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Nitro-tetrazole based high performing explosives:Recent overview of synthesis and energetic properties 被引量:6
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作者 Saira Manzoor Qamar-un-nisa Tariq +1 位作者 Xin Yin Jian-Guo Zhang 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2021年第6期1995-2010,共16页
Heterocyclic skeleton(Azoles)and different energetic groups containing high performing explosives are highly emerged in recent years to meet the challenging requirements of energetic materials in both military and civ... Heterocyclic skeleton(Azoles)and different energetic groups containing high performing explosives are highly emerged in recent years to meet the challenging requirements of energetic materials in both military and civilian applications with improved performance.For this purpose tetrazole(Azole)is identified as an attractive heterocyclic backbone with energetic functional groups nitro(-NO_(2)),nitrato(-ONO_(2)),nitrimino(-NNO_(2)),and nitramino(eNHeNO_(2))to replace the traditionally used high performing explosives.The tetrazole based compounds having these energetic functional groups demonstrated advanced energetic performance(detonation velocity and pressure),densities,and heat of formation(HOF)and became a potential replacement of traditional energetic compounds such as RDX.This review presents a summary of the recently reported nitro-tetrazole energetic compounds containing poly-nitro,di/mono-nitro,nitrato/nitramino/nitrimino,bridged/bis/di tetrazole and nitro functional groups,describing their preparation methods,advance energetic properties,and further applications as highperforming explosives,especially those reported in the last decade.This review aims to provide a fresh concept for designing nitro-tetrazole based high performing explosives together with major challenges and perspectives. 展开更多
关键词 tetrazole Energetic materials Functional groups HETEROCYCLIC High-performing explosives
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Kv1.5蛋白在内毒素致血管内皮细胞损伤中的作用机制 被引量:1
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作者 许美霞 邹丽绢 +2 位作者 张晓霞 杨涛 许涛 《华中科技大学学报(医学版)》 CAS CSCD 北大核心 2017年第4期449-452,共4页
目的研究Kv1.5蛋白在内毒素致血管内皮细胞损伤中的作用机制。方法体外培养人脐静脉内皮细胞(HUVECs),给予脂多糖(LPS)刺激建立脓毒症模型,并分为:空白对照组、LPS组、LPS+Kv1.5蛋白通道特异性阻滞剂MT1(250nmol/L)组及LPS+MT2(500nmol... 目的研究Kv1.5蛋白在内毒素致血管内皮细胞损伤中的作用机制。方法体外培养人脐静脉内皮细胞(HUVECs),给予脂多糖(LPS)刺激建立脓毒症模型,并分为:空白对照组、LPS组、LPS+Kv1.5蛋白通道特异性阻滞剂MT1(250nmol/L)组及LPS+MT2(500nmol/L)组,DAPI染色免疫荧光观察各组HUVECs凋亡情况,Western blot检测Caspase-3及Bcl-2蛋白的表达,RT-PCR检测Caspase-3及Bcl-2基因的表达。结果 DAPI染色免疫荧光显示,LPS组内皮细胞核固缩、凋亡小体形成,凋亡小体形成率由空白对照组的(4.2±0.7)%增加至(26.7±0.8)%(P<0.01),而250nmol/L、500nmol/L MT预处理后,凋亡小体形成率从LPS组(26.7±0.8)%分别下降至(12.4±1.0)%、(8.5±0.9)%(均P<0.01);Western blot检测结果显示,LPS组较空白对照组Bcl-2蛋白表达减少、Caspase-3蛋白表达增加(均P<0.01),给予500nmol/L MT预处理后,与LPS组比较,Bcl-2蛋白表达上调、Caspase-3蛋白表达下调(均P<0.01);RT-PCR检测结果显示,LPS组较空白对照组Bcl-2mRNA表达下调、Caspase-3mRNA表达上调(均P<0.01),给予500nmol/L MT预处理后,与LPS组比较,Bcl-2mRNA表达上调、Caspase-3mRNA表达下调(均P<0.01)。结论Kv1.5介导脓毒症相关内皮细胞损伤可能与线粒体凋亡途径有关。 展开更多
关键词 Kv1.5蛋白 人脐静脉内皮细胞 MT(mephetyl tetrazole) 血管内皮细胞损伤
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Recent advances on the nitrogen-rich 1,2,4-oxadiazole-azoles-based energetic materials 被引量:4
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作者 Wen-Li Cao Qamar-un-Nisa Tariq +2 位作者 Zhi-Min Li Jun-Qing Yang Jian-Guo Zhang 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2022年第3期344-367,共24页
