性质数据
常数的热物理化学、热力学、传递性质(34个)
Mol-Instincts样本位置: 点击Mol-In 样本 > “查看我们的数据” > “物理化学数据(常数)”
ChemRTP样本位置: 点击ChemRTP样本 > 点击化合物图像
| Code# 编号 |
Data Name 数据名称 |
Determined by* 方法 |
Example &Samples 示例 |
||
|---|---|---|---|---|---|
| PC1 |
Absolute Entropy of Ideal Gas at 298.15 K and 1 bar
298.15 K、1 bar下理想气体绝对熵 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC2 |
Acentric Factor
偏心因子 |
QSQN, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC3 |
Critical Compressibility Factor
临界压缩因子 |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC4 |
Critical Pressure
临界压力 |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC5 |
Critical Temperature
临界温度 |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC6 |
Critical Volume
临界体积 |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC7 |
Dipole Moment
偶极矩 |
Quantum Chemistry | QM Example | Mol-In Sample | |
| PC8 |
Electron Affinity
电子亲和势 |
QSQN | QSQN Example | Mol-In Sample | |
| PC9 |
Enthalpy (Heat) of Formation for Ideal Gas at 298.15 K
298.15 K下理想气体生成焓(热) |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC10 |
Enthalpy (Heat) of Fusion at Melting Point**
熔点处的熔化焓** |
QSQN, Joback2 | QSQN Example | Mol-In Sample | |
| PC11 |
Flash Point
闪点 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC12 |
Gibbs Energy of Formation for Ideal Gas at 298.15 K and 1 bar
298.15 K、1 bar下理想气体吉布斯生成能 |
QSQN, Joback2, Gani1 | QSQN Example | Mol-In Sample | |
| PC13 |
Heat (Enthalpy) of Vaporization at 298.15 K
298.15 K下汽化热(焓) |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC14 |
Heat (Enthalpy) of Vaporization at Normal Boiling Point
常沸点汽化热(焓) |
QSQN, Joback2, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC15 |
Ionization Potential
电离势 |
QSQN | QSQN Example | Mol-In Sample | |
| PC16 |
Liquid Density at Normal Boiling Point
常沸点液体密度 |
QSQN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC17 |
Liquid Molar Volume at 298.15 K
298.15 K下液体摩尔体积 |
QSQN, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC18 |
Lower Flammability Limit Temperature
燃烧下限温度 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC19 |
Lower Flammability Limit Volume Percent
燃烧下限体积百分比 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC20 |
Magnetic Susceptibility
磁化率 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC21 |
Net Standard State Enthalpy (Heat) of Combustion at 298.15 K***
298.15 K和1 bar下净标准态燃烧焓*** |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC22 |
Normal Boiling Point
常沸点 |
QSQN, Joback2, Gani1, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC23 |
Parachor
等张比容 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC24 |
Polarizability
极化率 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC25 |
Radius of Gyration
回转半径 |
Quantum Chemistry | Mol-In Sample | ||
| PC26 |
Refractive Index
折射率 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC27 |
Solubility Parameter at 298.15 K
298.15 K下溶度参数 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC28 |
Standard State Absolute Entropy at 298.15 K and 1 bar
298.15 K、1 bar下标准态绝对熵 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC29 |
Standard State Enthalpy (Heat) of Formation at 298.15 K and 1 bar
298.15 K、1 bar下标准态生成焓(热) |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC30 |
Standard State Gibbs Energy of Formation at 298.15 K and 1 bar
298.15 K、1 bar下标准态吉布斯生成能 |
QSQN | QSQN Example | Mol-In Sample | |
| PC31 |
Upper Flammability Limit Temperature
燃烧上限温度 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC32 |
Upper Flammability Limit Volume Percent
燃烧上限体积百分比 |
QSQN, QN | QSQN Example | Mol-In Sample | ChemRTP Sample |
| PC33 |
van der Waals Area
范德华表面积 |
Quantum Chemistry | Mol-In Sample | ||
| PC34 |
van der Waals Reduced Volume
范德华体积 |
Quantum Chemistry | Mol-In Sample | ||
*QN 数据来自 ChemRTP,其余数据来自 Mol-Instincts 数据库。
** 仅适用于由 C、H、N、O 和 S 原子组成的化合物。
*** 仅适用于由 C、H、N、O、S、F、Cl、Br 和 I 原子组成的化合物。
1 Constantinou, L.; Gani, R. A New Group Contribution Method for the Estimation of Properties of Pure Compounds. AIChE J. 1994, 40, 1697–1710.
2 Joback, K.G.; Reid, R.C. Estimation of Pure-Component Properties from Group-Contributions. Chem. Eng. Commun. 1987, 57, 233-243.
** 仅适用于由 C、H、N、O 和 S 原子组成的化合物。
*** 仅适用于由 C、H、N、O、S、F、Cl、Br 和 I 原子组成的化合物。
1 Constantinou, L.; Gani, R. A New Group Contribution Method for the Estimation of Properties of Pure Compounds. AIChE J. 1994, 40, 1697–1710.
