High-Pressure Polymeric Nitrogen Allotrope with the Black Phosphorus Structure

Laniel, Dominique; Winkler, Bjoern; Fedotenko, Timofey; Pakhomova, Anna; Chariton, Stella; Milman, Victor; Prakapenka, Vitali B.; Dubrovinsky, Leonid; Dubrovinskaia, Natalia

doi:10.1103/physrevlett.124.216001

Cited by 136 publications

(119 citation statements)

References 69 publications

(107 reference statements)

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“…The samples were mainly characterized by single-crystal (sc-XRDp) and powder x-ray diffraction (XRDp) measurements. The subscript "p" in sc-XRDp emphasizes the very small, just a few microns size of the single crystals, for which a special approach to the high-pressure XRD data acquisition and analysis was recently developed in high-pressure crystallography [28], and its reliability demonstrated numerous times [35][36][37]. The x-ray diffraction data were acquired at the P02.2 and 13-IDD beamlines of PETRA III and the APS, respectively.…”

Section: A Experimental Methodsmentioning

confidence: 99%

Novel sulfur hydrides synthesized at extreme conditions

et al. 2020

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The sulfur-hydrogen system is the first one in which superconductivity at temperatures over 200 K has been reported, albeit at high pressure. The particular phases causing the measured T c and their structures are not yet firmly identified. Here, synchrotron single-crystal x-ray diffraction studies of S-H samples were performed up to 150 GPa and revealed two previously unobserved and unpredicted sulfur-hydrogen phases-H 6±x S 5 with x ∼ 0.4, and H 2.85±y S 2 with y ∼ 0.35. The crystallographic data obtained in this work, both for the new phases and for the previously identified H 3 S polymorphs, provide an unambiguous experimental proof of the chemical richness of the S-H system and the structural diversity of compounds forming at high pressures and high temperatures. Our results have profound implications for the interpretation of the resistance, superconductivity, and other physical properties measurements on the complex S-H system.

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Section: A Experimental Methodsmentioning

confidence: 99%

Novel sulfur hydrides synthesized at extreme conditions

et al. 2020

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“…The elementary substances of the group 15 elements P to Bi are solid polymers under ambient conditions, while until recently nitrogen was only known as a dimeric gas. Predicted polymeric 'black nitrogen' phases are now established at high pressures and temperatures (Cheng et al, 2020;Ji et al, 2020;Laniel et al, 2020). The lightest member of group 15 is not that different, if very different conditions are compared.…”

Section: Group 15: Pentachlorides and Chainsmentioning

confidence: 99%

“…In fact the pre-halogen nonmetals share more distinctive properties than any other class of elements. While the noble gases, as elemental substances, can be characterized by their invisibility and torpidity, and the halogens by their variegated appearance and acridity, the non-metallic pre-halogen elements exhibit the following characteristics: (i) being sandwiched between the strongly electronegative halogen nonmetals and the 'weakly (non)metallic' metalloids, their physical and chemical character is overall 'moderately nonmetallic'; (ii) the elemental substances have a semi-metallic [graphitic carbon, black phosphorus (the most stable form under ambient conditions, now easily prepared by Tiouitchi et al, 2019), selenium] or colored (sulfur) or colorless (hydrogen, nitrogen, and oxygen) appearance and possess a brittle comportment if in solid phase (including N under high pressure: Cheng et al, 2020;Ji et al, 2020;Laniel et al, 2020); (iii) they show an overall tendency to form covalent compounds featuring localized and catenated bonds as chains, rings, and layers; (iv) in light of their relatively small atomic radii and sufficiently low ionization energy values, a capacity to form interstitial and refractory compounds (West, 1931;Goldschmidt, 1967;Glasson and Jayaweera, 1968;Wulfsberg, 2000); (v) prominent geological, biochemical (beneficial and toxic), organocatalytic, and energetic aspects (Akerfeldt and Fagerlind, 1967;Hutzinger, 1980;Dalko and Moisan, 2004;Nancharaiah and Lens, 2015;Vernon, 2020a).…”

