS Journal of Solid State Science and Technology)

   Valence band offsets for SiO 2 deposited by Atomic Layer Deposition on α -(Al x Ga 1-x ) 2 O 3 alloys with x = 0.26–0.74 were measured by X-ray Photoelectron Spectroscopy. The samples were grown with a continuous composition spread to enable investigations of the band alignment as a function of the alloy composition. From measurement of the core levels in the alloys, the bandgaps were determined to range from 5.8 eV (x = 0.26) to 7 eV (x = 0.74). These are consistent with previous measurements by transmission spectroscopy. The valence band offsets of SiO 2 with these alloys of different composition were, respectively, were −1.2 eV for x = 0.26, −0.2 eV for x = 0.42, 0.2 eV for x = 0.58 and 0.4 eV for x = 0.74. All of these band offsets are too low for most device applications. Given the bandgap of the SiO 2 was 8.7 eV, this led to conduction band offsets of 4.1 eV (x = 0.26) to 1.3 eV (x = 0.74). The band alignments were of the desired nested configuration for x > 0.5, but at lower Al contents the conduction band offsets were negative, with a staggered band alignment. This shows the challenge of finding appropriate dielectrics for this ultra-wide bandgap semiconductor system. 

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5. Annealing Effects on the Band Alignment of ALD SiO 2 on (In x Ga 1−x ) 2 O 3 for x = 0.25–0.74

   https://doi.org/10.1149/2162-8777/ab8364  

   Fares, Chaker ; Xian, Minghan ; Smith, David J. ; McCartney, M. R. ; Kneiß, Max ; von Wenckstern, Holger ; Grundmann, Marius ; Tadjer, Marko ; Ren, Fan ; Pearton, S. J. ( April 2020 , ECS Journal of Solid State Science and Technology)

   The band alignment of Atomic Layer Deposited SiO₂on (In_xGa_1−x)₂O₃at varying indium concentrations is reported before and after annealing at 450 °C and 600 °C to simulate potential processing steps during device fabrication and to determine the thermal stability of MOS structures in high-temperature applications. At all indium concentrations studied, the valence band offsets (VBO) showed a nearly constant decrease as a result of 450 °C annealing. The decrease in VBO was −0.35 eV for (In_0.25Ga_0.75)₂O₃, −0.45 eV for (In_0.42Ga_0.58)₂O₃, −0.40 eV for (In_0.60Ga_0.40)₂O₃, and −0.35 eV (In_0.74Ga_0.26)₂O₃for 450 °C annealing. After annealing at 600 °C, the band alignment remained stable, with <0.1 eV changes for all structures examined, compared to the offsets after the 450 °C anneal. The band offset shifts after annealing are likely due to changes in bonding at the heterointerface. Even after annealing up to 600 °C, the band alignment remains type I (nested gap) for all indium compositions of (In_xGa_1−x)₂O₃studied.

    

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