Effect of ZnO addition and concurrent reduction of V2O5 on network formation and elastic properties of lead vanadate (55−x)V2O5–45PbO–(x)ZnO glass system

Laila, S.; Supardan, Siti Nurbaya; Yahya, A. K.

doi:10.1016/j.jnoncrysol.2013.02.007

Cited by 34 publications

(4 citation statements)

References 68 publications

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“…Adding other transition metal oxides alters the conductivity. At 20% transition metal oxide content, the conductivity could exceed the binary lead vanadate by two orders of magnitude or be reduced by more than 3 orders of magnitude depending on the oxide chosen . (See Fig.…”

Section: Resultsmentioning

confidence: 99%

Electronically Conductive Vanadate Glasses for Resistive Plate Chamber Particle Detectors

Johnson

Wehr

Hoar

et al. 2015

Int J of Appl Glass Sci

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Particle detectors are constantly being built and refitted with new technology to improve the spatial resolution, radiation hardness, and speed at which the detector can capture particle events. One of the most crucial components of a modern collider experiment is the hadron calorimeter. One of the proposed improvements on future hadron calorimeters is to utilize resistive plate chambers (RPCs). They provide the spatial and energy resolution as well as could provide speed and radiation hardness. RPCs depend on manufacturing electrically conductive glasses that are mechanically strong, durable, radiation resistant, and not ionically conductive. To achieve such requirements, vanadate glasses were developed as alternatives to current prototypes which use soda lime silicate glasses. The conductivity, oxidation states of vanadium, radiation hardness, as well as the prototype performance, were tested on vanadate glasses. The prototype tests show that using 0.40ZnOÀ0.40TeO 2 À0.20V 2 O 5 can improve the RPC detector rate up to 100 times.

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Section: Resultsmentioning

confidence: 99%

Electronically Conductive Vanadate Glasses for Resistive Plate Chamber Particle Detectors

Johnson

Wehr

Hoar

et al. 2015

Int J of Appl Glass Sci

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“…This is in consistence with what was reported by Aravindan et al for ZnO concentrations within the ranges of 3 ≤ x ≤ 12 mol%. This is related to the increase of BO (bridging oxygen) ions in the glass network which strengthens the glass network and leads to increase in the stress to eliminate free volume . However, more ZnO (32%) reduced the microhardness of the material.…”

Section: Resultsmentioning

confidence: 99%

ZnO enriched transparent glass‐ceramics for wastewater decontamination

Margha¹,

Badawy

Gad‐Allah

2016

Env Prog and Sustain Energy

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Transparent photoactive glass‐ceramic materials containing high content of photoactive ZnO component (up to 40%) have been prepared by applying heat‐treatment for the glass composition SiO2,ZnO, B2O3,Na2O, K2O, P2O5, Li2O, and BaO melted at low temperature (∼1200°C). The prepared materials absorb considerably in UV region and are transparent for visible light. The absorption cutoff shifted towards higher wavelength with the increase of ZnO content. The prepared materials showed proper photocatalytic activity for the degradation of Red SPD Cotton dye as model compound. Maximum removal (76%) was achieved in case of sample containing 30 wt % of ZnO and heat treated at 450°C for 10 h. Therefore, these materials can be considered promising for the degradation of organic pollutants via photocatalysis. © 2016 American Institute of Chemical Engineers Environ Prog, 36: 442–447, 2017

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“…Bulk modulus (K e ) is the resistance of a material to compression involving change in volume [42]. According to Eq.…”

Section: Ultrasonic and Elastic Properties Of Glassmentioning

confidence: 99%

Anomalous elastic behaviour of xSrO-10PbO-(90-x)B2O3 glass system

Sabri

Yahya

Abd‐Shukor

et al. 2016

Journal of Non-Crystalline Solids

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Effect of ZnO addition and concurrent reduction of V2O5 on network formation and elastic properties of lead vanadate (55−x)V2O5–45PbO–(x)ZnO glass system

Cited by 34 publications

References 68 publications

Electronically Conductive Vanadate Glasses for Resistive Plate Chamber Particle Detectors

Electronically Conductive Vanadate Glasses for Resistive Plate Chamber Particle Detectors

ZnO enriched transparent glass‐ceramics for wastewater decontamination

Anomalous elastic behaviour of xSrO-10PbO-(90-x)B2O3 glass system

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