Section: Periodically Unexpected Facts Finally Accommodatedmentioning

confidence: 99%

Understanding Periodic and Non-periodic Chemistry in Periodic Tables

et al. 2021

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The chemical elements are the “conserved principles” or “kernels” of chemistry that are retained when substances are altered. Comprehensive overviews of the chemistry of the elements and their compounds are needed in chemical science. To this end, a graphical display of the chemical properties of the elements, in the form of a Periodic Table, is the helpful tool. Such tables have been designed with the aim of either classifying real chemical substances or emphasizing formal and aesthetic concepts. Simplified, artistic, or economic tables are relevant to educational and cultural fields, while practicing chemists profit more from “chemical tables of chemical elements.” Such tables should incorporate four aspects: (i) typical valence electron configurations of bonded atoms in chemical compounds (instead of the common but chemically atypical ground states of free atoms in physical vacuum); (ii) at least three basic chemical properties (valence number, size, and energy of the valence shells), their joint variation across the elements showing principal and secondary periodicity; (iii) elements in which the (sp)8, (d)10, and (f)14valence shells become closed and inert under ambient chemical conditions, thereby determining the “fix-points” of chemical periodicity; (iv)peculiar elements at the top and at the bottom of the Periodic Table. While it is essential that Periodic Tables display important trends in element chemistry we need to keep our eyes open for unexpected chemical behavior in ambient, near ambient, or unusual conditions. The combination of experimental data and theoretical insight supports a more nuanced understanding of complex periodic trends and non-periodic phenomena.

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“…Hitherto, only a few classes of compounds containing homonuclear polynitrogen species were stabilized at ambient conditions: azides (N 3 − ), [1] diazenides and pernitrides (N 2 x − ), [2, 3] pentazolates (N 5 − ), [4, 5] pentazenium (N 5+ ) salts, [6] and most recently Mg 2 N 4 containing cis ‐tetranitrogen (N 4 4− ) [7] . The application of pressure allows stabilizing polymeric nitrogen species either in nitrogen polymorphs like cg ‐N [8] and bp ‐N [9] or in compounds with metals (CsN 5 , [10] LiN 5 , [11] MgN 4 , [7] BeN 4 , [12] FeN 4 , [13, 14] etc.). Recent experimental and theoretical studies suggest that the choice of metal significantly affects the resulting connectivity of polymeric or oligomeric nitrogen frameworks in high‐pressure compounds and therefore it allows tuning the properties of the polynitrides [15–19] .…”

Section: Introductionmentioning

confidence: 99%

Stabilization of Polynitrogen Anions in Tantalum–Nitrogen Compounds at High Pressure

et al. 2021

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The synthesis of polynitrogen compounds is of great importance due to their potential as high-energy-density materials (HEDM), but because of the intrinsic instability of these compounds,t heir synthesis and stabilization is af undamental challenge.P olymeric nitrogen units whichm ay be stabilized in compounds with metals at high pressure are now restricted to non-branched chains with an average NÀNb ond order of 1.25, limiting their HEDM performances.Herein, we demonstrate the synthesis of an ovel polynitrogen compound TaN 5 via ad irect reaction between tantalum and nitrogen in adiamond anvil cell at circa 100 GPa. TaN 5 is the first example of am aterial containing branched all-single-bonded nitrogen chains [N 5 5À ] 1 .A part from that we discover two novel Ta-N compounds:T aN 4 with finite N 4 4À chains and the incommensurately modulated compound TaN 2Àx ,which is recoverable at ambient conditions.

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High-Pressure Polymeric Nitrogen Allotrope with the Black Phosphorus Structure

Cited by 136 publications

References 69 publications

Novel sulfur hydrides synthesized at extreme conditions

Novel sulfur hydrides synthesized at extreme conditions

Understanding Periodic and Non-periodic Chemistry in Periodic Tables

Stabilization of Polynitrogen Anions in Tantalum–Nitrogen Compounds at High Pressure

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