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Autori principali: Zhan, Pengfei, Peil, Andreas, Jiang, Qiao, Wang, Dongfang, Mousavi, Shikufa, Xiong, Qiancheng, Shen, Qi, Shang, Yingxu, Ding, Baoquan, Lin, Chenxiang, Ke, Yonggang, Liu, Na
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.11505
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author Zhan, Pengfei
Peil, Andreas
Jiang, Qiao
Wang, Dongfang
Mousavi, Shikufa
Xiong, Qiancheng
Shen, Qi
Shang, Yingxu
Ding, Baoquan
Lin, Chenxiang
Ke, Yonggang
Liu, Na
author_facet Zhan, Pengfei
Peil, Andreas
Jiang, Qiao
Wang, Dongfang
Mousavi, Shikufa
Xiong, Qiancheng
Shen, Qi
Shang, Yingxu
Ding, Baoquan
Lin, Chenxiang
Ke, Yonggang
Liu, Na
contents DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics, engineering, and materials science can elegantly converge. Since the original proposal of Nadrian Seeman, significant advances have been achieved in the past four decades. During this glory time, the DNA origami technique developed by Paul Rothemund further pushed the field forward with a vigorous momentum, fostering a plethora of concepts, models, methodologies, and applications that were not thought of before. This review focuses on the recent progress in DNA origami-engineered nanomaterials in the past five years, outlining the exciting achievements as well as the unexplored research avenues. We believe that the spirits and asset that Seeman left for scientists will continue to bring inter-disciplinary innovations and useful applications to this field in the next decade.
format Preprint
id arxiv_https___arxiv_org_abs_2506_11505
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Recent advances in DNA origami-engineered nanomaterials and applications
Zhan, Pengfei
Peil, Andreas
Jiang, Qiao
Wang, Dongfang
Mousavi, Shikufa
Xiong, Qiancheng
Shen, Qi
Shang, Yingxu
Ding, Baoquan
Lin, Chenxiang
Ke, Yonggang
Liu, Na
Biological Physics
DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics, engineering, and materials science can elegantly converge. Since the original proposal of Nadrian Seeman, significant advances have been achieved in the past four decades. During this glory time, the DNA origami technique developed by Paul Rothemund further pushed the field forward with a vigorous momentum, fostering a plethora of concepts, models, methodologies, and applications that were not thought of before. This review focuses on the recent progress in DNA origami-engineered nanomaterials in the past five years, outlining the exciting achievements as well as the unexplored research avenues. We believe that the spirits and asset that Seeman left for scientists will continue to bring inter-disciplinary innovations and useful applications to this field in the next decade.
title Recent advances in DNA origami-engineered nanomaterials and applications
topic Biological Physics
url https://arxiv.org/abs/2506.11505