https://orcid.org/0000-0002-2903-7101
References
- Kolb HC, Finn MG, Sharpless KB. Click chemistry: diverse chemical function from a few good reactions. Angew Chem Int Ed. 2001;40:2004–2021. Angew. Chem. 2001; 113: 2056 – 2075.
- Iehl J, Nguyen TLA, Frein S, et al. Designing liquid-crystalline dendronised hexa- adducts of [60]fullerene via click chemistry. Liq Cryst. 2017;44:1852–1860.
- Gowda A, Kumar M, Kumar S. Discotic liquid crystals derived from polycyclic aromatic cores: from the smallest benzene to the utmost graphene cores. Liq Cryst. 2017;44:1990–2017.
- Lee JW, Han SC, Kim JH, et al. Formation of rotaxane dendrimers by supramolecular click chemistry. Bull Korean Chem Soc. 2007;28:1837–1840.
- Hoogenboom R, Moore BC, Schubert US. Synthesis of star-shaped poly(ε-caprolactone) via ‘click’ chemistry and ‘supramolecular click’ chemistry. Chem Commun. 2006;4010–4012.
- Trabolsi A, Elhabiri M, Urbani M, et al. Supramolecular click chemistry for the self-assembly of a stable Zn(II)–porphyrin–C60 conjugate. Chem Commun. 2005;5736–5738.
- Hahn U, Elhabiri M, Trabolsi A, et al. Supramolecular click chemistry with a bisammonium-C60 substrate and a ditopic crown ether host. Angew Chem Int Ed. 2005;44:5338–5341. Angew. Chem. 2005; 117: 5472 – 5475.
- Tang J, Costa JS, Aromí G, et al. Supramolecular click assembly of a fused double-stranded [MnII3] dihelicate. Eur J Inorg Chem. 2007;4119–4122.
- Travers A, Muskhelishvili G. DNA structure and function. Febs J. 2015;282:2279–2295.
- Sainsbury S, Bernecky C, Cramer P. Structural basis of transcription initiation by RNA polymerase II. Nat Rev. 2015;16:129–143.
- Hannon MJ. Supramolecular DNA recognition. Chem Soc Rev. 2007;36:280–295.
- Bellini T, Cerbino R, Zanchetta G. DNA-based soft phases. In: Tschierske C, editor. Liquid crystals. Topics in current chemistry. Vol. 318. Berlin, Heidelberg: Springer; 2012; Chapter 4. p. 225–279.
- Mariani P, Mazabard C, Garbesi A, et al. A study of the structure of the lyomesophases formed by the dinucleoside phosphate d(GpG). An approach by X-ray diffraction and optical microscopy. J Am Chem Soc. 1989;111:6369–6373.
- Kanie K, Nishii M, Yasuda T, et al. Self-assembly of thermotropic liquid-crystalline folic acid derivatives: hydrogen-bonded complexes forming layers and columns. J Mater Chem. 2001;11:2875–2886.
- Kato T, Kamikawa Y. Hydrogen-bonded systems: discrete defined aggregates by intermolecular H-bonding, amides, carboxylic acids, and heterocycles. In: Goodby JW, Collings PJ, Kato T, et al., editors. Handbook of liquid crystals. 2nd ed.; Vol. 5. Weinheim: Wiley-VCH; 2014; Chapter 10.p. 513–540.
- Pucci D, Donnio B. Metal-containing liquid crystals. In: Goodby JW, Collings PJ, Kato T, et al., editors. Handbook of liquid crystals. 2nd ed.; Vol. 5. Weinheim: Wiley-VCH; 2014; Chapter 4.p. 175–241.
- Oxford advanced learner’s dictionary. 9th ed. Oxford: Oxford University Press; 2015; p. 274.
- Arikainen EO, Boden N, Bushby RJ, et al. Complimentary polytopic interactions. Angew Chem Int Ed. 2000;39:2333–2336. Angew. Chem. 2000, 112, 2423 – 2426.
- Sawamura M, Kawai K, Matsuo Y, et al. Stacking of conical molecules with a fullerene apex into polar columns in crystals and liquid crystals. Nature. 2002;419:702–705.
- Lehmann M. Star-shaped mesogens. In: Goodby JW, Collings PJ, Kato T, et al., editors. Handbook of liquid crystals. 2nd ed.; Vol. 5. Weinheim: Wiley-VCH; 2014; Chapter 5.p. 243–315.
- Roth S, Lehmann M. Mesogenic origami – four-armed, star-shaped mesogens as precursors for functional liquid crystal materials. Liq Cryst. 2017;44:1830–1841.
- Lehmann M, Schartel B, Hennecke M, et al. Dendrimers consisting of stilbene or distyrylbenzene building blocks synthesis and stability. Tetrahedron. 1999;55:13377–13394.
- Lehmann M, Synthese und struktur-eigenschaftsbeziehungen von stilbenoiden dendrimeren und sternverbindungen [PhD Thesis]. Mainz: University of Mainz; 1999.
- Lehmann M, Hügel M. A perfect match: fullerene guests in star-shaped oligophenylenevinylene mesogens. Angew Chem Int Ed. 2015;54:4110–4114. Angew. Chem. 2015; 127: 4183 – 4187.
- Hügel M, Dechant M, Scheuring N, et al. Fullerene-filled stilbene stars: the balance between isolated C60 helices and 3D networks in liquid-crystal self-assemblies. Chem Eur J. 2019;25:3352–3361.
- Felder-Fletsch D, Guillon D, Donnio B. Fullerene-containing liquid crystals. In: Goodby JW, Collings PJ, Kato T, et al., editors. Handbook of liquid crystals. 2nd ed.; Vol. 5. Weinheim: Wiley-VCH; 2014; Chapter 6.p. 317–361.
- Lehmann M, Dechant M, Holzapfel M, et al. Fullerene-filled liquid-crystal stars: a supramolecular click mechanism for the generation of tailored donor–acceptor assemblies. Angew Chem Int Ed. 2019;58:3610–3615.
- Zhong YW, Matsuo Y, Nakamura E. Lamellar assembly of conical molecules possessing a fullerene apex in crystals and liquid crystals. J Am Chem Soc. 2007;129:3052–3053.
- Boden N, Richard J, Bushby RJ, et al. CPI: a recipe for improving applicable properties of discotic liquid crystals. J Am Chem Soc. 2001;123:7915–7916.
- Bushby RJ, Fisher J, Lozman OR, et al. The stability of columns comprising alternating triphenylene and hexaphenyltriphenylene molecules: variations in the structure of the hexaphenyltriphenylene component. Liq Cryst. 2006;33:653–664.
- Mc Laren SR, Tate DJ, Lozman OR, et al. Stabilised columnar mesophases formed by 1 : 1 mixtures of hexaalkoxytriphenylenes with a hexaphenyltriphenylene-based polymer. J Mater Chem C. 2015;3:5754–5763.
- Lehmann M, Maier P. Shape-persistent, sterically crowded star mesogens: from exceptional columnar dimer stacks to supermesogens. Angew Chem Int Ed. 2015;54:9710–9714. Angew. Chem. 2015; 127: 9846 – 9850.