Master Data Collection Table

	A	B	C	D	E	F	G	H	I	J	K	L	M	N	O	P	Q	R	S	T	U	V	W	X	Y	Z	AA	AB	AC	AD	AE	AF
1		SM Chemical Explosives Data Gathering Project	Last backup: 15/4/2015 11:58PM EST
2		Name		Chemical Properties								Performance Properties											Sensitivity						References
3	Count	Chemical Name (blue=need calculations) (red=need data)	Accepted abbreviation(s)	Chemical formula	Mol. Mass	Heat of formation (kJ/mol)	Volume of det. gases (L/kg) (red=calculated by Dornier)	% Nitrogen	Oxygen Balance (%)	TMD (g/cc)	Melting point (C) (decomp. Y/N)	Dcj at TMD (m/s)	Measured density (g/cc)	Measured VoD at measured density (m/s)	Pcj (kbar)	Heat of explosion/kg (kJ/kg) (red=calculated by Dornier)	Explosion temperature (K) (red=calculated by Dornier)	Critical diameter (mm)	Sand crush test (g crushed by 0.4 g explosive)	Sand crushed / volume (volumic brisance) (g/ccm)	Lead block test/10g (weight performance - ccm/10g)	Lead block test for 5 ccm (volumic performance - ccm/5ccm)	Informal Classification	Impact sensitivity (Nm)	Friction sensitivity (N)	ESD Sensitivity (J)	Heat sensitivity (temperature of detonation/explosion) (°C)	Temperature of decomposition (°C)	Data By:	Reference 1 Black = not in public folder Blue = Available in folder	Reference 2	Reference 3

4	1	5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole	DNBTM	C5H6N10O4	270.2	358	702	51.8	-53.3			8511	1.864		309		3450						Primary	1	60			242	Praxichys	5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE
5	2	5,5'-Diamino-3,3'-methylene-1H-1,2,4-bistetrazole	DABTM																										Praxichys	5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE
6	3	Bis-guanidinium 5,5'-dinitrimino-3,3'-methylene-1H-1,2,4-triazolate		C7H16N16O4	388.3	219	772	57.7	-74.2	1.615		7527				3434	2510							40	360			239	Praxichys	5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE
7	4	Triaminoguanidinium 5,5'-dinitrimino-3,3'-methylene-1H-1,2,4-triazolate		C6H14N16O4	374.3	649	781	59.9	-64.1	1.733		8438				4611	3123							40	192			209	Praxichys	5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE
8	5	1,1,3,5,5-Pentanitro-1,5-bis(5-nitrotetrazol-2-yl)-3-azapentane	NTEA	C6H4N16O14	524.2	651	684	42.7	0	2.06	65	10600	1.78	9000	494	6666													Dornier	Engager's Energetic Derivatives of Tetrazole (2009)
9	6	4,4�-Dinitro-3,3�-diazenofuroxan	DFF	C4N8O8	288	667	622	38.9	0	2.02		10000	2.02	10000	500	7771													Dornier	A review of advanced high performance, insensitive and thermally stable energetic materials emerging for military and space applications (2004)
10	7	3,3'-Dinitro-4,4'-azoxyfurazan	DNAF	C4N8O7	272.12	644	659	41.2	-5.9	1.91		9800			458	7111													Dornier	Glyoxime, Diaminofurazan and some Energetic Derivatives, by AXT
11	8	Dinitromethyltetrazole		C2H2N6O4	174	670		48.3	-9.2	1.87		9594			403									3	28				Dornier	Azole-Based Energetic Salts, Haixiang Gao
12	9	Octanitrocubane	ONC	C8N8O16	576	594	579	38.9	0	2.1		10100			500	8062													Dornier	Novel Ultrahigh-Energy Materials, M. B. Talawar (2005)
13	10	1-Diazidocarbamoyl-5-azidotetrazole		C2N14	220	1495	712	89	-29.1	1.723		8960 (9300)			339 (367)									< 0.25	< 1				Dornier	C2N14 : An Energetic and Highly Sensitive Binary Azidotetrazole, Klapötke
14	11	1,1'-Azobis(tetrazole)		C2H2N10	166	1060	809	84.3	-48.2	1.774		9371				6380								< 1	< 5			80	Dornier	1,10-Azobis(tetrazole): A Highly Energetic Nitrogen-Rich Compound with a N10 Chain, Klapötke
15	12	Bis(triaminoguanidinium) bis(2,2-dinitroethanide)nitroamine	BDNENA salt	C6H22N18O10	506.4	623	963	49.79	-41.1	1.99		10004			462	5369												132	Dornier	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
