https://orcid.org/0000-0001-9816-9661
Citations (16)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (4)
Mohamed Alaasar, Christian Anders, Rami Pashameah & Ahmed F. Darweesh. (2023) Azopyridine-based hydrogen-bonded liquid crystals with thioether tail. Liquid Crystals 50:15, pages 2397-2412.
Read now
Read now
Corrie T. Imrie. (2023) The 2022 Luckhurst-Samulski Prize. Liquid Crystals 50:13-14, pages 1995-1997.
Read now
Read now
Ewan Cruickshank, Abigail Pearson, Stevie Brown, John MD Storey, Corrie T Imrie & Rebecca Walker. (2023) The ferroelectric nematic phase: on the role of lateral alkyloxy chains. Liquid Crystals 50:11-12, pages 1960-1967.
Read now
Read now
Mohamed H. Ali, Gamal R. Saad, Nagwa H.S. Ahmed & Abdelgawad A. Fahmi. (2023) Synthesis and physico-chemical properties of dilateral flouro azo/ester four aromatic ring mesogens and their mixtures of liquid crystals. Liquid Crystals 50:5, pages 737-753.
Read now
Read now
Articles from other publishers (12)
Ewan Cruickshank. (2024) The Emergence of a Polar Nematic Phase: A Chemist's Insight into the Ferroelectric Nematic Phase. ChemPlusChem 89:5.
Crossref
Crossref
Gytis Stepanafas, Ewan Cruickshank, Stevie Brown, Magdalena M. Majewska, Damian Pociecha, Ewa Gorecka, John M.D. Storey & Corrie T. Imrie. (2024) Ferroelectric nematogens containing a methylthio group. Materials Advances 5:2, pages 525-538.
Crossref
Crossref
Yuki Sawatari, Yoshimichi Shimomura, Masato Takeuchi, Riki Iwai, Takuya Tanaka, Eiji Tsurumaki, Masatoshi Tokita, Junji Watanabe & Gen‐ichi Konishi. (2024) Supramolecular liquid crystals from the dimer of L‐shaped molecules with tertiary amide end groups. Aggregate.
Crossref
Crossref
A. V. Emelyanenko, V. Yu. Rudyak, S. A. Shvetsov, F. Araoka, H. Nishikawa & K. Ishikawa. (2024) Transformation of polar nematic phases in the presence of an electric field. Physical Review E 109:1.
Crossref
Crossref
Calum J. Gibb & Richard J. Mandle. (2023) New RM734-like fluid ferroelectrics enabled through a simplified protecting group free synthesis. Journal of Materials Chemistry C 11:48, pages 16982-16991.
Crossref
Crossref
Jakub Karcz, Natan Rychłowicz, Małgorzata Czarnecka, Antoni Kocot, Jakub Herman & Przemysław Kula. (2023) Enantiotropic ferroelectric nematic phase in a single compound. Chemical Communications 59:100, pages 14807-14810.
Crossref
Crossref
Ewan Cruickshank, Paulina Rybak, Magdalena M. Majewska, Shona RamsayCheng Wang, Chenhui Zhu, Rebecca Walker, John M. D. StoreyCorrie T. ImrieEwa Gorecka & Damian Pociecha. (2023) To Be or Not To Be Polar: The Ferroelectric and Antiferroelectric Nematic Phases. ACS Omega 8:39, pages 36562-36568.
Crossref
Crossref
Hiroya Nishikawa, Motonobu Kuwayama, Atsuko Nihonyanagi, Barun Dhara & Fumito Araoka. (2023) Rapid, solvent-minimized and sustainable access to various types of ferroelectric-fluid molecules by harnessing mechano-chemical technology. Journal of Materials Chemistry C 11:37, pages 12525-12542.
Crossref
Crossref
Runli Xia, Xiuhu Zhao, Jinxing Li, Huanyu Lei, Yaohao Song, Weifeng Peng, Xinxin Zhang, Satoshi Aya & Mingjun Huang. (2023) Achieving enhanced second-harmonic generation in ferroelectric nematics by doping D–π–A chromophores. Journal of Materials Chemistry C 11:32, pages 10905-10910.
Crossref
Crossref
Richard J. Mandle. (2023) In Silico Interactome of a Room-Temperature Ferroelectric Nematic Material. Crystals 13:6, pages 857.
Crossref
Crossref
Naila Tufaha, Ewan Cruickshank, Damian Pociecha, Ewa Gorecka, John M.D. Storey & Corrie T. Imrie. (2023) Molecular Shape, Electronic Factors, and the Ferroelectric Nematic Phase: Investigating the Impact of Structural Modifications. Chemistry – A European Journal 29:28.
Crossref
Crossref
Mateusz Mrukiewicz, Paweł Perkowski, Jakub Karcz & Przemysław Kula. (2023) Ferroelectricity in a nematic liquid crystal under a direct current electric field. Physical Chemistry Chemical Physics 25:18, pages 13061-13071.
Crossref
Crossref