Influence of Refining Agent in Soda Lime Glass for Ultraviolet Ray Transmittance

In the mid 1920s, a physiologist, a glass technologist, and a zoo embarked on an exciting new venture which promised to turn buildings into therapeutic devices. Their project was to devise an architectural glass which would admit the beneficial, therapeutic ultraviolet spectrum of sunlight into the building; they called their invention ‘Vitaglass’. Vitaglass was the first ultraviolet ray glass – one of the more curious products to emerge from the 1920s architectural glass industry. Its distinguishing feature was that it enabled the invisible ultraviolet radiation of the sun to be admitted into the building; its refined chemistry promised to ‘let health into the building’ where ordinary soda-lime glass had blocked it out [1]..

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Highly efficient biocide silver-doped soda lime glass for application in water quality optical sensors

International Journal of Materials Research (formerly Zeitschrift fuer Metallkunde) ◽

10.3139/146.111948 ◽

2020 ◽

Vol 111 (10) ◽

pp. 857-862

Author(s):

Branimir Bajac ◽

Jovana Stanojev ◽

Slobodan Birgermajer ◽

Milena Radojevic ◽

Jovan Matovic

Keyword(s):

Water Quality ◽

Optical Sensors ◽

Soda Lime ◽

Soda Lime Glass ◽

Highly Efficient

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Microfabrication and Surface Functionalization of Soda Lime Glass through Direct Laser Interference Patterning

Nanomaterials ◽

10.3390/nano11010129 ◽

2021 ◽

Vol 11 (1) ◽

pp. 129

Author(s):

Marcos Soldera ◽

Sabri Alamri ◽

Paul Alexander Sürmann ◽

Tim Kunze ◽

Andrés Fabián Lasagni

Keyword(s):

Laser Radiation ◽

Surface Functionalization ◽

Incident Light ◽

Chemical Properties ◽

Visible Spectrum ◽

Soda Lime ◽

Soda Lime Glass ◽

Textured Surfaces ◽

Aspect Ratios ◽

Direct Laser

All-purpose glasses are common in many established and emerging industries, such as microelectronics, photovoltaics, optical components, and biomedical devices due to their outstanding combination of mechanical, optical, thermal, and chemical properties. Surface functionalization through nano/micropatterning can further enhance glasses’ surface properties, expanding their applicability into new fields. Although laser structuring methods have been successfully employed on many absorbing materials, the processability of transparent materials with visible laser radiation has not been intensively studied, especially for producing structures smaller than 10 µm. Here, interference-based optical setups are used to directly pattern soda lime substrates through non-lineal absorption with ps-pulsed laser radiation in the visible spectrum. Line- and dot-like patterns are fabricated with spatial periods between 2.3 and 9.0 µm and aspect ratios up to 0.29. Furthermore, laser-induced periodic surface structures (LIPSS) with a feature size of approximately 300 nm are visible within these microstructures. The textured surfaces show significantly modified properties. Namely, the treated surfaces have an increased hydrophilic behavior, even reaching a super-hydrophilic state for some cases. In addition, the micropatterns act as relief diffraction gratings, which split incident light into diffraction modes. The process parameters were optimized to produce high-quality textures with super-hydrophilic properties and diffraction efficiencies above 30%.

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Thermophysical Properties of Cement Mortar Containing Waste Glass Powder

Crystals ◽

10.3390/cryst11050488 ◽

2021 ◽

Vol 11 (5) ◽

pp. 488

Author(s):

Oumaima Nasry ◽

Abderrahim Samaouali ◽

Sara Belarouf ◽

Abdelkrim Moufakkir ◽

Hanane Sghiouri El Idrissi ◽

...

Keyword(s):

Thermal Conductivity ◽

Specific Heat ◽

Thermophysical Properties ◽

Glass Powder ◽

Cement Mortar ◽

Soda Lime ◽

Waste Glass ◽

Soda Lime Glass ◽

Volumetric Specific Heat ◽

Waste Glass Powder

This study aims to provide a thermophysical characterization of a new economical and green mortar. This material is characterized by partially replacing the cement with recycled soda lime glass. The cement was partially substituted (10, 20, 30, 40, 50 and 60% in weight) by glass powder with a water/cement ratio of 0.4. The glass powder and four of the seven samples were analyzed using a scanning electron microscope (SEM). The thermophysical properties, such as thermal conductivity and volumetric specific heat, were experimentally measured in both dry and wet (water saturated) states. These properties were determined as a function of the glass powder percentage by using a CT-Meter at different temperatures (20 °C, 30 °C, 40 °C and 50 °C) in a temperature-controlled box. The results show that the thermophysical parameters decreased linearly when 60% glass powder was added to cement mortar: 37% for thermal conductivity, 18% for volumetric specific heat and 22% for thermal diffusivity. The density of the mortar also decreased by about 11% in dry state and 5% in wet state. The use of waste glass powder as a cement replacement affects the thermophysical properties of cement mortar due to its porosity as compared with the control mortar. The results indicate that thermal conductivity and volumetric specific heat increases with temperature increase and/or the substitution rate decrease. Therefore, the addition of waste glass powder can significantly affect the thermophysical properties of ordinary cement mortar.

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X‐ray shielding parameters of lanthanum oxide added waste soda‐lime glass

X-Ray Spectrometry ◽

10.1002/xrs.3210 ◽

2020 ◽

Author(s):

Iskender Akkurt ◽

Kadir Gunoglu ◽

Recep Kurtuluş ◽

Taner Kavas

Keyword(s):

Lanthanum Oxide ◽

Soda Lime ◽

Soda Lime Glass ◽

X Ray

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On-Site Raman Spectroscopic Study of Beads from the Necropolis of Vohemar, Northern Madagascar (>13th C.)

