1,4,5,8-Tetrakis[4-(propan-2-yl)anilino]anthracene-9,10-dione | 136662-60-7

• 分子结构分类: 有机化合物 - 苯类化合物 - 蒽
• 英文名称: 1,4,5,8-Tetrakis[4-(propan-2-yl)anilino]anthracene-9,10-dione
• 英文别名: 1,4,5,8-tetrakis(4-propan-2-ylanilino)anthracene-9,10-dione
• CAS: 136662-60-7
• 化学式: C₅₀H₅₂N₄O₂
• 分子量: 741.0
• InChiKey: FIDPYUBBJAQHEV-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  14.6
• 重原子数：
  56
• 可旋转键数：
  12
• 环数：
  7.0
• sp3杂化的碳原子比例：
  0.24
• 拓扑面积：
  82.3
• 氢给体数：
  4
• 氢受体数：
  6

文献信息

• Power and lubricant additive concentrates containing at least one anthrachinone derivative as a marking substance
  申请人：Ebert Sophia

  公开号：US20070149415A1

  公开（公告）日：2007-06-28

  The invention relates to fuel and lubricant additive concentrates which comprise at least one anthraquinone derivative as a marker, to the use of such concentrates for additizing mineral oils and also for mineral oils which comprise such concentrates.
• Method For Determining The Presence Of A Chemical Compound Which Is Homogeneously Distributed In A Medium By Means Of Cross-Correlating A Measuring Spectrum With Reference Spectra
  申请人：Sens Ruediger

  公开号：US20080057589A1

  公开（公告）日：2008-03-06

  The present invention relates to a method for determining the identity or non-identity of at least one chemical compound V′ homogeneous y distributed in a medium, by a) exposing the medium containing at least one homogeneously distributed chemical compound V′ to analysis radiation with a variable wavelength λ, and b) determining the spectral measurement function I′(λ) with the aid of the absorbed, reflected, emitted and/or scattered radiation, wherein a correlation function K(δλ,c′,c) is determined according to Equation I K ⁡ ( δ ⁢ ⁢ λ , c ′ , c ) = 1 / N · ∫ - ∞ + ∞ ⁢ I ′ ⁡ ( λ , c ′ ) · I ⁡ ( λ + δ ⁢ ⁢ λ , c ) ⁢ ⁢ ⅆ λ ( I ) in which K(δλ,c′,c) denotes the correlation depending on the relative shift δλ of the functions I′(λ,c′) and I(λ,c) and the concentrations c′ and c of the at least one chemical compound V′ and V, c′ denotes the concentration of the at least one chemical compound V′ homogeneously distributed in the medium, with a known or suspected identity, c denotes the concentration of the at least one chemical compound V homogeneously distributed in the medium, with a known identity, I′(λ,c′) denotes the measurement function of the at least one homogeneously distributed chemical compound V′ in a medium containing the concentration c′, I(λ,c) denotes the comparison function of the at least one homogeneously distributed chemical compound V in a medium containing the concentration c, and N denotes a normalization factor and identity or non-identity between the compounds V and V′ is determined with the aid of the correlation function K(δλ,c′,c).
• Method for Determining the Identity, Absence and Concentration of a Chemical Compound in a Medium
  申请人：Sens Rudiger

