Metal nanofoams with a porosity above 50% v/v have recently attracted great. Interest In materials science due to their interesting properties.. We.. demonstrate a new straightforward route to prepare such nanofoams using diblock copolymer-based PS-block-P4VP-(PDP) supramolecules that self-assemble Into a bicontinuous gyroid morphology, consisting of PS network channels in a P4VP(PDP) matrix. After dissolving the PDP, the P4VP. collapses onto the PS struts and a free-standing bicontinuous. gyroid template of 50-100 mu m thickness and interconnected, uniformly sized pores Is formed. The hydrophilic P4VP corona facilitates the penetration of water-based plating reagents into the porous template and enables a successful metal deposition. After plating, the polymer is simply degraded by heating, resulting In a well-ordered inverse gyroid nickel-foam. Essential to this approach Is the removal of only one part of the matrix (i.e., PDP). Therefore, the template accounts for 50% v/v or more. T...he porosity characteristics (amount, size of pores) can be tuned by selecting the appropriate copolymer and by adjusting the amount of PDP.
Кључне речи:
metal nanofoams / nanopores / diblock copolymers / supramolecules / metal plating
TY - JOUR
AU - Vukovic, Ivana
AU - Punzhin, Sergey
AU - Vuković, Zorica
AU - Onck, Patrick
AU - De, Hosson Jeff Th M.
AU - ten, Brinke Gerrit
AU - Loos, Katja
PY - 2011
UR - https://cer.ihtm.bg.ac.rs/handle/123456789/766
AB - Metal nanofoams with a porosity above 50% v/v have recently attracted great. Interest In materials science due to their interesting properties.. We.. demonstrate a new straightforward route to prepare such nanofoams using diblock copolymer-based PS-block-P4VP-(PDP) supramolecules that self-assemble Into a bicontinuous gyroid morphology, consisting of PS network channels in a P4VP(PDP) matrix. After dissolving the PDP, the P4VP. collapses onto the PS struts and a free-standing bicontinuous. gyroid template of 50-100 mu m thickness and interconnected, uniformly sized pores Is formed. The hydrophilic P4VP corona facilitates the penetration of water-based plating reagents into the porous template and enables a successful metal deposition. After plating, the polymer is simply degraded by heating, resulting In a well-ordered inverse gyroid nickel-foam. Essential to this approach Is the removal of only one part of the matrix (i.e., PDP). Therefore, the template accounts for 50% v/v or more. The porosity characteristics (amount, size of pores) can be tuned by selecting the appropriate copolymer and by adjusting the amount of PDP.
PB - American Chemical Society (ACS)
T2 - ACS Nano
T1 - Supramolecular Route to Well-Ordered Metal Nanofoams
VL - 5
IS - 8
SP - 6339
EP - 6348
DO - 10.1021/nn201421y
ER -
@article{
author = "Vukovic, Ivana and Punzhin, Sergey and Vuković, Zorica and Onck, Patrick and De, Hosson Jeff Th M. and ten, Brinke Gerrit and Loos, Katja",
year = "2011",
abstract = "Metal nanofoams with a porosity above 50% v/v have recently attracted great. Interest In materials science due to their interesting properties.. We.. demonstrate a new straightforward route to prepare such nanofoams using diblock copolymer-based PS-block-P4VP-(PDP) supramolecules that self-assemble Into a bicontinuous gyroid morphology, consisting of PS network channels in a P4VP(PDP) matrix. After dissolving the PDP, the P4VP. collapses onto the PS struts and a free-standing bicontinuous. gyroid template of 50-100 mu m thickness and interconnected, uniformly sized pores Is formed. The hydrophilic P4VP corona facilitates the penetration of water-based plating reagents into the porous template and enables a successful metal deposition. After plating, the polymer is simply degraded by heating, resulting In a well-ordered inverse gyroid nickel-foam. Essential to this approach Is the removal of only one part of the matrix (i.e., PDP). Therefore, the template accounts for 50% v/v or more. The porosity characteristics (amount, size of pores) can be tuned by selecting the appropriate copolymer and by adjusting the amount of PDP.",
publisher = "American Chemical Society (ACS)",
journal = "ACS Nano",
title = "Supramolecular Route to Well-Ordered Metal Nanofoams",
volume = "5",
number = "8",
pages = "6339-6348",
doi = "10.1021/nn201421y"
}
Vukovic, I., Punzhin, S., Vuković, Z., Onck, P., De, H. J. T. M., ten, B. G.,& Loos, K.. (2011). Supramolecular Route to Well-Ordered Metal Nanofoams. in ACS Nano
American Chemical Society (ACS)., 5(8), 6339-6348.
https://doi.org/10.1021/nn201421y
Vukovic I, Punzhin S, Vuković Z, Onck P, De HJTM, ten BG, Loos K. Supramolecular Route to Well-Ordered Metal Nanofoams. in ACS Nano. 2011;5(8):6339-6348.
doi:10.1021/nn201421y .
Vukovic, Ivana, Punzhin, Sergey, Vuković, Zorica, Onck, Patrick, De, Hosson Jeff Th M., ten, Brinke Gerrit, Loos, Katja, "Supramolecular Route to Well-Ordered Metal Nanofoams" in ACS Nano, 5, no. 8 (2011):6339-6348,
https://doi.org/10.1021/nn201421y . .
