[HTML][HTML] Cooperative colloidal self-assembly of metal-protein superlattice wires
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
[PDF][PDF] Cooperative colloidal self-assembly of metal-protein superlattice wires
JJ Joensuu, RHA Ras, P Törmä, O Ikkala… - acris.aalto.fi
Results Charged colloidal particles. In this work we used AuNPs with a narrow size
distribution (Dcore= 12.4±0.9 nm), which were functionalized with a covalently linked (11 …
distribution (Dcore= 12.4±0.9 nm), which were functionalized with a covalently linked (11 …
[HTML][HTML] Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen, HT Rekola… - Nature …, 2017 - ncbi.nlm.nih.gov
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen, HT Rekola… - Nature …, 2017 - cris.vtt.fi
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen… - Nature …, 2017 - pubmed.ncbi.nlm.nih.gov
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen… - Nature …, 2017 - econpapers.repec.org
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen, H Rekola, N Nonappa… - 2017 - aaltodoc.aalto.fi
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
Cooperative colloidal self-assembly of metal-protein superlattice wires.
V Liljeström, A Ora, J Hassinen, HT Rekola… - Nature …, 2017 - europepmc.org
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …
[PDF][PDF] Cooperative colloidal self-assembly of metal-protein superlattice wires
JJ Joensuu, RHA Ras, P Törmä, O Ikkala… - users.aalto.fi
Results Charged colloidal particles. In this work we used AuNPs with a narrow size
distribution (Dcore= 12.4±0.9 nm), which were functionalized with a covalently linked (11 …
distribution (Dcore= 12.4±0.9 nm), which were functionalized with a covalently linked (11 …
Cooperative colloidal self-assembly of metal-protein superlattice wires
V Liljeström, A Ora, J Hassinen, HT Rekola… - Nature …, 2017 - ideas.repec.org
Material properties depend critically on the packing and order of constituent units throughout
length scales. Beyond classically explored molecular self-assembly, structure formation in …
length scales. Beyond classically explored molecular self-assembly, structure formation in …