  公开号：US20090006004A1

  公开（公告）日：2009-01-01

  A method is proposed for detecting at least one chemical compound V contained in a medium ( 312 ). The method comprises a verification step ( 420 ) which is used to determine whether V is contained in the medium ( 312 ). The method furthermore comprises an analysis step ( 424 ) in which a concentration c of the at least one chemical compound V is determined. The verification step comprises the following substeps: (a1) the medium ( 312 ) is exposed to a first analysis radiation ( 316 ) of a variable wavelength λ, the wavelength λ assuming at least two different values; (a2) at least one spectral response function A(λ) is generated with the aid of the radiation ( 324 ) absorbed and/or emitted and/or reflected and/or scattered by the medium ( 312 ) in response to the first analysis radiation ( 316 ); (a3) at least one spectral correlation function K(δλ) is formed by spectral comparison of the at least one spectral response function A(λ) with at least one pattern function R(λ+δλ), the at least one pattern function R(λ) representing a spectral measurement function of a medium ( 312 ) containing the chemical compound V and δλ being a coordinate shift; (a4) the at least one spectral correlation function K(δλ) is examined in a pattern recognition step ( 418 ), and a conclusion is made as to whether the at least one chemical compound V is contained in the medium ( 312 ); The analysis step ( 424 ) comprises the following substeps: (b1) the medium ( 312 ) is exposed to at least one second analysis radiation ( 318 ) having at least one excitation wavelength λ EX ; (b2) at least one spectral analysis function B(λ EX ,λ RES ) is generated with the aid of the radiation ( 326 ) of the response wavelength λ RES absorbed and/or emitted and/or reflected and/or scattered by the medium ( 312 ) in response to the second analysis radiation ( 318 ) of the wavelength λ EX and the concentration c is deduced therefrom.
• [DE] VERFAHREN ZUR BESTIMMUNG DER IDENTITÄT ODER NICHT-IDENTITÄT UND KONZENTRATION EINER CHEMISCHEN VERBINDUNG IN EINEM MEDIUM<br/>[EN] METHOD FOR DETERMINING THE IDENTITY, ABSENCE AND CONCENTRATION OF A CHEMICAL COMPOUND IN A MEDIUM<br/>[FR] PROCEDE DE DETERMINATION DE L'IDENTITE OU DE LA NON-IDENTITE ET DE LA CONCENTRATION D'UN COMPOSE CHIMIQUE DANS UN MILIEU
  申请人：BASF AG

