A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
[PDF][PDF] A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose, J Chen… - Journal of Materials … - scholar.archive.org
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
[PDF][PDF] Research Online
L Jourdin, S Freguia, BC Donose, J Chen… - Journal of Materials … - core.ac.uk
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
[PDF][PDF] A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose, J Chen, GG Wallace… - researchgate.net
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose, J Chen, GG Wallace… - 2014 - ro.uow.edu.au
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
[引用][C] A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose… - Journal of …, 2014 - espace.library.uq.edu.au
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
[引用][C] A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose, J Chen… - J. Mater. Chem …, 2014 - cir.nii.ac.jp
A novel carbon nanotube modified scaffold as an efficient biocathode material for improved
microbial electrosynthesis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
microbial electrosynthesis | CiNii Research CiNii 国立情報学研究所 学術情報ナビゲータ[サイニィ …
[PDF][PDF] Research Online
L Jourdin, S Freguia, BC Donose, J Chen… - Journal of Materials … - ro.uow.edu.au
We report on a novel biocompatible, highly conductive three-dimensional cathode
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …
manufactured by direct growth of flexible multiwalled carbon nanotubes on reticulated …