16	13	Cyclotrimethylene trinitramine	RDX	C3H6N6O7	222.12	70	739	37.8	-21.6	1.8		8936	1.767	8750	349	6125	4236							7	120	0.1-0.2		210	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
17	14	Triaminoguanidinium 1-methyl-5-nitriminotetrazolate	TAG-1MNT	C3H12N12O2	248.21	569	885	67.72	-64.46	1.57		8765			273	4883	3209							8	240	0.4		210	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
18	15	3,6-(Bistrinitroethylamino)-1,2,4,5-tetrazine	BTAT	C6H6N12O12	438.19	336	743	38.36	-10.95	1.886		9261			389	6135	4867							6	160	0.2		184	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
19	16	Hydroxylammonium 5-nitriminotetrazolate	HANT	CH5N7O3	163.13	290.5	874 (853)	60.12	14.71	1.785		9334 (9236)			368 (371)	6062 (6113)	4380 (4219)							2	40	0.3		180	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
20	17	Diaminouronium 5-nitriminotetrazolate	DAUNT	C2H8N10O3	220.2	70	861	63.62	-36.33	1.806		9012			331	4873	3464							5	108	0.5		199	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
21	18	1,7-Diamino-1,7-dinitrimino-2,4,6-trinitro-2,4,6-triazaheptane	APX	C4H8N12O10	384.18	272	816	43.75	-8.33	1.911		9540			398	5935	4489							3	80	0.1		174	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
22	19	Ammonium dinitroguanidine	ADNQ	CH6N6O4	166.09	-1.5	934	50.6	-9.63	1.735		9066			327	5193	3828							10	252	0.4		197	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
23	20	3-Amino-1-nitroguanidine	ANQ	CH5N5O2	119.08	77	890	58.81	-33.6	1.767		8977			323	4934	3436							20	144	0.15		184	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
24	21	3-Amino-1-nitroguanidinium nitrate	ANQN	CH6N6O5	182.1	22	866	46.2	0	1.905		9755			419	6226	4357							10	120	0.5		130	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
25	22	Diaminouronium nitrate	DAUNO3	CH7N5O4	153.1	-180	925	45.74	-15.67	1.782		8829			317	5014	3480							9	288	0.6		242	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
26	23	Dinitroazoxyfurazane	DNAF	C4N8O7	272.09	706	625	41.18	-5.88	1.84		9203			379	7078	6070							2	48			208	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
27	24	Diamino-oxadiazolium 5-aminotetrazolate	DAODH-AT	C3H7N9O	185.15	680	802	68.09	-73.45	1.76		9382			348	4034	3719							>40	>360	1		170	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
28	25	Triaminoguanidinium dinitriminoazatriazolate	TAG2-DNAAT	C6H20N24O4	492.38	260	352	69.27	58.49	1.70 (est.)		8890			300	4681	3213							>40	>360	1		212	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
29	26	Bis(tetrazolyl)amine	H2BTA	C2H3N9	153.13	648	752	82.34	-57.47	1.861		9275			356	4632	3530							10	>360	2		250	Praxichys	CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer*
30	27	Dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate	TKX-50	C2H8N10O4	236.15	446.6	846	59.3	-27.1	1.877		9698	1.877		424	6025	3954							20	120	0.1		221	Praxichys	Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer
31	28	2,4,6-trinitrotoluene	TNT	C7H5N3O6	227.13	-55.5	569	18.5	-73.96	1.648		7459	1.6	6900	235	5258	3663							15	353			290	Praxichys	Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer
32	29	Cyclotetramethylene tetranitramine	ß-HMX	C4H8N8O8	296.16	116.1	908	37.84	-21.61	1.904	267-280	9221	1.9	9100	393	5110	4185		60.4		145% TNT			7	112	0.2	306	279	Praxichys/Dornier	Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, \| Encyclopedia of explosives and related items, Fedoroff (vol 3 C605) \| Novel Ultrahigh-Energy Materials, M. B. Talawar (2005)
33	30	Hexanitrohexaazaisowurtzitane	CL-20, HNIW	C6H6N12O12	438.19	365.4	767	38.3	-10.95	2.035		9455			467	6406	4616							4	48	0.13		215	Praxichys	Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer
34	31	Oxalyldihydrazinium nitrate	OHN	C2H7N5O5	181.11	236.9	827		-22.08	1.84		8655			325	4,661	3,275							11	>360			273	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
35	32	Oxalyldihydrazinium dinitrate	OHDN	C2H8N6O8	244.12	925.9	825		0	1.945		8594			331	3,978	3,042							7	200			155	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
36	33	1,1-dinitro-2,2-diaminoethene	FOX-7, DADNE	C2H4N4O4	148.08	13.3	741		-21.61	1.907		8827			363	5,306	3,758							12-14	340			235	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
37	34	Guanylurea dinitramide	FOX-12	C2H7N7O5	209.12	254.4	827		-22.08	1.775		8591			316	5,067	3,471							>30	>360			215	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
38	35	Triaminotrinitrobenzene	TATB	C6H6N6O6	258.15	11.4	640		-55.78	1.93		8335			312	4,625	3,297							50	>360			350	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
39	36	2-amino-5-nitrotriazole	ANTA	C2H3N5O2	129.08	188.8	736		-43.38	1.819		8181			287	4,313	3273							35	>360			241	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
40	37	Dinitroglycoluril	DINGU	C4H4N6O6	232.11	-188.2	661		-27.57	1.992		8364			331	4,206	3,306							18	250			225	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
41	38	3,5-dinitro-2,6-pyrazinediamine 1-oxide	LLM-105	C4H4N6O5	216.11	126.7	660		-37.01	1.92		8482			333	4,935	3,676							18-30	>360			342	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
42	39	Nitrotriazolone	NTO	C2H2N4O3	130.06	-16.5	683		-24.6	1.926		8167			301	3,967	3,237							71	>360			270	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
43	40	2,4-dinitroanisole	2,4-DNI	C3H2N4O4	158.07	108	635		-30.36	1.77		7938			279	5,183	4,021							>25	140			270	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
44	41	Tetranitroglycoluryl	TNGU	C4H2N8O10	321.99	48.8	659		4.97	2		8779			378	5,482	4,474							25	194			>200	Praxichys	Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER
45	42	Diammonium bis(2,2-dinitroethanide)nitroamine	BDNENA salt	C4H12N8O10	332.2	624.4		33.7	-19.3	1.78		8982			364													94.2	Praxichys	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
46	43	Dihydrazinium bis(2,2-dinitroethanide)nitroamine	BDNENA salt	C4H14N10O10	362.2	770		38.7	-22.1	1.79		9305			390													117.4	Praxichys	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
47	44	Bis(guanidinium) bis(2,2-dinitroethanide)nitroamine	BDNENA salt	C6H16N12O10	416.3	575.9		40	-38.4	2.02		9587			428													141.3	Praxichys	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
48	45	Bis(diaminoguanidinium) bis(2,2-dinitroethanide)nitroamine	BDNENA salt	C6H20N16O10	476.3	769		47.1	-40.3	1.88		9314			378													120.5	Praxichys	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
49	46	Bis(2,2,2-trinitroethanide)nitroamine	BTNENA	C4H4N8O14	388.1			28.9	16.5	1.97		8661			355													94.5	Praxichys	Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine
50	47	5,5’-azo-bis(1-oxidotetrazole)		C2H2N10O2	198.1	883.2	733	70.7	-24.23	1.902		9548			424	6648	4973							<1	<5	0.01			Praxichys	Synthesis of 5-Aminotetrazole-1N-oxide and Its Azo Derivative: A Key Step in the Development of New Energetic Materials
51	48	Hydrazinium nitroformate	HNF	CH5N5O6	183.1			38.2	13.1	1.86		8902			469														Praxichys	Synthess, characterization, and thermal behavior of hydrazinium nitroformate (HNF) and its new n-alkyl substituted derivatives
52	49	Monomethylhydrazinium nitroformate	MMHNF	C3H9N5O6	197			33.2	-12.17	1.78		9134			372														Praxichys	Synthess, characterization, and thermal behavior of hydrazinium nitroformate (HNF) and its new n-alkyl substituted derivatives
