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- It is possible to harness the versatile chemical properties of cyanogen azide. 氰化叠氮的灵活多变的化学性质是可控制的。
- Toward this end, the olefin 51 was treated with cyanogen azide and, indeed, produced the ring expanded ketone 52. 为了证明这一看法,他用氰化迭氮处理烯烃(51)就得到扩大的环酮。
- It is possible to harness the versatile chemical properties of cyanogen azide 氰化叠氮的灵活多变的化学性质是可控制的。
- Toward this end, the olefin 51 was treated with cyanogen azide and, indeed, produced the ring expanded ketone 52 为了证明这一看法,他用氰化迭氮处理烯烃(51)就得到扩大的环酮。
- cyanogen azide 叠氮化氰
- Cupric azide is insoluble in water. 叠氮化铜不溶于水。
- Relating to or containing cyanogen. 氰的与氰基有关的或含有氰基的
- Guanyl azide is then isomerized to aminotetrazole. 随后,叠氮化脒异构化生成氨基四氮杂茂。
- Silver azide does not dissolve in water or in nitric acid. 叠氨化银不溶于水或硝酸。
- Such agents, including hydrocyanic acid and Cyanogen Chloride. 这类毒剂包括氢氰酸和氯化氰。
- This is a custom recovery based on Cyanogen's v1.4 recovery. 这是一个自定义的复苏氰的1.;4版回收为基础。
- One-Pot Preparation of N-Carbamate Protected Amino Acids via Azide. N-氨基甲酸经叠氮化保护氨基酸的一勺烩制备。
- "Effluent standards for water pollutants from lead azide, lead styphnate and D. S crystals manufacturing industry"<WESTBANK>叠氮化铅、三硝基间苯二酚铅、D.
- The reaction mechanism of cyanate ester monomer synthesized by a “cyanogen halide-phenol method” is discussed. 分析了“卤化氰-酚法”合成氰酸酯单体的化学原理。
- This barrows very heavily from Cyanogen's work so please thank him for making this possible. 此古墓从氰非常沉重的工作,请感谢他为使这种愿望成为现实。
- CDH was inhibited by Zn2+ and Ag +, but it was not influenced by azide and cyanide. Zn(2+)和Ag+对该酶活性有很大的抑制作用,而叠氮化钠和氰化钾对酶活力没有影响。
- The reaction mechanism of cyanate ester monomer synthesized by a "cyanogen halide-phenol method" is discussed. 分析了“卤化氰-酚法”合成氰酸酯单体的化学原理。
- A2SD included (fully automatic - thanks cyanogen!) - create a EXT3 partition as your second partition to use. A2SD包括(全自动-感谢氰!)-建立一个为您的第二个分区使用ext3分区。
- METHODS To replace the hydrogenation of the azide compoumd with reducing the amide with LAH. 方法 用四氢锂铝还原酰胺的方法代替叠氮化物的氢化。
- CDH was inhibited by Zn2+ and Ag+, but it was not influenced by azide and cyanide. Zn2+和Ag+对该酶活性有很大的抑制作用,而叠氮化钠和氰化钾对酶活力没有影响。