Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, L Schnaider… - Nature Reviews …, 2020 - nature.com
Natural biomolecular systems have evolved to form a rich variety of supramolecular
materials and machinery fundamental to cellular function. The assembly of these structures …
被引用次数:523 相关文章
[PDF] gbernardeslab.com

[PDF][PDF] Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, L Schnaider, GJL Bernardes… - NATure - gbernardeslab.com
Natural biomolecular systems have evolved to form a rich variety of supramolecular
materials and machinery fundamental to cellular function. The assembly of these structures …

Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, S Lee, BG JL… - Nature Reviews …, 2020 - search.proquest.com
Natural biomolecular systems have evolved to form a rich variety of supramolecular
materials and machinery fundamental to cellular function. The assembly of these structures …

Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, L Schnaider, GJL Bernardes… - 2020 - repository.cam.ac.uk
Biomolecular systems have evolved to form a rich variety of supramolecular materials and
machinery fundamental to cellular function. The assembly of these structures commonly …

[引用][C] Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, L Schnaider… - Nature Reviews …, 2020 - cir.nii.ac.jp
Biomimetic peptide self-assembly for functional materials | CiNii Research CiNii 国立情報学
研究所 学術情報ナビゲータ[サイニィ] 詳細へ移動 検索フォームへ移動 論文・データをさがす 大学 …
[PDF] core.ac.uk

[PDF][PDF] Biomimetic peptide self-assembly for functional materials

A Levin, TA Hakala, L Schnaider, GJL Bernardes… - core.ac.uk
Biomolecular systems have evolved to form a rich variety of supramolecular 16 materials
and machinery fundamental to cellular function. The assembly of these structures 17 …