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Corrosion of Borosilicate Glasses
Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT), 2015In contact with aqueous media glass tends to corrode leading to different surface properties. For the precision application this alteration might cause product failure. Hence precise knowledge of the surface interactions is essential. We performed an extensive investigation on the behavior of borosilicate glass under corrosive attack in order to ...
Constans M. Weber +2 more
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Topological Principles of Borosilicate Glass Chemistry
The Journal of Physical Chemistry B, 2011Borosilicate glasses display a rich complexity of chemical behavior depending on the details of their composition and thermal history. Noted for their high chemical durability and thermal shock resistance, borosilicate glasses have found a variety of important uses from common household and laboratory glassware to high-tech applications such as liquid ...
Smedskjær, Morten Mattrup +5 more
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The synthesis of a perovskite CsPbBr3 quantum dot superlattice in borosilicate glass.
Chemical Communications, 2020For the first-time we have synthesised perovskite CsPbBr3 quantum dot (QD) superlattices in borosilicate glass, which play a key role in controllable network structure connectivity.
Enhao Cao +5 more
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Journal of the American Ceramic Society, 1952
Various anomalous properties of borosilicate glasses are explained by the assumption that the atomic groups, each of which consists of one BO 4 tetrahedron with four BO 3 triangles bonded to it, are formed in these glasses.
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Various anomalous properties of borosilicate glasses are explained by the assumption that the atomic groups, each of which consists of one BO 4 tetrahedron with four BO 3 triangles bonded to it, are formed in these glasses.
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Thermoluminescence Characteristics of Lithium Borosilicate Glass Doped with Sm2 O3.
Luminescence (Chichester, England Print), 2020Lithium borosilicate glass composite (SiO2 -Li2 CO3 -H3 BO3 ) doped with various concentrations of Sm2 O3 (0-0.7 mole %) were prepared by using the melt quenching method.
A. Abdelmonem +4 more
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Irradiation effects in borosilicate glass
1956 Conference on Electrical Insulation, 1956Discs of borosilicate glass of 1,75 cm thickness were irradiated with 2 MEV electrons. Total intercepted charge was 4, 6 × 10−6 coul/cm2. Irradiation (a) produces formation of color centers and (b) introduces a layer of high negative charge, which is situated in the glass at a depth corresponding to the range of the electrons (0,3 cm). The existence of
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Structure of Rhenium‐Containing Sodium Borosilicate Glass
International Journal of Applied Glass Science, 2012A series of sodium borosilicate glasses were synthesized with KR eO 4 or Re 2 O 7
Goel, Ashutosh +6 more
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Integrated Nd-doped borosilicate glass microsphere laser
Optics Letters, 2010A neodymium-doped BK7 glass microsphere laser integrated with a planar ion-exchanged waveguide pumped at 0.8 μm has been demonstrated. The pump radiation was launched by evanescent coupling from the waveguide, and the signal radiation was coupled out through the same waveguide, offering the potential for robustly assembled fully integrated active ...
Murugan, G.S. +3 more
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Polyselenide formation in borosilicate glasses
Journal of Non-Crystalline Solids, 1993Several mechanisms are presented for the formation of polyselenide ions (Sex2−) in a reference alkali borosilicate melt. Such ions exist in selenium-containing melts as intermediates in the redox equilibrium between elemental selenium and selenide ions under relatively reducing conditions.
Henry D. Schreiber +1 more
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Thermal Conductivity of Borosilicate Glass
Physical Review Letters, 1974The thermal conductivity of a borosilicate glass has been measured in the temperature range 0.05-50 K. The samples contained well-defined holes to provide a source of phonon scattering. The results are consistent with the predictions of the Debye model using experimentally measured sound velocities.
M. P. Zaitlin, A. C. Anderson
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