Yuanjie Shu scite author profile

A new method of calculating the Mulliken net charges of the nitro group, Q(NO)()2, to assess impact sensitivities for nitro compounds is established. All calculations including optimizations and Mulliken population and frequency analyses are performed by density functional theory (DFT) and the general gradient approximation (GGA) method in Acceryls' code Dmol(3) with the Beck-LYP hybrid functional and the DNP basis set. As a result, the charges on nitro group can be regarded as a structural parameter to estimate the impact sensitivity on the bond strength, oxygen balance, and molecular electrostatic potential. The compound with more -Q(NO)()2 will be insensitive and gives a large value of impact sensitivity H(50)(). This method considering the molecular structure is applicable for almost all nitro compounds when the C-NO(2), N-NO(2), or O-NO(2) bond is the weakest in the molecule. According to the results in this paper, the compounds with -Q(NO)()2 >0.23e show H(50)()

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Crystal structure, spectrum character and explosive property of a new cocrystal CL-20/DNT

Liu¹,

Gao²,

Jie-yu³

et al. 2016

Journal of Molecular Structure

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Easy methods to study the smart energetic TNT/CL-20 co-crystal

Shu

Gao

et al. 2013

J Mol Model

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2,4,6,8,10,12-hexanitro-2,4,6,8,10,12-hexaazaisowurtzitane (CL-20) is a high-energy nitramine explosive with high mechanical sensitivity. 2,4,6-trinitrotoluene (TNT) is insensitive but by no means a high performance explosive. To reveal the significant importance and smart-material functionality of the energetic-energetic co-crystals, the stability, mechanical and explosive properties TNT/CL-20 co-crystal, TNT crystal and CL-20 crystal were studied. Non-hydrogen bonded non-covalent interactions govern the structures of energetic-energetic co-crystals. However, it is very difficult to accurately calculate the non-covalent intermolecular interaction energies. In this paper, the local conformation and the intricate non-covalent interactions were effectively mapped and analyzed from the electron density (ρ) and its derivatives. The results show that the two components TNT and CL-20 are connected mainly by nitro-aromatic interactions, and nitro-nitro interactions. The steric interactions in TNT/CL-20 could not be confronted with the attractive interactions. Moreover, the scatter graph of TNT crystal reveals the reason why TNT is brittle. The detailed electrostatic potential analysis predicted that the detonation velocities (D) and impact sensitivity for the compounds both increase in the sequence of CL-20 > TNT/CL-20 co-crystal > TNT. Additionally, TNT/CL-20 co-crystal has better malleability than its pure components. This demonstrates the capacity and the feasibility of realizing explosive smart materials by co-crystallization, even if strong hydrogen bonding schemes are generally lacking in energetic materials.

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Polymorphism in hexanitrohexaazaisowurtzitane crystallized from solution

Tian

Liu

et al. 2012

Journal of Crystal Growth

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Crystal morphology of 3,4-bis(3-nitrofurazan-4-yl)furoxan (DNTF) in a solvent system: molecular dynamics simulation and sensitivity study

Liu

Li²,

Zeman

et al. 2016

CrystEngComm

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Herein, the attachment energy (AE) model was employed to study the growth morphology of 3,4-bisĲ3nitrofurazan-4-yl)furoxan (DNTF) under vacuum and solvent conditions by molecular dynamics simulation.The DNTF crystals were cultivated in H 2 O/acetic acid (AcOH) and H 2 O/EtOH solvents by natural cooling.The calculated results show that the (0 1 1) and (0 0 1) faces have large morphological importance in these two solvent systems, and the predicted DNTF morphologies agree qualitatively with those of the observed experimental results. Radial distribution function (RDF) and diffusion coefficient analyses were performed to explore the adsorption and diffusion behaviors of solvent molecules on DNTF surfaces. Furthermore, the impact and friction sensitivities of different crystal morphologies of DNTF were also tested and discussed.Results suggest that crystal morphology is an important impact factor for controlling the sensitivity of explosives.

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Yuanjie Shu

Investigation of Correlation between Impact Sensitivities and Nitro Group Charges in Nitro Compounds

Crystal structure, spectrum character and explosive property of a new cocrystal CL-20/DNT

Easy methods to study the smart energetic TNT/CL-20 co-crystal

Polymorphism in hexanitrohexaazaisowurtzitane crystallized from solution

Crystal morphology of 3,4-bis(3-nitrofurazan-4-yl)furoxan (DNTF) in a solvent system: molecular dynamics simulation and sensitivity study

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