Chemistry Reference
In-Depth Information
220. ter Wiel MKJ, van Delden RA, Meetsma A, Feringa BL (2003) Increased speed of rotation
for the smallest light-driven molecular motor. J Am Chem Soc 125:15076-15086
221. Klok M, Walko M, Geertsema EM, Ruangsupapichat N, Kistemaker JCM, Meetsma A,
Feringa BL (2008) New mechanistic insight in the thermal helix inversion of second-
generation molecular motors. Chem Eur J 14:11183-11193
222. Pollard MM, Klok M, Pijper D, Feringa BL (2007) Rate acceleration of light-driven rotary
molecular motors. Adv Funct Mater 17:718-729
223. Landaluce TF, London G, Pollard MM, Rudolf P, Feringa BL (2010) Rotary molecular
motors: a large increase in speed through a small change in design. J Org Chem
75:5323-5325
224. Ruangsupapichat N, Pollard MM, Harutyunyan SR, Feringa BL (2011) Reversing the direc-
tion in a light-driven rotary molecular motor. Nat Chem 3:53-60
225. Huck NPM, Feringa BL (1995) Dual-mode photoswitching of luminescence. J Chem Soc
Chem Commun 1095-1096
226. Browne WR, Pollard MM, de Lange B, Meetsma A, Feringa BL (2006) Reversible three-state
switching of luminescence: a new twist to electro- and photochromic behavior. J Am Chem
Soc 128:12412-12413
227. Oosterling MLCM, Schoevaars AM, Haitjema HJ, Feringa BL (1996) Polymer-bound
chiroptical molecular switches; photochemical modification of the chirality of thin films.
Isr J Chem 36:341-348
228. Ivashenko O, Logtenberg H, Areephong J, Coleman AC, Wesenhagen PV, Geertsema EM,
Heureux N, Feringa BL, Rudolf P, Browne WR (2011) Remarkable stability of high energy
conformers in self-assembled monolayers of a bistable electro- and photoswitchable
overcrowded alkene. J Phys Chem C 115:22965-22975
229. Aleksiuk O, Biali SE (1996) Dixanthylene double calix[6]arene. J Org Chem 61:5670-5673
230. Yip YC, Wang XJ, Ng DKP, Mak TCW, Chiang P, Luh TY (1990) (
Z
)-2,2
0
-Disubstituted
bifluorenylidenes
by
intramolecular
desulfurdimerization
reactions.
J Org Chem
55:1881-1889
231. Schoevaars AM, Hulst R, Feringa BL (1994) Synthesis and
1
H NMR complexation studies of
alkalimetal bithioxanthylidene crown ether complexes. Tetrahedron Lett 35:9745-9748
232. Geertsema EM, Schoevaars AM, Meetsma A, Feringa BL (2006) Bisthioxanthylidene
biscrown ethers as potential stereodivergent chiral ligands. Org Biomol Chem 4:4101-4112
233. Querol M, Stoekli-Evans H, Belser P (2002) 4,5-Diazafluorene-based overcrowded alkene: a
new ligand for transition metal complexes. Org Lett 4:1067-1070
234. Sans MQ, Belser P (2002) Towards new chiroptical switches. Coord Chem Rev 229:59-66
235. Smid WI, Schoevaars AM, Kruizinga W, Veldman N, Smeets WJJ, Spek AL, Feringa BL
(1996) Synthesis and dynamic behaviour of new metallo-based sterically overcrowded
alkenes. Chem Commun 2265-2266
236. ter Wiel MKJ, Meetsma A, Feringa BL (2002) Synthesis and molecular structure of chiral
metallo-based sterically overcrowded alkenes. Tetrahedron 58:2183-2188
237. Decker H, Petsch W (1935) Biacridyl und die sich von ihm ableitenden Radikale und
Leuchtsalze, die Luzigenine. J Prakt Chem 143:211-235
238. Albert A (1966) The acridines: their preparation, physical, chemical, and biological proper-
ties and uses, 2nd edn. Eduard Albert, London
239. Papadopoulos K, Spartalis S, Nikokavouras J, Mitsoulis K, Dimotikali D (1994) Chemilu-
minescence of N, N
0
-dialkyl-9,9
0
-biacridylidenes in homogeneous and micellar media. J
Photochem Photobiol A Chem 83:15-19
240. Hong Y, Lam JWL, Tang BZ (2011) Aggregation-induced emission. Chem Soc Rev
40:5361-5388
241. Hong Y, Lam JWY, Tang BZ (2009) Aggregation-induced emission: phenomenon, mecha-
nism and applications. Chem Commun 4332-4353
