Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: A new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Rao, H Barrett, P Camelliti, K Pinto… - …, 2014 - research.ed.ac.uk
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Toumazou, T Prodromakis, C Rao… - Biofabrication …, 2014 - inis.iaea.org
[en] We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications.
T Trantidou, C Rao, H Barrett, P Camelliti, K Pinto… - Biofabrication, 2014 - europepmc.org
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Toumazou, T Prodromakis, C Rao… - Biofabrication …, 2014 - osti.gov
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications.
T Trantidou, C Rao, H Barrett, P Camelliti… - …, 2014 - openresearch.surrey.ac.uk
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning
for synthetic biology applications. - University of Surrey Logo image Menu Outputs Open …
for synthetic biology applications. - University of Surrey Logo image Menu Outputs Open …
[PDF][PDF] Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Rao, H Barrett, P Camelliti, K Pinto… - cyberleninka.org
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
[引用][C] Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Rao, H Barrett, P Camelliti, K Pinto… - Biofabrication, 2014 - cir.nii.ac.jp
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning
for synthetic biology applications | CiNii Research CiNii 国立情報学研究所 学術情報 …
for synthetic biology applications | CiNii Research CiNii 国立情報学研究所 学術情報 …
[PDF][PDF] Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Rao, H Barrett, P Camelliti, K Pinto… - researchgate.net
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …
Selective hydrophilic modification of Parylene C films: a new approach to cell micro-patterning for synthetic biology applications
T Trantidou, C Rao, H Barrett, P Camelliti… - …, 2014 - ui.adsabs.harvard.edu
We demonstrate a simple, accurate and versatile method to manipulate Parylene C, a
material widely known for its high biocompatibility, and transform it to a substrate that can …
material widely known for its high biocompatibility, and transform it to a substrate that can …