2 Joback, K.G.; Reid, R.C. Estimation of Pure-Component Properties from Group-Contributions. Chem. Eng. Commun. 1987, 57, 233-243.
温度相关的热物理化学、热力学和传递性质(11个)
Mol-Instincts样品位置: 点击Mol-In样品 > “查看我们的数据” > “物理化学数据(温度相关)”
| Code# 编号 |
Data Name 数据名称 |
Determined by* 方法 |
Example & Samples 示例 |
|
|---|---|---|---|---|
| PT1 |
Heat Capacity of Ideal Gas
理想气体热容 |
QSQN, Joback1 | QSQN Example | Mol-In Sample |
| PT2 | Heat Capacity of Liquid 液体热容 |
QSQN, Bondi2 | QSQN Example | Mol-In Sample |
| PT3 | Heat of Vaporization 汽化热 |
QSQN, Watson3 | QSQN Example | Mol-In Sample |
| PT4 | Liquid Density 液体密度 |
QSQN, Rackett4, Gunn-Yamada5 | QSQN Example | Mol-In Sample |
| PT5 | Second Virial Coefficient 第二维里系数 |
QSQN, Mccann6 | QSQN Example | Mol-In Sample |
| PT6 | Surface Tension 表面张力 |
QSQN, Brock-Bird7, Miller8 | QSQN Example | Mol-In Sample |
| PT7 | Thermal Conductivity of Gas 气相导热系数 |
QSQN, Misic-Thodos9, Mod-Eucken10 | QSQN Example | Mol-In Sample |
| PT8 | Thermal Conductivity of Liquid 液相导热系数 |
QSQN, Sato-Riedel11 | QSQN Example | Mol-In Sample |
| PT9 | Vapor Pressure of Liquid 液体蒸汽压 |
QSQN, Riedel12 | QSQN Example | Mol-In Sample |
| PT10 | Viscosity of Gas 气体粘度 |
QSQN, Reichenberg13 | QSQN Example | Mol-In Sample |
| PT11 | Viscosity of Liquid 液体粘度 |
QSQN, Letsou-Stiel14, Joback1, Orrick-Erbar15 | QSQN Example | Mol-In Sample |
*来源Mol-Instincts数据库。
1 Joback, K.G.; Reid, R.C. Estimation of Pure-Component Properties from Group-Contributions. Chem. Eng. Commun. 1987, 57, 233-243.
2 Bondi, A. Estimation of Heat Capacity of Liquids. Ind. Eng. Chem. Fundamen. 1966, 5, 442-449.
3 Watson, K. M. Thermodynamics of the liquid state, Ind. Eng. Chem. 1943, 35, 398-406.
4 Rackett, H. G. Equation of state for saturated liquids, J. Chem. Eng. Data, 1970, 15, 514-517.
5 Gunn, R. D.; Yamada, T. A corresponding states correlation of saturated liquid volumes. AIChE J. 1971, 17, 1341-1345.
6 McCann, D. W.; Danner R. P. Prediction of Second Virial Coefficients of Organic Compounds by a Group Contribution Method, Ind. Eng. Chem. Process Des. Dev. 1984, 23. 529-533.
7 Brock, J. R.; Bird, R. B. Surface Tension and the Principle of Corresponding States, AIChE J. 1955, 1, 174-177.
8 Miller, D. G.; Thodos, G. Correspondence. Reduced Frost-Kalkwarf Vapor Pressure Equation, Ind. Eng. Chem. Fundamen. 1963, 2, 78-80.
9 Misic, D.; Thodos, G. Atmospheric Thermal Conductivities of Gases of Simple Molecular Structure, J. Chem. Eng. Data, 1963, 8, 540-544.
10 Poling, B. E.; Prausnitz, J. M.; O’Connell, J. P. The Properties of Gases and Liquids, 5th Ed., New York, McGraw Hill, 2001; pp10.3.
11 Reid, R.C.; Prausnitz, J. M.; Poling, B. E. The Properties of Gases and Liquids, 4th ed., New York, McGraw-Hill, 1987.
12 Poling, B. E.; Prausnitz, J. M.; O’Connell, J. P. The Properties of Gases and Liquids, 5th Ed., New York, McGraw Hill, 2001; pp 7.9.
13 Reichenberg, D. AIChE J. 1973, 19, 854.; Reichenberg, D. AIChE J. 1975, 21, 181.
14 Letsou, A.; Stiel, L. I. Viscosity of saturated nonpolar liquids at elevated pressures. AIChE J. 1973, 19, 409-411.
15 Reid, R.C.; Prausnitz, J. M.; Poling, B. E. The Properties of Gases and Liquids, 4th ed., New York, McGraw-Hill, 1987; pp 456.
1 Joback, K.G.; Reid, R.C. Estimation of Pure-Component Properties from Group-Contributions. Chem. Eng. Commun. 1987, 57, 233-243.
