My-Hang V. Huynh scite author profile

The performance of a high explosive is measured by its detonation velocity (v D (km sec À1 )) and detonation pressure (P CJ (kbar)). These parameters are determined by the oxygen balance (OB CO ), [1a] density (1), and heat of formation (DH f ), [1b] the higher the oxygen balance, density, and heat of formation, the better the performance. The energy of traditional polynitro compounds (Scheme 1) is primarily derived from the combustion of the carbon backbone using the oxygen carried by the nitro group. [2] For modern polynitro compounds (Scheme 2), the performance is enhanced not only by an excellent oxygen balance but also by a ring/cage strain which improves both the heat of formation and density. [4] Recently, a new class of energetic compounds containing a large fraction of nitrogen has been investigated. [5][6][7][8] These "high-nitrogen" compounds form a unique class of energetic materials [5a, 9] whose energy is derived from their very high positive heat of formation rather than from the combustion of the carbon backbone or the ring/cage strain (Scheme 3). The high heat of formation is directly attributable to the large number of inherently energetic NÀN and CÀN bonds.High-nitrogen compounds containing polyazides possess even higher heats of formation because their energy content rapidly increases with the number of energetic azido groups in the molecule. However, they are notorious for their extreme sensitivity [10a] to spark, friction, and impact (H 50 ) [10b] as well as poor thermal stability, [10a, 11, 12] so their applications are very limited. Examples include 3,6-diazido-1,2,4,5-tetrazine [13] and cyanuric azide (2,4,6-triazido-1,3,5-triazine; [14] Scheme 4).

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Polyazido High‐Nitrogen Compounds: Hydrazo‐ and Azo‐1,3,5‐triazine

Huynh

Hiskey

Hartline

et al. 2004

Angewandte Chemie

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Proton-Coupled Electron Transfer from Sulfur: A S-H/S-D Kinetic Isotope Effect of ≥31.1

Huynh¹,

White²,

Meyer³

2000

Angew. Chem. Int. Ed.

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Proton-Coupled Electron Transfer from Sulfur: A S-H/S-D Kinetic Isotope Effect of ≥31.1

2000

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There is an extensive redox chemistry of high oxidation state ruthenium(iv) oxo, [1] and osmium(vi) nitrido, [2] and osmium(iv ± vi) hydrazido [3] complexes based on multiple electron/atom transfers such as O atom, [4] N À ion, [3] and H À [2]Cl 6´1 6 H 2 O: To a solution of Na[AuCl 4 ] (0.10 g, 0.28 mmol) in water (2 mL) was added 2,2'-thiodiethanol (0.16 mL). The resulting colorless solution was added to a solution of [1]Cl 2´5 H 2 O (0.20 g, 0.24 mmol) in water (40 mL). The mixture was stirred at RT for 30 min, followed by addition of several drops of a saturated NaCl aqueous solution. The reaction solution was allowed to stand at RT for 5 days, which gave dark green-brown microcrystals. Yield: 0.22 g (82 %); elemental analysis for [Au 2 {Pd[Co(C 6 H 18 N 3 S 3 ) 3 ] 2 } 2 ]Cl 6´1 6 H 2 O: calcd C 12.77, H 4.64, N 7.45; found: C 12.71, H 4.69, N 7.43; 13 C NMR (500 MHz, D 2 O, DSS): d 34.86, 35.55, 40.40 (CH 2 S), 48.44, 56.00, 57.22 (CH 2 N); UV/Vis (H 2 O): s max /10 3 (log e) 18.36 (3.05), 26.91 (4.63), 30.56 (4.76), 33.6 (4.7 sh), 43.6 cm À1 (4.8 m À1 cm À1 sh). [3](NO 3 ) 6´9 H 2 O: To a solution of [1](NO 3 ) 2´1 .5 H 2 O (0.20 g, 0.24 mmol) in water (40 mL), AgNO 3 (0.04 g, 0.24 mmol) was added. The mixture was stirred at RT for 30 min, followed by addition of several drops of a saturated aqueous NaNO 3 . The reaction solution was allowed to stand at RT for 5 days, which gave dark green-brown microcrystals. Yield: 0.20 g (80 %); elemental analysis for [Ag 2 {Pd[Co(C 6 H 18 N 3 S 3 ) 3 ] 2 } 2 ](NO 3 ) 6´9 H 2 O: calcd : C 13.65, H 4.29, N 11.94; found: C 13.44, H 4.28, N 11.71; 13 C NMR (500 MHz, D 2 O, DSS): d 33.03, 35.21, 39.27 (CH 2 S), 50.02, 55.98, 57.25 (CH 2 N); UV/Vis (H 2 O): s max /10 3 (log e) 17.82 (3.00), 27.1 (4.6 sh), 30.56 (4.85), 33.8 (4.7 sh), 43.7 cm À1 (4.8 m À1 cm À1 sh).[1] a) J. M. Lehn, Supermolecular Chemistry: Concepts and Perspectives,

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Huynh

White

Meyer

2000

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My-Hang V. Huynh

Polyazido High‐Nitrogen Compounds: Hydrazo‐ and Azo‐1,3,5‐triazine

Polyazido High‐Nitrogen Compounds: Hydrazo‐ and Azo‐1,3,5‐triazine

Proton-Coupled Electron Transfer from Sulfur: A S-H/S-D Kinetic Isotope Effect of ≥31.1

Proton-Coupled Electron Transfer from Sulfur: A S-H/S-D Kinetic Isotope Effect of ≥31.1

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