[13C]bis-cyanide | 51081-31-3
中文名称
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中文别名
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英文名称
[13C]bis-cyanide
英文别名
cyanogen;[1,2-13C]oxalonitrile;<13C>-Dicyan
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CAS
51081-31-3
化学式
C2N2
mdl
——
分子量
54.0134
InChiKey
JMANVNJQNLATNU-ZDOIIHCHSA-N
BEILSTEIN
——
EINECS
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):0.03
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重原子数:4.0
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可旋转键数:0.0
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环数:0.0
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sp3杂化的碳原子比例:0.0
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拓扑面积:47.58
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氢给体数:0.0
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氢受体数:2.0
反应信息
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作为反应物:描述:铀 、 [13C]bis-cyanide 生成 、 、参考文献:名称:Reactions of laser-ablated U atoms with (CN)2: infrared spectra and electronic structure calculations of UNC, U(NC)2, and U(NC)4 in solid argon摘要:激光烧蚀的铀原子与(CN)2产生异氰化物UNC、U(NC)2和U(NC)4,而不产生相应的氰化物。DOI:10.1039/c4cc09946j
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作为产物:描述:silver cyanide 生成 [13C]bis-cyanide参考文献:名称:Reactions of laser-ablated U atoms with (CN)2: infrared spectra and electronic structure calculations of UNC, U(NC)2, and U(NC)4 in solid argon摘要:激光烧蚀的铀原子与(CN)2产生异氰化物UNC、U(NC)2和U(NC)4,而不产生相应的氰化物。DOI:10.1039/c4cc09946j
文献信息
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Adsorption and dissociation of HCN on the Pt(111) and Pt(112) surfaces作者:P.L. Hagans、X. Guo、I. Chorkendorff、A. Winkler、H. Siddiqui、J.T. YatesDOI:10.1016/0039-6028(88)90190-2日期:1988.9observed on Pt(112) which may be due to competitive desorption effects. Evidence suggests that the highest temperature molecular desorption state of HCN may act as a precursor to dissociation. The high step density Pt(112) surface was found to be more effective in promoting dissociation of HCN. The following sequence of LEED patterns was observed on Pt(111) with decreasing coverage of HCN beginning with摘要 使用程序升温脱附 (TPD)、扫描动力学光谱 (SKS)、LEED 和功函数测量 (Δφ) 在 87 至 1000 温度范围内研究了 HCN 与 Pt(111) 和 Pt(112) 表面的相互作用。 K. 观察到的唯一解吸产物是 H 2 、C 2 N 2 (氰)和 HCN。利用 D 13 CN + HCN 的标记研究表明 HCN 在三种不同的低温状态下分子解吸,而较高温度的 β 状态是由于 H(a) + (CN)(a) 的重组。在 Pt(112) 上观察到不同的 β 态解吸行为,这可能是由于竞争性解吸效应。有证据表明,HCN 的最高温度分子解吸状态可能是解离的前体。发现高阶跃密度 Pt(112) 表面在促进 HCN 解离方面更有效。在 Pt(111) 上观察到以下 LEED 图案序列,HCN 的覆盖范围从单层覆盖开始:(3×3) → c(4×2) → (2×2) → (1×1)。发现
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