氫H14.1112 g/mol146.2388% 碳C72.0642 g/mol631.8608% 氧O111.9958 g/mol749.5152% Diammonium Citrate 元素 质量百分比氧111.996g氧111.996g碳72.0642g碳72.0642g氮28.0134g氮28.0134g氫14.1112g氫14.1112g(NH4)2HC6H5O7 原子#氫14氫14氧7氧7碳6碳6氮2氮2 ...
C6H8O7 + NH3 = (NH4)2C6H6O7 - 限制试剂计算器 C6H8O7 + NH3→ (NH4)2C6H6O7 复合系数摩尔质量摩尔(克/摩尔)重量(克) 反应物 檸檬酸 氨 C6H8O7 1 192.12352 NH3 2 17.03052 产品 Diammonium Citrate (NH4)2C6H6O7 1 226.18456 ...
Karabulut, “EPR studies of copper-doped potassium dihydrogen citrate (C6H7KO7) single crystal,” Appl. Magn. Reson., vol. 41, p. 51, 2011.10.1007/s00723-011-0244-2Search in Google Scholar [46] H. M. Zhang, W. B. Xiao, and X. Wan, “Theoretical studies of the local ...
Diammonium Citrate (NH4)2C6H6O71226.18456 Tocalculate the stoichiometryof C6H8O7 + NH3 = (NH4)2C6H6O7 you must balance the equation to find the stoichiometric mole ratio of each compound. The equation can be balanced using thechemical equation balancer. The stoichiometry calculator abov...
aC6H8O7+bNH3=cC6H5O7(NH4)3 Step 2: Create a System of Equations Create an equation for each element (C, H, O, N) where each term represents the number of atoms of the element in each reactant or product. C:6a +0b=6cH:8a +3b =17cO:7a +0b=7cN:0a+1b =3c ...
由Diammonium Citrate- (NH4)2C6H6O7组成 元素标志原子质量原子#质量百分比 氮N28.0134 g/mol212.3852% 氫H14.1112 g/mol146.2388% 碳C72.0642 g/mol631.8608% 氧O111.9958 g/mol749.5152% Diammonium Citrate 元素 质量百分比氧111.996g氧111.996g碳72.0642g碳72.0642g氮28.0134g氮28.0134g氫14.1112g氫14.1112g(NH4)...
由Diammonium Citrate- (NH4)2C6H6O7组成 元素标志原子质量原子#质量百分比 氮N28.0134 g/mol212.3852% 氫H14.1112 g/mol146.2388% 碳C72.0642 g/mol631.8608% 氧O111.9958 g/mol749.5152% Diammonium Citrate 元素 质量百分比氧111.996g氧111.996g碳72.0642g碳72.0642g氮28.0134g氮28.0134g氫14.1112g氫14.1112g(NH4)...
To confirm the binding activity, the F2 region was divided into f3oouf r22 small fragments (F2-1 to F2-4) that were further tested in a Y1H assay (Figure 1A). Here, LacZ was used as a reporter gene. We found that STOP1 could only bind to the F2 and F2- 2Ff2ra-2gmfraegnmtse...
The presence of N-H vibrations suggests that the hydrolysis process does not alter the amine functionalities and that they are located with the silicate network. Therefore, the FTIR results concord to demonstrate that the hydrolysis and condensation reactions have successfully led to the preparation ...