Katsonis教授做的是生物与响应型材料，具有化学、材料以及生物背景的同学都可以投简历。 Katsonis教授是LZ当时读书时组里的博后，人超级nice, 而且她还同时获得荷兰雅典娜杰出女性科学家奖，课题组经费充足。 而且关键是，文章发得超好！博士生都拿着2篇1区毕业的，基本上每年都有nature 子刊。强烈推荐，保证拿着好文章毕业。建议大家投个简历问问。

她的课题组网站www.katsonis.eu
她的邮箱： n.h.katsonis@rug.nl

同时她组里的Tudernac副教授也在招生，组里录取名额较多，大家也可以发信询问Tudernac教授   t.kudernac@rug.nl

招生简介
The functional movement of living plants, animals, and other organisms is supported by molecules that in themselves move randomly. We are working to uncover how motion can be observed in purely synthetic systems, with the long-term goal of understanding what is different about living and non-living matter. Our strategy often draws inspiration from engineering strategies seen in biology, where molecular machines maintain out of equilibrium states by ingenious coupling with their anisotropic environment.

Shape-generating chemistry. In one of our seminal works we have reported how the interplay between asymmetry by gradients and anisotropy of e.g. liquid crystals, combined with the mechanically relevant motion of molecular switches, encodes the conversion of light into helical movement. Ultimately, artificial shape-generating systems may help untangle physical and chemical underpinnings of shape evolution and contribute to the design of life-like materials.

Motile behavior of minimal life forms. The movement of cells is essential to the operation of living matter. We are working toward incorporating complex motile behavior into synthetic mimics of minimal life-forms, by coupling molecular chemistry to physical processes. A theme of this program is to make droplets, vesicles or other micro compartments that move autonomously by using metabolic energy.

Selected Publications:
o        N. Katsonis, F. Lancia, D. A. Leigh, L. Pirvu, A. Ryabchun, F. Schaufelberger “Knotting a molecular strand can invert macroscopic effects of chirality.” Nat. Chem. 2020, 12, 939–944.
o        F. Lancia, A. Ryabchun, N. Katsonis “Life-like motion driven by artificial molecular machines” Nat. Rev. Chem. 2019, 3, 536–551
o        F. Lancia, A. Ryabchun, A-D. Nguindjel, S. Kwangmettatam, N. Katsonis “Mechanical adaptability of artificial muscles from nanoscale molecular action” Nat. Commun. 2019, 10, 4819

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