Large-volume cubic press produces high temperatures above 4000 Kelvin for study of the refractory materials at pressures

Zhou, Xuefeng; Ma, Dejiang; Wang, Lingfei; Zhao, Yusheng; Wang, Shanmin

doi:10.1063/1.5128190

Cited by 24 publications

(17 citation statements)

References 49 publications

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“…Thanks to our recent instrumental advancements, the temperature capability of our large-volume cubic press has been successfully extended up to 3770 °C, allowing the exploratory synthesis of more metastable TM nitrides at higher temperatures . By exploiting this technique, two cubic W–N phases are prepared at 3–5 GPa and temperatures of 1600–2400 °C (Figure S1), using our recently formulated reaction route, ,,, given by …”

Section: Resultsmentioning

confidence: 99%

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Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

Zhou

Song

et al. 2022

Chem. Mater.

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Cubic tungsten nitrides with high elastic stiffness are promising replacements for metal carbides used in tool applications to achieve enhanced working efficiency. However, due to the difficulties in preparing these nitrides at ambient pressure, their crystal structures and mechanical properties remain largely elusive, which have limited the functionality of these materials. Here, we report a comprehensive study of cubic tungsten nitrides synthesized by a high-pressure method, leading to definitive structural identifications of rocksalt cF8-WN and NbO-type cP6-WN involving atomic deficiencies. Combined with calculations, we find that the structural stabilities of both nitrides are closely related to the atomic deficiency that prevents the filling of unfavorable W: 5d-t2g bands. The disordered N vacancies are decisive for stabilizing cF8-WN, while the ordering of W and N vacancies occurs at 3 GPa and relatively low temperatures and leads to the formation of nearly stoichiometric cP6-WN, rather than previously misassigned cP7-W3N4. Both nitrides exhibit similar excellent mechanical and thermal properties, rivaling and even exceeding WC. Besides, their formation mechanisms are also explored to be associated with atomic vacancies, shedding light on the rational design of functional nitrides by defect chemistry.

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Section: Resultsmentioning

confidence: 99%

“…High P – T experiments were carried out in a DS 6 × 10 MN cubic press installed in the high- P lab of SUSTech . Before the experiment, the mixed sample powders were compacted into a cylindrical pellet 6 mm in length and 10.7 mm in diameter, which was then loaded in a Mo capsule to avoid contamination.…”

Section: Methodsmentioning

confidence: 99%

Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

Zhou

Song

et al. 2022

Chem. Mater.

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“…Large volume presses (LVP) such as the piston-cylinder or the multi-anvil press [110,111] are widely used for the synthesis of materials, especially when the production of large single crystals is essential [112,113]. Record temperatures of 4050 K [114] and pressures of 90 GPa [115] have been reported for multi-anvil presses, although for most conventional devices in laboratories and synchrotrons the maximum pressure is limited to 25 GPa and the maximum temperature to 2500 K. Therefore, the routinely obtainable P-T range in the LH-DAC (or RH-DAC) is much greater than that of a multi-anvil press, but the precision to which the melting temperature can be determined in a DAC is, in general, much lower.…”

Section: Large Volume Presses (Lvp)mentioning

confidence: 99%

A Review of the Melting Curves of Transition Metals at High Pressures Using Static Compression Techniques

Parisiades

2021

Crystals

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The accurate determination of melting curves for transition metals is an intense topic within high pressure research, both because of the technical challenges included as well as the controversial data obtained from various experiments. This review presents the main static techniques that are used for melting studies, with a strong focus on the diamond anvil cell; it also explores the state of the art of melting detection methods and analyzes the major reasons for discrepancies in the determination of the melting curves of transition metals. The physics of the melting transition is also discussed.

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“…High P–T experiments were carried out in DS6 × 14MN and DS6 × 10MN cubic presses using previously reported P and T calibrations. − The starting materials of amorphous boron (a-rhombohedral, >96.6% purity, Aladdin Co., China) and H 3 BO 3 (>99.9% purity, Aladdin Co., China) were mixed in a molar ratio of B/H 3 BO 3 = 16:2.4. Excess boric acid was used to eliminate boron from the final product.…”

Section: Experimental Proceduresmentioning

confidence: 99%

“…Excess boric acid was used to eliminate boron from the final product. The mixtures were homogeneously ground and compressed into pellets of 6 mm diameter and 6 mm height, and then loaded into an hBN capsule. , The samples were compressed to a desired pressures of 3–5.5 GPa before heating to 600–2200 °C for 20 min and then cooled to a room temperature at a rate of 100 °C/min. The recovered samples were washed with boiling water for several hours to completely remove possible impurities.…”

Section: Experimental Proceduresmentioning

confidence: 99%

Growth of Millimeter Size B₆O Single Crystals in a B-H₃BO₃ System at High Pressure and High Temperature

Han

et al. 2020

Crystal Growth & Design

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We report high-pressure synthesis of single-crystal boron suboxide (B6O), one of the superhard materials, using a reaction route between B and H3BO3 at 3–5.5 GPa and 600–2200 °C. At optimized pressure and temperature conditions of 5.5 GPa and 2100 °C, large B6O single crystals can be obtained with a crystallite size of more than 2 mm. Boric acid (H3BO3) was used as a starting material because it is easily decomposed into B2O3 and H2O at a lower temperature. The B2O3 produced by the decomposition should have a small particle size and thus have high reactivity, and the reaction byproduct H2O provides a good hydrostatic environment for the growth of B6O. Therefore, it is easier to synthesize and grow B6O by using a B-H3BO3 system as reaction raw materials. This work discussed the B6O growth mechanism in detail. In addition, photoluminescence experiments and first-principles calculations show that B6O is a direct band gap semiconductor material with good orange-red emission characteristics (the band gap is 1.83 eV). The results of this study indicate a method to grow large B6O single crystals that have great potential use in industrial applications.

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Large-volume cubic press produces high temperatures above 4000 Kelvin for study of the refractory materials at pressures

Cited by 24 publications

References 49 publications

Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

A Review of the Melting Curves of Transition Metals at High Pressures Using Static Compression Techniques

Growth of Millimeter Size B₆O Single Crystals in a B-H₃BO₃ System at High Pressure and High Temperature

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Large-volume cubic press produces high temperatures above 4000 Kelvin for study of the refractory materials at pressures

Cited by 24 publications

References 49 publications

Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

Synthesis, Crystal Structures, Mechanical Properties, and Formation Mechanisms of Cubic Tungsten Nitrides

A Review of the Melting Curves of Transition Metals at High Pressures Using Static Compression Techniques

Growth of Millimeter Size B6O Single Crystals in a B-H3BO3 System at High Pressure and High Temperature

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Growth of Millimeter Size B₆O Single Crystals in a B-H₃BO₃ System at High Pressure and High Temperature