  公开号：WO2007074156A1

  公开（公告）日：2007-07-05

  [EN] The invention relates to a method for detecting at least one chemical compound V that is contained in a medium (312). Said method has a verification step (420), in which the presence of the compound V in the medium (312) is determined. In addition, the method has an analysis step (424), in which a concentration c of the chemical compound or compounds V is determined. The verification step comprises the following sub-steps: (a1) the medium (312) is irradiated with first analysis radiation (316) of a variable wavelength ?, said wavelength ? having at least two different values; (a2) a spectral response function A(?) is generated using the radiation (324) that has been absorbed and/or emitted and/or reflected and/or scattered by the medium (312), in response to the first analysis radiation (316); (a3) at least one spectral correlation function K(d?) is formed by comparing the spectral response function(s) A(?) with at least one model function R(? + d?), in which said model function(s) R(?) represent(s) a spectral measured function of a medium (312) that contains the chemical compound V and d? is a co-ordinate shift; (a4) the spectral correlation function(s) K(d?) is examined in a model identification step (418) and conclusions are drawn as to whether the chemical compound(s) V is or are contained in the medium (312). The analysis step (424) has the following sub-steps: (b1) the medium (312) is irradiated with at least second analysis radiation (318) that has at least one excitation wavelength ?_EX; (b2) at least one spectral analysis function B(?_EX, ?_RES) is generated using the radiation (326) of the response wavelength ?_RES that has been absorbed and/or emitted and/or reflected and/or scattered by the medium (312), in response to the second analysis radiation (318) of wavelength ?_EX and conclusions concerning the concentration c are drawn.
  [FR] L'invention concerne un procédé de détection d'au moins un composé chimique (V) contenu dans un milieu (312). Ledit procédé comporte une étape de vérification (420) consistant à déterminer si le composé (V) est contenu dans le milieu (312) et une étape d'analyse (424) consistant à déterminer une concentration (c) du ou des composés (V). L'étape de vérification comporte les étapes partielles suivantes : (a1) le milieu (312) est irradié avec un premier rayonnement d'analyse (316) ayant une longueur d'onde variable (?) adoptant au moins deux valeurs différentes ; (a2) au moins une fonction de réponse spectrale A(?) est produite sur la base d'un rayonnement (324) absorbé et/ou émis et/ou réfléchi et/ou diffusé par le milieu (312) en tant que réponse au premier rayonnement d'analyse (316) ; (a3) au moins une fonction de corrélation spectrale K(d?) est formée par comparaison spectrale de la ou des fonctions de réponse spectrales A(?) avec au moins une fonction modèle R(? + d?), la ou les fonctions modèles R(?) représentant une fonction de mesure spectrale d'un milieu (312) contenant le composé chimique (V), et (d?) étant un décalage de coordonnées ; (a4), au cours d'une étape d'identification de modèle (418), la ou les fonctions de corrélation spectrales K(d?) sont examinées et on déduit si le ou les composés (V) sont présents dans le milieu (312). L'étape d'analyse (424) comporte les étapes partielles suivantes : (b1) le milieu (312) est irradié avec au moins un deuxième rayonnement d'analyse (318) ayant au moins une longueur d'onde d'excitation (?_EX) ; (b2) au moins une fonction d'analyse spectrale B(?_EX, ?_RES) est produite sur la base d'un rayonnement (326) ayant une longueur d'onde de réponse (?_RES) absorbé et/ou émis et/ou réfléchi et/ou diffusé par le milieu (312) en tant que réponse au deuxième rayonnement d'analyse (318) ayant la longueur d'onde (?_EX), la concentration (c) étant déduite de la fonction d'analyse spectrale.
  [DE] Es wird ein Verfahren zum Nachweis mindestens einer in einem Medium (312) enthaltenen chemischen Verbindung V vorgeschlagen. Das Verfahren weist einen Verifikationsschritt (420) auf, in welchem bestimmt wird, ob die Verbindung V in dem Medium (312) enthalten ist. Weiterhin weist das Verfahren einen Analyseschritt (424) auf, in welchem eine Konzentration c der mindestens einen chemischen Verbindung V bestimmt wird. Der Verifikationsschritt umfasst folgende Teilschritte: (a1 ) das Medium (312) wird mit einer ersten Analysestrahlung (316) einer variablen Wellenlänge ? bestrahlt, wobei die Wellenlänge ? mindestens zwei verschiedene Werte annimmt; (a2) anhand vom Medium (312) als Antwort auf die erste Analysestrahlung (316) absorbierter und/oder emittierter und/oder reflektierter und/oder gestreuter Strahlung (324) wird mindestens eine spektrale Antwortfunktion A(?) generiert; (a3) mindestens eine spektrale Korrelationsfunktion K(d?) wird gebildet durch spektralen Vergleich der mindestens einen spektralen Antwortfunktion A(?) mit mindestens einer Musterfunktion R(? + d?), wobei die mindestens eine Musterfunktion R(?) eine spektrale Messfunktion eines die chemische Verbindung V enthaltenden Mediums (312) repräsentiert und wobei d? eine Koordinatenverschiebung ist; (a4) in einem Mustererkennungsschritt (418) wird die mindestens eine spektrale Korrelationsfunktion K(d?) untersucht und darauf geschlossen, ob die mindestens eine chemische Verbindung V in dem Medium (312) enthalten ist; Der Analyseschritt (424) weist folgende Teilschritte auf: (b1 ) das Medium (312) wird mit mindestens einer zweiten Analysestrahlung (318) mit mindestens einer Anregungswellenlänge ?_EX bestrahlt; (b2) anhand vom Medium (312) als Antwort auf die zweite Analysestrahlung (318) der Wellenlänge ?_EX absorbierter und/oder emittierter und/oder reflektierter und/oder gestreuter Strahlung (326) der Antwortwellenlänge ?_RES wird mindestens eine spektrale Analysefunktion B(?_EX ,?_RES) generiert und daraus auf die Konzentration c geschlossen.