Heritage ◽

10.3390/heritage4010031 ◽

2021 ◽

Vol 4 (1) ◽

pp. 524-540

Author(s):

Philippe Colomban ◽

Gulsu Simsek Franci ◽

Farahnaz Koleini

Keyword(s):

Western Indian Ocean ◽

Soda Lime ◽

Transition Metal Ions ◽

Soda Lime Glass ◽

Late 19Th Century ◽

Raman Spectroscopic ◽

Raman Spectroscopic Study ◽

Maritime Networks ◽

Coloring Agents ◽

The Village

In the late 19th century, ancient tombs were discovered near the village of Vohemar at the northeastern point of Madagascar, and subsequent excavations during the French period (1896–1945) revealed the presence of a major necropolis active from ~13th to 18th centuries. Some artefacts (Chinese ceramic shards and glass trade beads) recovered from these excavations was sent to France and now in part belong to the collection of the Musée d’Histoire Naturelle, Nimes. Carnelian and glass trade beads were analyzed with a mobile Raman spectrometer, which identified different materials (soda-lime glass, quartz/moganite, carnelian/citrine, chalcedony) and coloring agents (Naples yellow, cassiterite, amber chromophore, transition metal ions, etc.). The results are compared with those obtained on beads excavated at different sites of Southern Africa and at Mayotte Island, and it appears that (most of) the beads come from southern Asia and Europe. The results confirmed the role that northern Madagascar played within the maritime networks of the Western Indian Ocean during the 15th–16th century.

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Preparation of CuInGaSe2 Absorber Layer by Nanoparticles-Based Spray Deposition

MRS Proceedings ◽

10.1557/proc-836-l5.10 ◽

2004 ◽

Vol 836 ◽

Author(s):

Ki-Hyun Kim ◽

Young-Gab Chun ◽

Byung-Ok Park ◽

Kyung-Hoon Yoon

Keyword(s):

Spray Deposition ◽

Soda Lime ◽

Inert Atmosphere ◽

Absorber Layer ◽

Step Motor ◽

Soda Lime Glass ◽

Soda Lime Glass Substrate ◽

Glass Substrates ◽

Spray System ◽

Cigs Nanoparticles

ABSTRACTCIGS nanoparticles for the CIGS absorber layer have been synthesized by low temperature colloidal routes. The CIGS absorber layers for solar cells have been prepared by spray deposition of CIGS nanoparticle precursors (∼20 nm) in glove box under inert atmosphere. An automatic air atomizing nozzle spray system with computer controlled X-Y step motor system was used to spray. The nanoparticle precursor CIGS film was deposited onto molybdenum-coated soda-lime glass substrates (2.5 cm × 5.0 cm) heated to 160°C. The film thickness in the range of 2 μm ± 0.3 μm was attained by spraying of 3 mM colloidal over an area of 12.5 cm2. The coalescence between particles was observed in the CIGS absorber layer under post-treatment of over 550 °C. This is related to the reactive sintering among the nanoparticles to reduce surface energy of the particles. The CuxSe thin film, formed on Mo film by evaporation, improved adhesion between CIGS and Mo layers and enhanced the coalescence of the particles in the CIGS layer. These are closely related to the fluxing of Cu2Se phase which has relatively low melting temperature. The CdS buffer layer was deposited on the CIGS/Mo/soda-lime glass substrate by chemical bath deposition. The CIGS nanoparticles-based absorber layers were characterized by using energy dispersive spectroscopy (EDS), x-ray diffraction (XRD) and high-resolution scanning electron microscopy (HRSEM).

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Analysis of Cu(InGa)Se2 Alloy Film Optical Properties and the Effect of Cu Off-Stoichiometry

MRS Proceedings ◽

10.1557/proc-865-f1.4 ◽

2005 ◽

Vol 865 ◽

Cited By ~ 1

Author(s):

P. D. Paulson ◽

S. H. Stephens ◽

W. N. Shafarman

Keyword(s):

Optical Constants ◽

Soda Lime ◽

Alloy Film ◽

Relative Volume ◽

Soda Lime Glass ◽

Distinctive Features ◽

Glass Substrates ◽

Wide Range ◽

Two Phases

AbstractVariable angle spectroscopic ellipsometry has been used to characterize Cu(InGa)Se2 thin films as a function of relative Ga content and to study the effects of Cu off-stoichiometry. Uniform Cu(InGa)Se2 films were deposited on Mo-coated soda lime glass substrates by elemental evaporation with a wide range of relative Cu and Ga concentrations. Optical constants of Cu(InGa)Se2 were determined over the energy range of 0.75–C4.6 eV for films with 0 ≤ Ga/(In+Ga) ≤ 1 and used to determine electronic transition energies. Further, the changes in the optical constants and electronic transitions as a function of Cu off-stoichiometry were determined in Cu-In-Ga-Se films with Cu atomic concentration varying from 10 to 25 % and Ga/(In+Ga) = 0.3. Films with Cu in the range 16–24 % are expected to contain 2 phases so an effective medium approximation is used to model the data. This enables the relative volume fractions of the two phases, and hence composition, to be determined. Two distinctive features are observed in the optical spectra as the Cu concentration decreases. First, the fundamental bandgaps are shifted to higher energies. Second, the critical point features at higher energies become broader suggesting degradation of the crystalline quality of the material.

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