International Reviews in Physical Chemistry, volume 25, issue 4, pages 527-552

All-nitrogen chemistry: how far are we from N60?

P.C. Samartzis ¹

Alec M. Wodtke ¹

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a Department of Chemistry and Biochemistry , University of California , Santa Barbara , CA 93106 , USA |

Publication type: Journal Article

Publication date: 2006-10-03

Taylor & Francis

Journal: International Reviews in Physical Chemistry

Quartile SCImago

Quartile WOS

SJR: 0.660

CiteScore: 14.2

Impact factor: 2.5

ISSN: 0144235X, 1366591X

DOI: 10.1080/01442350600879319

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Physical and Theoretical Chemistry

Abstract

Two hundred years of research have produced only a handful of synthesized all-nitrogen molecules and ions but a lot of stable N n candidates are waiting to be detected. Experimentally, besides the long-known neutrals N2 and linear-N3 there are recent reports of N4 and cyclic-N3 production. In the ions, and have been reported. Ongoing theoretical work has predicted species like N4, N6, N8, N10 and even N60 to be stable. We review the work that has been done recently in this area in both experiment and theory. Contents PAGE 1. Introduction 528 2. Trinitrogen (N3) 529 3. Trinitrogen 534 4. Pentanitrogen 536 5. Hexanitrogen 539 6. Heptanitrogen 541 7. Octanitrogen 541 8. Polynitrogen compounds with more than eight nitrogens 544 8.1 N9 544 8.2 N10 544 8.3 N11 545 8.4 N12 545 8.5 N13−N15 546 8.6 N20−N36 546 8.7 N60 547 9. Conclusions 548 References 549

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Samartzis P., Wodtke A. M. All-nitrogen chemistry: how far are we from N60? // International Reviews in Physical Chemistry. 2006. Vol. 25. No. 4. pp. 527-552.

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Samartzis P., Wodtke A. M. All-nitrogen chemistry: how far are we from N60? // International Reviews in Physical Chemistry. 2006. Vol. 25. No. 4. pp. 527-552.

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