This review covers recent advances in the synthesis and energetic performance of nitrogen-rich 1,2,4-oxadiazole-azoles-based energetic materials.These materials comprise of 1,2,4-oxadiazole subunit as a key structural... This review covers recent advances in the synthesis and energetic performance of nitrogen-rich 1,2,4-oxadiazole-azoles-based energetic materials.These materials comprise of 1,2,4-oxadiazole subunit as a key structural motif linked to different nitrogen-rich or nitrogen-oxygen azoles:tetrazole,furazan,furoxan,1,3,4-oxadiazole,pyrazole,and triazole.Particular attention is devoted to the introduction of various energetic groups including nitro,nitramino,azo,azoxy,dinitromethyl,trinitroethyl moieties,and their combination.The physicochemical and available performance parameters including density,decomposition temperature,heat of formation,detonation pressure,detonation velocity,impact sensitivity,and friction sensitivity of typical energetic compounds are also provided and analyzed.Eventually,it was obtained that several screened compounds exhibit superior detonation properties and outstanding insensitivities,which can be classified as a new family of high-performance energetic materials.Additionally,1,2,4-oxadiazole-azoles-based energetic materials still have many thorough works to further exploited and studied,expecting to get very promising insensitive high explosives for practical application and industrialization. 展开更多
关键词 1 2 4-Oxadiazole-azoles Triazole tetrazole FURAZAN Energetic materials FUROXAN
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Chemical design and characterization of cellulosic derivatives containing high-nitrogen functional groups:Towards the next generation of energetic biopolymers 被引量:1
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作者 Ahmed Fouzi Tarchoun Djalal Trache +3 位作者 Thomas M.Klapotke Amir Abdelaziz Mehdi Derradji Slimane Bekhouche 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2022年第4期537-546,共10页
In this research,a promising class of insensitive and high-energy dense biopolymers,which contain nitrogen-rich 1H-tetrazol-1-yl acetate and nitrate ester functional groups,was successfully synthesized through tetrazo... In this research,a promising class of insensitive and high-energy dense biopolymers,which contain nitrogen-rich 1H-tetrazol-1-yl acetate and nitrate ester functional groups,was successfully synthesized through tetrazole derivatization and nitration of cellulose and its micro-sized derivative(TNCN and TCMCN).Their molecular structures,physicochemical properties,thermal behaviors,mechanical sensitivities and detonation performances were studied and compared to those of the corresponding nitrocellulose and nitrated micro-sized cellulose(NCN and CMCN).The developed energetic TNCN and TCMCN exhibited insensitive character with excellent features such as density of 1.710 g/cm3and 1.726 g/cm3,nitrogen content of 20.95%and 22.59%,and detonation velocity of 7552 m/s and 7786 m/s,respectively,and thereby demonstrate their potential applications as new generation of energetic biopolymers to substitute the common NCN.Furthermore,thermal results showed that the designed nitrated and chemical modified cellulosic biopolymers displayed good thermal stability with multistep decomposition mechanism.These results enrich future prospects for the design of promising insensitive and high-energy dense cellulose-rich materials and commence a new chapter in this field. 展开更多
关键词 CELLULOSE Surface functionalization tetrazole Nitrate ester Nitrogen-rich polymer Energetic properties
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