The crystal structure of lithium diborate, Li2O.2B2O3

.Infrar ed abso rp t ion spectra of a n h ydr ou s, crystalline, ino rgani c borates were obtained lLl ~h e .2000 cm-I to 300 cm-I ra n ge. Compounds wit h B'O a nd B " isoto pes we re prepa red to ass Ist lI1 terpr etatlOn . Spectra l bands for all or t hobo rates and py roborates a nd som e meLaborates could be assign ed sat isfacto rily . Borates wit h complex rin g-ty p e an ion s gener a lly e~'(hlbl te d spectra of su ch co mplex ity t hat on ly s u perfi cial in terp retatio n WItS attempLed. }< rom correlatlOlI s between s pectra a nd stru cture It a ppears t hat boro n in 3-fold or in 4-fold coordin at ion can be iden t ifi ed wi t h r easo nable ass uran ce on t he bas is of t he infrared s pectrum alon e. Absorp t ion bands ar c ta,bulated for about 80 bo rates a lld typ ical sp ectra a rc s hown .

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“…groups prOVIde an ?xygen bridge. Similar units are interconnected to form a 3 dimensional network [28].…”

Section: _ ?mentioning

confidence: 99%

Infrared spectra of the crystalline inorganic borates

Weir¹,

Schroeder²

1964

J. RES. NATL. BUR. STAN. SECT. A.

232

102

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“…Its crystal structure is characterized by the space group I 4 1 cd belonging to the point group C 4v , and can be described as a =B-O-B≡ covalent network consisting of a frame of alternating oxygen-bonded BO 4 and BO 3 oxyanions and stabilized by Li + ions accommodated within this network [1]. The basic structural unit of the network is a cradle-like B 4 O 7 group (see figure 1).…”

Section: Introductionmentioning

confidence: 99%

Investigation of Cu-doped Li₂B₄O₇single crystals by electron paramagnetic resonance and time-resolved optical spectroscopy

Corradi

Nagirnyi

Kotlov

et al. 2007

J. Phys.: Condens. Matter

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A low-temperature study of the thermoluminescent dosimeter material, lithium tetraborate (Li 2 B 4 O 7 ) doped by Cu, has been carried out by the methods of electron paramagnetic resonance (EPR) and time-resolved polarization spectroscopy using 4-20 eV synchrotron radiation and 1 μs Xe flash lamp pulses in the region 3-6 eV. The observed EPR spectra of an unpaired hole with strong d-character and characteristic hyperfine splittings can be ascribed to Cu 2+ substituted at a Li lattice site and displaced due to relaxation. The results on the Cu + -related luminescence strongly support the conclusion about a low-symmetry position of copper impurity ions in the lithium tetraborate lattice. The temperature dependence of the decay kinetics of the Cu + -related 3.35 eV emission indicates a triplet nature for the relaxed excited state of the Cu + centres. An off-centre position of the Cu + ion in the relaxed excited state is suggested.

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“…On the other hand the 1:2:1 chains represent a degree of polymerization lower than that found in some anhydrous borates with a ratio metal oxide to boron oxide of 1 to 2. In fact, in the structure of Li20.2B20 (Krogh-Moe, 1962) as well as in CdO.2B20 3 (Ihara & Krogh-Moe, 1966) there is a three-dimensional B--O network, with repeat unit [B407] 2-, built up by the same polyanion found in 1:2:1. Of course there are no hydroxyl groups and each O atom is linked to two B atoms.…”

Section: Methodsmentioning

confidence: 99%

The crystal structure of Na₂[B₄O₆(OH)₂]

Menchetti¹

1978

Acta Crystallogr Sect B

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The crystal structure of the synthetic compound Na20. 2B203.H20, orthorhombic space group Pbea, a = 8.540 (4), b = 10.263, c = 14.547 (6) A, was determined from single-crystal X-ray diffractometer data. The unit cell contains eight formula units. The crystal structure was solved by means of direct methods and refined by least-squares calculations to an R index of 0.050. Present in the structure are B-O chains, with repeat unit [B406(OH)2] 2-, which are the product of polymerization, by elimination of water, of the isolated polyanions [B405(OH)4] 2-found in the structure of some sodium or potassium borates, e.g. borax and tincalconite. Na(1) and Na(2) are coordinated by six and seven O atoms respectively. The Na-O irregular polyhedra are connected to each other in various ways. Connexions between B-O chains are provided by Na polyhedra and by the hydrogen-bonding system to form a three-dimensional network. The crystal-chemical formula is Na2[BaO6(OH)2].

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The crystal structure of lithium diborate, Li2O.2B2O3

Cited by 212 publications

References 2 publications

Infrared spectra of the crystalline inorganic borates

Infrared spectra of the crystalline inorganic borates

Investigation of Cu-doped Li₂B₄O₇single crystals by electron paramagnetic resonance and time-resolved optical spectroscopy

The crystal structure of Na₂[B₄O₆(OH)₂]

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The crystal structure of lithium diborate, Li2O.2B2O3

Cited by 212 publications

References 2 publications

Infrared spectra of the crystalline inorganic borates

Infrared spectra of the crystalline inorganic borates

Investigation of Cu-doped Li2B4O7single crystals by electron paramagnetic resonance and time-resolved optical spectroscopy

The crystal structure of Na2[B4O6(OH)2]

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Product

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Investigation of Cu-doped Li₂B₄O₇single crystals by electron paramagnetic resonance and time-resolved optical spectroscopy

The crystal structure of Na₂[B₄O₆(OH)₂]