Thermal stability of emerging N6-type energetic materials: kinetic modeling of simultaneous thermal analysis data to explain sensitivity trends.

A number of new high-performing energetic materials possess explosophoric functionalities, high nitrogen content, and fused heterocyclic blocks. Two representatives of these materials have been synthesized recently, namely, 1,2,9,10-tetranitrodipyrazolo[1,5-:5',1'-][1,2,3,4]-tetrazine (1) and 2,9-dinitrobis([1,2,4]triazolo)[1,5-:5',1'-][1,2,3,4]tetrazine (2). The thermal stability of these energetic materials bearing the N-N-N = N-N-N fragment and three closely related compounds has been investigated for the first time.

Anions Containing Tripoid Conjugated N System: Salts of 5-(Substituted Amino)-[1,2,3]triazolo[4,5-][1,2,5]oxadiazol-5-ium-4-ides, as well as Their Synthesis, Structure, and Thermal Stability.

A strategy for the synthesis of 5-((2-cyanoethyl)-X-amino)-[1,2,3]triazolo[4,5-][1,2,5]oxadiazol-5-ium-4-ides (X = H; CHCHCN; NO (); CN (); COEt ()) starting from 3-amino-4-azido-1,2,5-oxadiazole was developed. The key step in this strategy is the intramolecular thermolytic cyclization of the azido group and the bis(2-cyanoethyl)triazene group. Removal of the 2-cyanoethyl protecting group from amides - gave potassium salt of the corresponding nitramide and sodium salts of cyano- and ethoxycarbonylamide.

Thin Diamond Film on Silicon Substrates for Pressure Sensor Fabrication.

Thin polycrystalline diamond films chemically vapor deposited on thinned silicon substrates were used as membranes for pressure sensor fabrication by means of selective chemical etching of silicon. The sensing element is based on a simple low-finesse Fabry-Pérot (FP) interferometer. The FP cavity is defined by the end-face of a single mode fiber and the diamond diaphragm surface.

Evaluation of Representations and Response Models for Polarizable Force Fields.

For classical simulations of condensed-phase systems, such as organic liquids and biomolecules, to achieve high accuracy, they will probably need to incorporate an accurate, efficient model of conformation-dependent electronic polarization. Thus, it is of interest to understand what determines the accuracy of a polarizable electrostatics model. This study approaches this problem by breaking polarization models down into two main components: the representation of electronic polarization and the response model used for mapping from an inducing field to the polarization within the chosen representation.

A telomere-binding protein (TRF2/MTBP) from mouse nuclear matrix with motives of an intermediate filament-type rod domain.

In previous work, we identified a telomeric DNA-binding protein (termed telomere-membrane binding protein, MTBP) in the envelope of the frog oocyte nucleus and raised antibodies against it. Here we present immunological evidence which suggests strongly that MTBP is identical with the vertebrate telomeric DNA-binding protein TRF2 (telomere-repeat factor 2). MTBP/TRF2 possesses motif which resembles rod domain characteristic of intermediate filament (IF) proteins as shown by immunological cross-reactivity with characteristic antibodies, as well as amino acid sequence homology.