2,9b-dihydro-1H-cyclopentafluorene | 38422-91-2

• 分子结构分类: 有机化合物 - 苯类化合物 - 芴
• 英文名称: 2,9b-dihydro-1H-cyclopentafluorene
• 英文别名: 1,2-dihydrocyclopentafluorene；2,9b-Dihydro-1H-cyclopentafluoren；2,9b-Dihydro-1H-cyclopenta(jk)fluoren；2,9-Dihydro-1H-cyclopenta(jk)fluoren；1,2-Dihydrocyclopenta[jk]fluorene；tetracyclo[6.6.1.02,7.011,15]pentadeca-1(14),2,4,6,11(15),12-hexaene
• CAS: 38422-91-2
• 化学式: C₁₅H₁₂
• 分子量: 192.26
• InChiKey: YSZOXNRBUVFPAX-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  3.9
• 重原子数：
  15
• 可旋转键数：
  0
• 环数：
  4.0
• sp3杂化的碳原子比例：
  0.2
• 拓扑面积：
  0
• 氢给体数：
  0
• 氢受体数：
  0

反应信息

• 作为反应物：
  描述：

  2,9b-dihydro-1H-cyclopentafluorene 以78%的产率得到
  参考文献：
  名称：

  LUGER P.; TUCHSCHERER C.; GROSSE M.; REWICKI D., CHEM. BER. , 1976, 109, NO 7, 2596-2614

  摘要：

  DOI：
• 作为产物：
  描述：

  2H-cyclopentafluorene 在 lithium aluminium tetrahydride 作用下， 以 乙醚 为溶剂， 反应 0.25h， 以2%的产率得到2,9b-dihydro-1H-cyclopentafluorene
  参考文献：
  名称：

  Preparative Methodology and Pyrolytic Behavior of Anthrylmonocarbenes:  Synthesis and Chemistry of 1H-Cyclobuta[de]anthracene

  摘要：

  This study involves (1) the behavior of organolithium reagents (1-6), (2) development of efficient methods for preparing 9(7)- and 1(8)-[methoxy(trimethylsilyl)methyl] anthracenes and their analogues, (3) the intramolecular chemistry of the 9(9)- and 1(l0)-anthrylcarbenes generated by pyrolyses of 7 and 8, respectively, and (4) investigation of thermal behavior and bromination of the 1H-cyclobuta[de]anthracene (11) obtained from 9 or 10. alpha-Methoxy-9-anthrylmethyllithium (1), prepared from 9-(methoxymethyl)anthracene (14) and t-BuLi in TMEDA/Et2O/pentane, reacts at C-10 with D2O, chlorotrimethylsilane, dimethyl sulfate, benzoyl chloride, acetaldehyde, benzaldehyde, and acetone to give, after neutralization, 9,10-dihydro-9-(methoxymethylene)-10-substituted- anthracenes 15 and 21a-f. However, lithiation of 9-(thiomethoxymethyl)anthracene (25) with t-BuLi/TMEDA/Et2O/pentane occurs by an apparent radical-anion displacement process to give 9-anthrylmethyllithium (3), which then reacts with chlorotrimethylsilane to yield 9-(trimethylsilylmethyl)anthracene (28). Similarly, 28 is formed from 25 and from 9-(trimethylsilyloxymethyl)-anthracene (29) with lithium and then chlorotrimethylsilane. The electrophiles D2O, dimethyl sulfate, and benzaldehyde react with 3 at its methyl and its C-10 positions. [Methoxy(trimethylsilyl)methyl]arenes 40-42 and 7 are obtained by reactions of their aryllithium and arylmagnesium bromide precursors with bromo(methoxy)methyltrimethylsilane (39). 1-(Methoxymethyl)anthracene (45) is converted conveniently by t-BuLi and chlorotrimethylsilane to 8. Flash-vacuum pyrolyses of 7 and 8 yield 11 preparatively; 11 then thermolyzes to 2H-cyclopenta[jk]fluorene (46). Decomposition of 9-deuterio-10-[methoxy(trimethylsilyl)methyl]anthracene (55) at 650 degrees C/10(-3) mm results in 10(56)- and 1(57)-deuteriocyclobutanthracenes, thus revealing that the 10-deuterio-9-anthrylcarbene inserts to give 56 and also isomerizes extensively before yielding 57. Of note is that 56 isomerizes thermally by C-10-D movement to form 2-deuteriocyclopentafluorene 58, 57 rearranges by Clo-H movement to yield deuteriocyclopentafluorene 59, and 58 and 59 equilibrate 1,5-sigmatropically. Possible mechanisms for the isomerizations of 56 and 57 are outlined. Further, bromine adds rapidly to 11 to form 9,10-dibromo-9,10-dihydro-1H-cyclobuta[de]anthracene (94), which eliminates HBr on warming to yield 10-bromo-1H-cyclobuta[de]anthracene (95).