2 Bondi, A. Estimation of Heat Capacity of Liquids. Ind. Eng. Chem. Fundamen. 1966, 5, 442-449.
3 Watson, K. M. Thermodynamics of the liquid state, Ind. Eng. Chem. 1943, 35, 398-406.
4 Rackett, H. G. Equation of state for saturated liquids, J. Chem. Eng. Data, 1970, 15, 514-517.
5 Gunn, R. D.; Yamada, T. A corresponding states correlation of saturated liquid volumes. AIChE J. 1971, 17, 1341-1345.
6 McCann, D. W.; Danner R. P. Prediction of Second Virial Coefficients of Organic Compounds by a Group Contribution Method, Ind. Eng. Chem. Process Des. Dev. 1984, 23. 529-533.
7 Brock, J. R.; Bird, R. B. Surface Tension and the Principle of Corresponding States, AIChE J. 1955, 1, 174-177.
8 Miller, D. G.; Thodos, G. Correspondence. Reduced Frost-Kalkwarf Vapor Pressure Equation, Ind. Eng. Chem. Fundamen. 1963, 2, 78-80.
9 Misic, D.; Thodos, G. Atmospheric Thermal Conductivities of Gases of Simple Molecular Structure, J. Chem. Eng. Data, 1963, 8, 540-544.
10 Poling, B. E.; Prausnitz, J. M.; O’Connell, J. P. The Properties of Gases and Liquids, 5th Ed., New York, McGraw Hill, 2001; pp10.3.
11 Reid, R.C.; Prausnitz, J. M.; Poling, B. E. The Properties of Gases and Liquids, 4th ed., New York, McGraw-Hill, 1987.
12 Poling, B. E.; Prausnitz, J. M.; O’Connell, J. P. The Properties of Gases and Liquids, 5th Ed., New York, McGraw Hill, 2001; pp 7.9.
13 Reichenberg, D. AIChE J. 1973, 19, 854.; Reichenberg, D. AIChE J. 1975, 21, 181.
14 Letsou, A.; Stiel, L. I. Viscosity of saturated nonpolar liquids at elevated pressures. AIChE J. 1973, 19, 409-411.
15 Reid, R.C.; Prausnitz, J. M.; Poling, B. E. The Properties of Gases and Liquids, 4th ed., New York, McGraw-Hill, 1987; pp 456.
药物特性(13个)
Mol-Instincts样品位置: 点击Mol-In样品 > “查看我们的数据” > “药物数据”
ChemRTP样品位置: 点击ChemRTP样品 > 点击化合物图像 > 查看数据
| Code# 编号 |
Data Name 数据名称 |
Determined by* 方法 |
*Samples 示例 |
|
|---|---|---|---|---|
| PP1 | Activity Score for GPCR Ligands GPCR配体活性 |
Bayesian Statistics Based | Mol-In Sample | |
| PP2 | Activity Score for Ion Channel Modulators 离子通道调节剂活性 |
Bayesian Statistics Based | Mol-In Sample | |
| PP3 | Activity Score for Kinase Inhibitors 激酶抑制剂活性 |
Bayesian Statistics Based | Mol-In Sample | |
| PP4 | Activity Score for Nuclear Receptor Ligands 核受体配体活性 |
Bayesian Statistics Based | Mol-In Sample | |
| PP5 | Drug-Likeness 药物相似性 |
Definition | Mol-In Sample | |
| PP6 | Ghose-Crippen Molar Refractivity Ghose-Crippen摩尔折射率 |
Definition | Mol-In Sample | |
| PP7 | Ghose-Crippen Octanol-Water Partition Coeff. (logP) Ghose-Crippen辛醇-水分配系数(logP) |
Definition | Mol-In Sample | |
| PP8 | Lipinski Alert Index Lipinski风险指数 |
Definition | Mol-In Sample | |
| PP9 | LogP (Octanol-Water Partition Coefficient) LogP(辛醇-水分配系数) |
QSQN | Mol-In Sample | |
| PP10 | LogS (Water Solubility) LogS(水溶解度) |
QSQN,QN | Mol-In Sample | ChemRTP Sample |
| PP11 | Moriguchi Octanol-Water Partition Coeff. (logP) Moriguchi辛醇-水分配系数(logP) |
Definition | Mol-In Sample | |
| PP12 | Number of Acceptor Atoms for H-bonds (N,O) 氢键受体原子数(N,O) |
Definition | Mol-In Sample | |
| PP13 | Number of Donor Atoms for H-bonds (N,O) 氢键授体原子数(N,O) |
Definition | Mol-In Sample | |
*QN来源ChemRTP,其余数据来源Mol-Instincts数据库。
IK-Cape(IKC)文件用于过程模拟软件,例如AspenPlus(可下载)
如果您的过程模拟软件内置的性质数据库中没有包含您所需的化合物,只需将此IK-CAPE文件加载到您的软件中即可使用。您可以通过订阅或交付服务,在Mol-Instincts网站上下载IK-CAPE文件。
深度服务交付服务的代码:ICF0
IK-Cape文件样本下载位置:点击Mol-In样本 > “查看我们的数据” > 化合物的2D图像右侧的“保存为IKC”按钮
(重要)所有IK-Cape文件用户的注意事项:在订购之前,请使用Mol-In样本中提供的样本IK-Cape文件进行测试和验证,以确保您的软件中该IK-Cape文件能正常使用。