Chemistry Reference
In-Depth Information
References
1. Scott LT (2003) Conjugated belts and nanorings with radially oriented p orbitals. Angew
Chem Int Ed 42(35):4133-4135
2. Kawase T, Kurata H (2006) Ball-, bowl-, and belt-shaped conjugated systems and their
complexing abilities: exploration of the concave-convex
π
-
π
interaction. Chem Rev 106
(12):5250-5273
3. Parekh VC, Guha PC (1934) J Indian Chem Soc 11:95-100
4. Diederich F, Rubin Y, Knobler CB, Whetten RL, Schriver KE, Houk KN, Li Y (1989) All-
carbon molecules: evidence for the generation of cyclo[18]carbon from a stable organic
precursor. Science 245(4922):1088-1090
5. Rubin Y, Knobler CB, Diederich F (1990) Precursors to the cyclo[n]carbons: from 3,4-
dialkynyl-3-cyclobutene-1,2-diones and 3,4-dialkynyl-3-cyclobutene-1,2-diols to cyclobute-
nodehydroannulenes and higher oxides of carbon. J Am Chem Soc 112(4):1607-1617
6. Tobe Y, Fujii T, Matsumoto H, Naemura K, Achiba Y, Wakabayashi T (1996) A new entry
into cyclo[n]carbons: [2+2] cycloreversion of propellane-annelated dehydroannulenes. J Am
Chem Soc 118(11):2758-2759
7. Kammermeier S, Jones PG, Herges R (1996) Ring-expanding metathesis of tetradehydro-
anthracene—synthesis and structure of a tubelike, fully conjugated hydrocarbon. Angew
Chem Int Ed 35(22):2669-2671
8. Deichmann M, N¨ther C, Herges R (2003) Pyrolysis of a tubular aromatic compound. Org Lett
5(8):1269-1271
9. Herges R, Deichmann M, Wakita T, Okamoto Y (2003) Synthesis of a chiral tube. Angew
Chem Int Ed 42(10):1170-1172
10. Rosenkranz N, Thomsen C (2009) Molecular dynamics simulations of picotube peapods.
Physica Status Solidi (B) 246(11-12):2622-2625
11. Rosenkranz N, Mach
´
n M, Herges R, Thomsen C (2008) Vibrational properties of four
consecutive carbon picotubes. Physica Status Solidi (B) 245(10):2145-2148
12. Rosenkranz N, Mach
´
n M, Herges R, Thomsen C (2008) Vibrational properties of semitrimer
picotubes. Chem Phys Lett 451(4-6):249-251
13. Mach
´
n M, Reich S, Maultzsch J, Okudera H, Simon A, Herges R, Thomsen C (2005)
Structural, electronic, and vibrational properties of (4,4) picotube crystals. Phys Rev B 72
(15):155402
14. Kawase T, Darabi HR, Oda M (1996) Cyclic [6]- and [8]paraphenylacetylenes. Angew Chem
Int Ed 35(22):2664-2666
15. Kawase T, Ueda N, Darabi HR, Oda M (1996) [2.2.2.2]Metacyclophane-1,9,17,25-tetrayne.
Angew Chem Int Ed 35(13-14):1556-1558
16. Kawase T, Ueda N, Tanaka K, Seirai Y, Oda M (2001) The newly modified McMurry reaction
toward the improved synthesis of cyclic paraphenylacetylenes. Tetrahedron Lett 42
(32):5509-5511
17. Kawase T, Seirai Y, Darabi HR, Oda M, Sarakai Y, Tashiro K (2003) All-hydrocarbon
inclusion complexes of carbon nanorings: cyclic [6]- and [8]paraphenyleneacetylenes.
Angew Chem Int Ed 42(14):1621-1624
18. Kawase T, Tanaka K, Fujiwara N, Darabi HR, Oda M (2003) Complexation of a carbon
nanoring with fullerenes. Angew Chem Int Ed 115(14):1662-1666
19. Atwood JL, Koutsantonis GA, Raston CL (1994) Purification of C60 and C70 by selective
complexation with calixarenes. Nature 368(6468):229-231
20. Suzuki T, Nakashima K, Shinkai S (1994) Very convenient and efficient purification method for
fullerene (C60) with 5,11,17,23,29,35,41,47-octa-tert-butylcalix[8]arene-49,50,51,52,53,54,55,56-
octol. Chem Lett 23(4):699-702
21. Kawase T, Fujiwara N, Tsutumi M, Oda M, Maeda Y, Wakahara T, Akasaka T (2004)
Supramolecular dynamics of cyclic [6]paraphenyleneacetylene complexes with [60]- and
