Insights into the 5,5′-bis(1<i>H</i>-tetrazolyl)amine monohydrate (BTA·H<sub>2</sub>O) pyrolysis mechanism: integrated experimental and kinetic model analysis

Zhang, Jianwei; Chen, Ling; Han, Peichen; Li, Chunzhi; Yuan, Ye; Wu, Bo; Chen, Feiyun; He, Weidong

doi:10.1039/d3nj05438a

Cited by 3 publications

(2 citation statements)

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“…This may lead to the uneven stress distribution of the host–guest molecules in the crystal, thus inducing the decomposition of the host–guest materials. , Then, the strong oxidizing and reducing fragment components will trigger a violent redox reaction and release a large amount of heat energy rapidly. In the late stage of decomposition, the released high oxidizing gas with high temperature continues to oxidize the residual products …”

Section: Resultsmentioning

confidence: 99%

“…In the late stage of decomposition, the released high oxidizing gas with high temperature continues to oxidize the residual products. 56 These pyridazine-based fused polycyclic compounds achieved a synergistic improvement in the energy and safety of the energetic materials (Table 1). All compounds show good comprehensive properties (T d (onset) > 200 °C, ρ > 1.85 g cm −3 , D v > 8400 m s −1 , IS > 20 J, FS > 360 N).…”

Section: Physicochemical Properties and Detonation Performancesmentioning

confidence: 99%

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Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Li,

Wang,

et al. 2024

ACS Appl. Mater. Interfaces

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The construction and modification of novel energetic frameworks to achieve an ideal balance between high energy density and good stability are a continuous pursuit for researchers. In this work, a fused [5,6,5]-tricyclic framework was utilized as the energetic host to encapsulate the oxidant molecules for the first time. A series of new pyridazine-based [5,6] and [5,6,5] fused polycyclic nitrogen-rich skeletons and their derivatives were designed and synthesized. Two strategies, amino oxidation and host−guest inclusion, were used to modify the skeleton in only one step. All compounds exhibit good comprehensive properties (T d (onset) > 200 °C, ρ > 1.85 g cm −3 , D v > 8400 m s −1 , IS > 20 J, FS > 360 N). Benefiting from the pyridazine-based fused tricyclic structure with more hydrogen bonding units and larger conjugated systems, the first example of [5,6,5]-tricyclic host−guest energetic material triamino-9H-pyrazolo [3,4-d][1,2,4]triazolo[4,3-b]pyridazine-diperchloric acid (10), shows high decomposition temperature (T d (onset) = 336 °C), high density and heats of formation (ρ = 1.94 g cm −3 , ΔH f = 733.4 kJ mol −1 ), high detonation performance (D v = 8820 m s −1 , P = 36.2 GPa), high specific impulse (I sp = 269 s), and low sensitivity (IS = 30 J, FS > 360 N). The comprehensive performance of 10 is superior to that of high-energy explosive RDX and heat-resistant explosives such as HNS and LLM-105. 10 has the potential to become a comprehensive advanced energetic material that simultaneously satisfies the requirements of high-energy and low-sensitivity explosives, heat-resistant explosives, and solid propellants. This work may give new insights into the construction and modification of a nitrogen-rich polycyclic framework and broaden the applications of fused polycyclic framework for the development of host−guest energetic materials.

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Section: Resultsmentioning

confidence: 99%

Section: Physicochemical Properties and Detonation Performancesmentioning

confidence: 99%

Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Li,

Wang,

et al. 2024

ACS Appl. Mater. Interfaces

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Interaction mechanism studies of 1H-tetrazole derivatives and nitrocellulose. Part 1: introduction of amino groups on C and N atoms

Zhang,

Bian,

Chen

et al. 2024

New J. Chem.

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Towards advanced N-rich energetic explosives: based on tetrazole and triazole groups with large conjugated systems and extensive hydrogen bonds

Zhang,

Hao,

Zou

et al. 2024

J. Mater. Chem. A

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Insights into the 5,5′-bis(1H-tetrazolyl)amine monohydrate (BTA·H₂O) pyrolysis mechanism: integrated experimental and kinetic model analysis

Abstract: The gas products for the thermal decomposition process of BTA·H2O were analyzed using TG-DSC-FTIR. The removal of crystal water in the BTA·H2O molecule and the thermal decomposition mechanism of BTA also was investigated using a series of analyses.

Cited by 3 publications

References 64 publications

Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Interaction mechanism studies of 1H-tetrazole derivatives and nitrocellulose. Part 1: introduction of amino groups on C and N atoms

Towards advanced N-rich energetic explosives: based on tetrazole and triazole groups with large conjugated systems and extensive hydrogen bonds

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Insights into the 5,5′-bis(1H-tetrazolyl)amine monohydrate (BTA·H2O) pyrolysis mechanism: integrated experimental and kinetic model analysis

Abstract: The gas products for the thermal decomposition process of BTA·H2O were analyzed using TG-DSC-FTIR. The removal of crystal water in the BTA·H2O molecule and the thermal decomposition mechanism of BTA also was investigated using a series of analyses.

Cited by 3 publications

References 64 publications

Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Construction and Modification of Nitrogen-Rich Polycyclic Frameworks: A Promising Fused Tricyclic Host–Guest Energetic Material with Heat Resistance, High Energy, and Low Sensitivity

Interaction mechanism studies of 1H-tetrazole derivatives and nitrocellulose. Part 1: introduction of amino groups on C and N atoms

Towards advanced N-rich energetic explosives: based on tetrazole and triazole groups with large conjugated systems and extensive hydrogen bonds

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Insights into the 5,5′-bis(1H-tetrazolyl)amine monohydrate (BTA·H₂O) pyrolysis mechanism: integrated experimental and kinetic model analysis