Characterization of the nitridation process of boric acid

Gouin, X.; Grange, Paul; Bois, Laurence; L'Haridon, P.; Laurent, Y.

doi:10.1016/0925-8388(95)01532-9

Cited by 151 publications

(84 citation statements)

References 19 publications

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“…The higher boron content was probably due to the higher volatility of the nitrogen precursor. Based on the peak fit, the oxygen impurities were assigned to boronoxynitride BO x N y species, with a binding energy of 192.5 eV, which concurs with the previous findings [40]. The boronoxynitride was probably part of the crystal lattice within the BN layers or at the edges of these layers.…”

Section: A C C E P T E D Accepted Manuscriptsupporting

confidence: 74%

“…7 and Fig. S3, the main peak, (Figure 7, B 1s, peak [2]), at binding energies of 192.7-192.9 eV, is in good agreement with the literature value for boric acid [40]. Urea was also present as indicated by the main peak (Fig.…”

supporting

confidence: 76%

“…S5). The spectrum of INT-0-250 shows the typical h-BN bands at 775 and 1390 cm -1 , as previously reported by Gouin et al [40].…”

supporting

confidence: 60%

See 2 more Smart Citations

Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Marchesini

Regoutz

Payne

et al. 2017

Microporous and Mesoporous Materials

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Boron nitride (BN) has applications in a number of areas: it can be used as lubricant, as insulating thermoconductive filler or UV-light emitter. BN can also capture large amounts of hydrocarbons and gaseous molecules, provided that it exhibits a porous structure. This porous structure also enables its application as a drug-delivery nanocarrier. Little if anything is known on controlling the porosity of BN, even though it has tremendous implications in terms of adsorption performance and drug delivery properties. To address * Corresponding Author: Camille Petit, camille.petit@imperial.ac.uk M A N U S C R I P T A C C E P T E D ACCEPTED MANUSCRIPT 2 this aspect, we provide for the first time an in-depth investigation of the effects of the synthesis conditions on the formation of porous BN. The material was also tested for CO 2 capture. We found that the intermediate preparation is of paramount importance and can in fact be used to tune the porosity of BN. Owing to a combination of spectroscopic and thermal analyses, we attributed this phenomenon to the variation of the thermal decomposition pattern of the intermediates. The most microporous BN produced was able to capture CO 2 while not retaining N 2 . Overall, this study opens the route for the design of well-controlled porous BN structures to be applied as adsorbents and drug-delivery carriers.

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Section: A C C E P T E D Accepted Manuscriptsupporting

confidence: 74%

supporting

confidence: 76%

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Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Marchesini

Regoutz

Payne

et al. 2017

Microporous and Mesoporous Materials

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show abstract

“…Here, we presume that the distance between the BN layer and the surface layer of the GLS or nanohorn tubule wall was similar to the GLS layer distances. h-BN has a (0 0 2) diffraction peak at about 27° [25], which was not obvious in the XRD data of Fig. 3, suggesting bulk BN crystals were not likely included in the BN-CNHs.…”

Section: X-ray Diffractionmentioning

confidence: 73%

Preparation and functionalization of boron nitride containing carbon nanohorns for boron neutron capture therapy

Iizumi

Okazaki

Zhang

et al. 2015

Carbon

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“…Milan et al 4 reported the presence of BNO, when they heated a mixture of boric acid and urea, in varying ratios. Gouin et al 5 thermally nitrided boric acid with ammonia at different temperatures to form BNO. Chen et al first reported the synthesis of BNO as a compound by low frequency rfplasma enhanced metal organic chemical vapor deposition technique in the year 2000.…”

Section: Introductionmentioning

confidence: 99%

High temperature dielectric properties of (B_xN_yO_z) thin films deposited using ion source assisted physical vapor deposition

Badi

2015

J. Adv. Dielect.

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The dielectric integrity has been one of the major obstacle in bringing out capacitor devices with suitable performance characteristics at high temperatures. In this paper, B x N y O z dielectric films for high temperature capacitors solutions are investigated. The films were grown on silicon substrate by using ion source assisted physical vapor deposition technique. The as-grown films were characterized by SEM, XRD, and XPS. The capacitor structures were fabricated using B x N y O z as a dielectric and titanium as metal electrodes. The elaborated devices were subjected to electrical and thermal characterization. They exhibited low electrical loss and very good stability when subjected to high temperature for a prolonged period of time.

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Characterization of the nitridation process of boric acid

Cited by 151 publications

References 19 publications

Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Preparation and functionalization of boron nitride containing carbon nanohorns for boron neutron capture therapy

High temperature dielectric properties of (B_xN_yO_z) thin films deposited using ion source assisted physical vapor deposition

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Characterization of the nitridation process of boric acid

Cited by 151 publications

References 19 publications

Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Tunable porous boron nitride: Investigating its formation and its application for gas adsorption

Preparation and functionalization of boron nitride containing carbon nanohorns for boron neutron capture therapy

High temperature dielectric properties of (BxNyOz) thin films deposited using ion source assisted physical vapor deposition

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Product

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High temperature dielectric properties of (B_xN_yO_z) thin films deposited using ion source assisted physical vapor deposition