MISTRY, Yash, WEEGER, Oliver, MORANKAR, Swapnil, SHINDE, Mandar, LIU, Siying, CHAWLA, Nikhilesh, CHEN, Xiangfan, PENICK, Clint A. und BHATE, Dhruv, 2023. Bio-inspired selective nodal decoupling for ultra-compliant interwoven lattices. Communications materials. 2023. No. Band 4 (2023), Artikel-ID: 35, p. , Artikel-ID: 35. DOI 10.1038/s43246-023-00363-6.

Mistry, Y., Weeger, O., Morankar, S., Shinde, M., Liu, S., Chawla, N., Chen, X., Penick, C.A., Bhate, D., 2023. Bio-inspired selective nodal decoupling for ultra-compliant interwoven lattices. Communications materials , Artikel-ID: 35. https://doi.org/10.1038/s43246-023-00363-6

Mistry, Y., Weeger, O., Morankar, S., Shinde, M., Liu, S., Chawla, N., Chen, X., Penick, C. A., & Bhate, D. (ca. 2023). Bio-inspired selective nodal decoupling for ultra-compliant interwoven lattices [Electronic]. Communications materials, Band 4 (2023), Artikel-ID: 35, , Artikel-ID: 35. https://doi.org/10.1038/s43246-023-00363-6

Mistry Y, Weeger O, Morankar S, Shinde M, Liu S, Chawla N, Chen X, Penick CA, Bhate D (2023) Bio-inspired selective nodal decoupling for ultra-compliant interwoven lattices. Communications materials , Artikel-ID: 35. https://doi.org/10.1038/s43246-023-00363-6

Mistry, Yash/ Weeger, Oliver/ Morankar, Swapnil/ Shinde, Mandar/ Liu, Siying/ Chawla, Nikhilesh/ Chen, Xiangfan/ Penick, Clint A./ Bhate, Dhruv, Bio-inspired selective nodal decoupling for ultra-compliant interwoven lattices, Communications materials 2023, , Artikel-ID: 35.