53	50	3-nitramino-4-nitrofurazan	NNF	C2HN5O5	175.1			40		1.95		9860			464														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
54	51	ammoium 3-nitramino-4-nitrofurazan	ANNF	C2H3N6O5	191.1			44		1.82		9880			465														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
55	52	hydroxylammonium 3-nitramino-4-nitrofurazan	HANNF	C2H4N6O6	208.1			40		1.89		10010			478														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
56	53	Bis(3-amino-4-nitrofurazanyl)methylenedinitramine ?	MBNNF							1.92		9690			447														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
57	54	3-amino-4-nitrofurazan	ANF	C2H2N4O3	130.1			41		1.84		9310			412														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
58	55	Bis(3-amino-4-nitrofurazanyl)methylenediamine ?	MBANF							1.8		8880			372														Praxichys	Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials
59	57	3-amino-3’-azido-4,4’-azoxyfurazan	AAAF	C4H2N10O3	238.2			58.8	-40.3	1.74		9400			426														Praxichys/Dornier	Glyoxime, Diaminofurazan and some Energetic Derivatives, by AXT
60	58	Tetrazino-tetrazine-tetraoxide	TTTO (DTTO)	C2N8O4	200.1	858	672	56	0	1.9		9700			431	8,231													Dornier/Dany	Computational Characterization of Two Di-1,2,3,4-tetrazine Tetraoxides, DTTO and iso-DTTO, as Potential Energetic Compounds
61	59	Pentaerythritol tetranitrate	PETN	C5H8N4O12	316.2	-538.5	779	17.7	-10.1	1.78	140	8481	1.76	8260	335 (1.77 g/cc)	6,908		8.38<dc<19 mm											Dany/Praxichys	LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants; Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown
62	60	Erythritol tetranitrate	ETN	C4H6N4O12	302.11	117.7	704	18.5		1.72	60	8206	1.72															193	Praxichys	Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown
63	61	Ethylene glycol dinitrate (nitroglycol)	EGDN	C2H4N2O6	152.1	-227.84	737	18.4	0	1.48	-22		1.492	7300		6743					620						217		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition; Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown
64	62	Glycerol trinitrate	NG	C3H5N3O9	227.1	-349.7	716	18.5	3.5	1.591	2.2		1.59	7600		6231					520			0.2	>353				Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
65	63	Picric Acid	PA, TNP	C6H3N3O7	229.1	-232.4	826	18.3	-45.4	1.767	122.5		1.7	7350		995		4			315		Secondary	7.4	>353		300		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
66	64	Trinitroaniline (picramide)	TNA	C6H4N4O6	228.12	-66.65	838	24.6	-56.1	1.762	188		1.72	7300		3589		3.5			310		Secondary	15	>353				Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
67	65	Picramic acid (dinitroaminophenol)		C6H5N3O5	199.12	-232.64	847	21.1	-76.3		169										166		Intermediate	34	>353		240		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
68	66	Diazodinitrophenol	DDNP	C6H2N4O5	210.1	207.77		26.7	-60.9	1.63			1.5	6600									Primary	1.5					Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
69	67	Styphnic acid (trinitoresorcinol)	TNR	C6H3N3O8	245.1	-505.7	814	17.15	-35.9	1.83	176					2592		14			284		Intermediate	7.4	>353		223		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
70	68	2,4,6-trinitrophenylmethylnitramine	Tetryl	C7H5N5O8	287.1	42.4	861	24.39	-47.4	1.73	129.5		1.71	7570		4773		6			410		Secondary	3	>353		185		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
71	69	2,4,6-trinitrophenylnitraminoethyl nitrate	Pentryl	C8H6N6O11	362.2			23.19	-35.4	1.75	128										450			4			235		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
72	70	Bis(2,4,6-trinitrophenyl)aminoethyl nitrate	HNDPAN
73	71	Propylene glycol trinitrate	PGDN
74	72	Trinitromethane	Nitroform	CHN3O6	151			27.83	37.1	1.59	22																		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