  DOI：

  10.1021/jo981105b

文献信息

• Chemistry of 1-Alkylfluorenylidenes. Steric Effects on Arylcarbene Reactivities
  作者：Hideo Tomioka、Hiroshi Kawasaki、Noriyuki Kobayashi、Katsuyuki Hirai

  DOI：10.1021/ja00121a007

  日期：1995.4

  9-Diazofluorenes (RDAF, 1) having a series of alkyl (R) groups from Me to tBu at the 1-position were prepared and decomposed to generate the corresponding fluorenylidenes (RFL, 2) under various conditions in order to examine steric effects on the reactivities of carbenes. Thus, in cyclohexane, singlet fluorenylidenes ((1)RFLs) gave 9-cyclohexylfluorenes while triplet states ((3)RFLs) underwent H abstraction to give 9-fluorenyl (RFLH(.)), which eventually led to fluorene (4, RFLH(2)) and 9,9'bifluorenyl (5), and the ratio of the triplet products to the singlet was increased as more bulky R groups were introduced at the 1-position. These results are interpreted in terms of the steric effects on singlet reactivity, which requires formation of two bonds simultaneously. Generation of tBuFL resulted in the almost exclusive formation of intramolecular reaction products which involved not only insertion of carbene into the delta-C-H bonds of the tert-butyl group but also insertion of the 1,5-biradical, followed by neophyl-type rearrangement. The results are understood as indicating that abstraction of the delta-H by (3)tBuFL gains over the concerted intramolecular C-H insertion in (1)tBuFL. Generation of 1-RFL (R = Et, iPr, tBu) in the gas phase at high temperature gave intramolecular reaction products both in singlet and in triplet states, but the ratio of the singlet to the triplet product increased in going from Et to iPr to tBu presumably due to the increased opportunities of (1)FL to be trapped by delta-C-H bonds. Spectroscopic studies using matrix isolation techniques as well as laser flash photolysis were also carried out to gain information on the intermediates.
• <b>1,2-Dihydrocyclopent[jk]fluorene</b>
  作者：Berma L. McDowell、Gerald. Smolinsky、Henry. Rapoport

  DOI：10.1021/ja00877a022

  日期：1962.9
• Luger,P. et al., Chemische Berichte, 1976, vol. 109, p. 2596 - 2614
  作者：Luger,P. et al.

  DOI：——

  日期：——
• Preparative Methodology and Pyrolytic Behavior of Anthrylmonocarbenes:  Synthesis and Chemistry of 1<i>H</i>-Cyclobuta[<i>de</i>]anthracene
  作者：J. Kirby Kendall、Thomas A. Engler、Harold Shechter

  DOI：10.1021/jo981105b

  日期：1999.6.1

  This study involves (1) the behavior of organolithium reagents (1-6), (2) development of efficient methods for preparing 9(7)- and 1(8)-[methoxy(trimethylsilyl)methyl] anthracenes and their analogues, (3) the intramolecular chemistry of the 9(9)- and 1(l0)-anthrylcarbenes generated by pyrolyses of 7 and 8, respectively, and (4) investigation of thermal behavior and bromination of the 1H-cyclobuta[de]anthracene (11) obtained from 9 or 10. alpha-Methoxy-9-anthrylmethyllithium (1), prepared from 9-(methoxymethyl)anthracene (14) and t-BuLi in TMEDA/Et2O/pentane, reacts at C-10 with D2O, chlorotrimethylsilane, dimethyl sulfate, benzoyl chloride, acetaldehyde, benzaldehyde, and acetone to give, after neutralization, 9,10-dihydro-9-(methoxymethylene)-10-substituted- anthracenes 15 and 21a-f. However, lithiation of 9-(thiomethoxymethyl)anthracene (25) with t-BuLi/TMEDA/Et2O/pentane occurs by an apparent radical-anion displacement process to give 9-anthrylmethyllithium (3), which then reacts with chlorotrimethylsilane to yield 9-(trimethylsilylmethyl)anthracene (28). Similarly, 28 is formed from 25 and from 9-(trimethylsilyloxymethyl)-anthracene (29) with lithium and then chlorotrimethylsilane. The electrophiles D2O, dimethyl sulfate, and benzaldehyde react with 3 at its methyl and its C-10 positions. [Methoxy(trimethylsilyl)methyl]arenes 40-42 and 7 are obtained by reactions of their aryllithium and arylmagnesium bromide precursors with bromo(methoxy)methyltrimethylsilane (39). 1-(Methoxymethyl)anthracene (45) is converted conveniently by t-BuLi and chlorotrimethylsilane to 8. Flash-vacuum pyrolyses of 7 and 8 yield 11 preparatively; 11 then thermolyzes to 2H-cyclopenta[jk]fluorene (46). Decomposition of 9-deuterio-10-[methoxy(trimethylsilyl)methyl]anthracene (55) at 650 degrees C/10(-3) mm results in 10(56)- and 1(57)-deuteriocyclobutanthracenes, thus revealing that the 10-deuterio-9-anthrylcarbene inserts to give 56 and also isomerizes extensively before yielding 57. Of note is that 56 isomerizes thermally by C-10-D movement to form 2-deuteriocyclopentafluorene 58, 57 rearranges by Clo-H movement to yield deuteriocyclopentafluorene 59, and 58 and 59 equilibrate 1,5-sigmatropically. Possible mechanisms for the isomerizations of 56 and 57 are outlined. Further, bromine adds rapidly to 11 to form 9,10-dibromo-9,10-dihydro-1H-cyclobuta[de]anthracene (94), which eliminates HBr on warming to yield 10-bromo-1H-cyclobuta[de]anthracene (95).
• LUGER P.; TUCHSCHERER C.; GROSSE M.; REWICKI D., CHEM. BER. <CHBE-AM>, 1976, 109, NO 7, 2596-2614
  作者：LUGER P.、 TUCHSCHERER C.、 GROSSE M.、 REWICKI D.

  DOI：——

  日期：——