Conference Theme: Converging Frontiers in Biomedical Engineering from Novel Research to Patient BenefitsConcurrent Session: Biomaterials and Tissue Engineering (II
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
Electrospinning is an effective technology for the fabrication of ultrafine fibers, which can be the...
WOS:000436457400005Background: Over the last decades, synthetic polymer-based electrospun nano/micro...
Theme: Converging Frontiers in Biomedical Engineering from Novel Research to Patient BenefitsConcurr...
Concurrent Session E: Biomaterials and Tissue Engineering (II), 24 October 2008Proceedings of BME200...
Session T1.7 - Biomaterials III: T1.7.4The 4th World Congress on Bioengineering (WACBE 2009), Hong K...
The conference proceedings will be published in the Journal of Nanoscience and Nanotechnology listed...
Electrospinning, a technology capable of fabricating ultrafine fibers (microfibers and nanofibers), ...
Symposium K: Micro-and Nanoscale Processing of Materials for Biomedical DevicesSession K2Scientific ...
While electrospinning is an effective technology for producing poly(hydroxybutyrate-co-hydroxyvalera...
Session - Symposium Y: Biomaterials and Tissue Engineering: ICMAT11-A-3663Bone tissue engineering re...
The use of composite materials, especially for the development of scaffolds, is having a great impac...
Electrospinning, an electrostatic fiber fabrication technique, has attracted significant interest in...
While electrospinning had seen intermittent use in the textile industry from the early twentieth cen...
The ultimate goal of tissue engineering is to replace damaged tissues by applying engineering techno...
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
Electrospinning is an effective technology for the fabrication of ultrafine fibers, which can be the...
WOS:000436457400005Background: Over the last decades, synthetic polymer-based electrospun nano/micro...
Theme: Converging Frontiers in Biomedical Engineering from Novel Research to Patient BenefitsConcurr...
Concurrent Session E: Biomaterials and Tissue Engineering (II), 24 October 2008Proceedings of BME200...
Session T1.7 - Biomaterials III: T1.7.4The 4th World Congress on Bioengineering (WACBE 2009), Hong K...
The conference proceedings will be published in the Journal of Nanoscience and Nanotechnology listed...
Electrospinning, a technology capable of fabricating ultrafine fibers (microfibers and nanofibers), ...
Symposium K: Micro-and Nanoscale Processing of Materials for Biomedical DevicesSession K2Scientific ...
While electrospinning is an effective technology for producing poly(hydroxybutyrate-co-hydroxyvalera...
Session - Symposium Y: Biomaterials and Tissue Engineering: ICMAT11-A-3663Bone tissue engineering re...
The use of composite materials, especially for the development of scaffolds, is having a great impac...
Electrospinning, an electrostatic fiber fabrication technique, has attracted significant interest in...
While electrospinning had seen intermittent use in the textile industry from the early twentieth cen...
The ultimate goal of tissue engineering is to replace damaged tissues by applying engineering techno...
In tissue engineering, nanofibrous scaffolds can achieve better biological responses than microfibro...
Electrospinning is an effective technology for the fabrication of ultrafine fibers, which can be the...
WOS:000436457400005Background: Over the last decades, synthetic polymer-based electrospun nano/micro...