Si4+

Known as: Silicon 4+ 
Silicon ion requiring four electrons to return to its elemental state.

Topic mentions per year

Topic mentions per year

1960-2017
051019602017

Papers overview

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2016
2016
Ge4+-doped BaSi2O2N2: Eu2+ phosphors were prepared by a high temperature solid-state reaction method. The phase structure… (More)
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2016
2016
The functionality or survival of tissue engineering constructs depends on the adequate vascularization through oxygen transport… (More)
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2015
2015
Pristine and Si4+ doped NiTiO3 are successfully synthesized by molten salt method and electrochemically characterized for its use… (More)
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2011
2011
  • Darrell J. Henry, Milan novák cHairMan, +4 authors FeDerico Pezzotta
  • 2011
A nomenclature for tourmaline-supergroup minerals is based on chemical systematics using the generalized tourmaline structural… (More)
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2009
2009
The phosphors Zn(1-x) Mo(1-y)Si(y)O4 : Eu(x)3+ (0.05 < or = x < or = 0.30, 0 < or = y < or = 0.09) were prepared by solid state… (More)
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2007
2007
New Hugoniot equation of state data for molten diopside (at 1773 K) and molten anorthite (at 1923 K) are reported to 38 and 35… (More)
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2006
2006
Fundamental information concerning the mechanism of electron transfer from reduced heteropolytungstates (POM(red)) to O2, and the… (More)
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2005
2005
Through first-principles molecular dynamics we study the low-temperature oxidation of the Si(001) surface from the initial… (More)
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Highly Cited
1998
Highly Cited
1998
Bioactive glasses contain oxides of calcium, sodium, phosphorus, and silicon in a proportion that provides the material with… (More)
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1992
1992
Suspensions of calcium phosphate glass containing various concentrations of silica (glass composition (moles): 100 Ca(PO3)2 to x… (More)
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