75	73	Ethylene dinitramine	EDNA	C2H6N4O4	150.1	84.06	tbc	37.33	-32	1.66-1.77	174		1.55	7883	29.8 (ref.2)	5334	tbc							48 cm			190	189 (5 seconds)	Dany	1-Military Explosives, DEPARTMENT OF THE ARMY TECHNICAL MANUAL, TM 9-1300-214, 2- Computer simulation for prediction of performance and thermodynamic parameters of high energy materials, Journal of Hazardous Materials A112 (2004) 17–33
76	74	Heptanitrocubane	HNC
77	75	cis-syn-cis-2,6-Dioxo-1,3,4,5,7,8-hexanitrodecahydro-lH,5H-diimidazo[4,5-b:4',5'-e]pyrazine (HHTDD)	HHTDD
78	76	Methylene dinitramine	MEDINA
79	77	Methylene diisonitramine	MEDNA
80	78	Hydrazinium 5-aminotetrazolate		CH7N7	117.1	384	1339	83.7	-75.1	1.54	125	8786			248													164	Dornier	Azole-Based Energetic Salts, Haixiang Gao
81	79	1,3,5-trinitrobenzene	TNB	C6H3N3O6	213.1	-28.66	805	19.72	-56.3	1.76	123.2		1.71	7300							325			7.4	>353				Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
82	80	1,3,5-triazido-2,4,6-trinitrobenzene	TATNB
83	81	Ammonium picrate	Dunnite	C6H6N4O7	246.1	-365.5	909	22.77	-52	1.72	280 decomp.		1.6	7150										> 19					Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
84	82	Methyl nitrate	MN	CH3NO3	77	-147.1	873	18.2	-10.4	1.217	boils 65		1.217	6300		6748		18			610			0.2	>353				Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
85	83	Mannitol hexanitrate	MHN	C6H8N6O18	452.2	-636.2	694	18.59	7.1		112		1.73	8260		5855					510			0.8					Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
86	84	Isosorbitol dinitrate		C6H8N2O8	236.1			11.87	-54.2				1.08	5300							311			15	160		173		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
87	85	Nitroguanidine	NQ	CH4N4O2	104.1	-92.5	tbc	53.8	-30.7	1.775	257		1.629	7980	256		1581												Dany	1-LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants, 2-C.L.MADER/Numerical Modeling of Explosive and propellants
88	86	Urea nirate	UN	CH5N3O4	123.1	-548	910	34.14	-6.5	1.59	140					3211					270			>49	>353		186		Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
89	87	Ammonium nitrate	AN
90	88	Acetone peroxide (tricycloacetone peroxide, triacetone triperoxide)	AP, TATP, TCAP	C9H18O6	222.1			0	-151.3		91										250			0.3	0.1				Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
91	89	Methyl ethyl ketone peroxide	MEKP
92	90	Hexamethylene triperoxide diamine	HMTD	C6H12N2O6	208.1	-334.6	1075	13.46	-92.2	1.57		4500				3450					330			0.6	0.1		200	150	Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
93	91	1,2,4-Butanetriol trinitrate	BTTN
94	92	2,4,6-Triazido-1,3,5-triazine (cyanuric triazide)
95	93	Melamine nitroformate	MNF
96	94	Nitromethane	NM	CH3NO2	61	-105.5	1059	22.96	-39.3	1.1385	-29		1.1385	6290		4466					400								Praxichys	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition
97	95	Benzotrifuroxan	BTF	C6N6O6	252.1	606	tbc	33.3	-38.1	1.901	198-200		1.86	8490	360 (1.859 g/cc)	6,177	4059												Dany	1-LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants, 2-C.L.MADER/Numerical Modeling of Explosive and propellants
98	96	Tetranitromethane	TNM	CN4O8	196	53.3	685	28.59	49	1.6377	14	6360			159	2200	2800												Praxichys/Dornier	Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition	Numerical modeling of explosives and propellants, Third edition
99	97	Hexanitrobenzene	HNB	C6N6O12	348.1	18	597	24.1	0	1.973		9300				6834													Dornier	Numerical modeling of explosives and propellants, Third edition
100	98	Bis(2,2,2-trinitroethyl) carbonate	BTNEC	C5H4N6O15	388			21.6	12.4	1.975																			Dornier	Klapötke Exceeding the oxygen content of liquid oxygen: bis(2,2,2-trinitroethyl) carbonate.