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Elsevier电子期刊(11787)
在“
Elsevier电子期刊
”中,
命中:
11,787
条,耗时:小于0.01 秒
在所有数据库中总计命中:
11,787
条
1.
Degradation behaviour of
PCL
/PEO/PCL and PCL/PEO block copolymers under controlled hydrolytic, enzymatic and composting conditions
作者:
Marijana Ponjavic
a
;
Marija S. Nikolic
a
;
mnikolic@tmf.bg.ac.rs
;
Jasmina Nikodinovic-Runic
b
;
Sanja Jeremic
b
;
Sanja Stevanovic
c
;
Jasna Djonlagic
a
关键词:
Hydrolytical degradation
;
Enzymatic degradation
;
Pseudomonas aeruginosa PAO1
;
Biocomposting
;
PCL
/PEO block copolymers
;
AFM
;
FTIR
刊名:Polymer Testing
出版年:2017
2.
Mechanical response of 3D Insert
®
PCL
to compression
作者:
M. Brunelli
m.brunelli@sheffield.ac.uk
;
C.M. Perrault
c.perrault@sheffield.ac.uk
;
D. Lacroix
;
d.lacroix@sheffield.ac.uk
关键词:
3D
;
three dimensional
;
2D
;
two dimensional
;
3D
PCL
;
3D Insert
PCL
;
d
;
Displacement
;
DMA
;
Dynamic mechanical analysis
;
E&prime
;
Storage modulus
;
E&Prime
;
Loss modulus
;
Ea
;
apparent elastic modulus
;
F
;
Load
;
GV
;
Grey values
;
µ
;
CT
;
Micro computed tomography
;
n
;
Number of samples
;
PBS
;
Phosphate buffered saline
;
PDMS
;
Polydimethylsiloxane
;
ROI
;
Region of interest
;
SEM
;
Scanning electron microscopy
;
TE
;
Tissue engineering
;
Vmat
;
Volume of material
;
VROI
;
Volume in ROI
刊名:Journal of the Mechanical Behavior of Biomedical Materials
出版年:2017
3.
Enhanced adhesion and proliferation of human umbilical vein endothelial cells on conductive PANI-
PCL
fiber scaffold by electrical stimulation
作者:
Yumei Li
a
;
b
;
Xiang Li
a
;
Rui Zhao
a
;
Chuying Wang
b
;
Fangping Qiu
c
;
qfp2004@126.com
;
Bolun Sun
a
;
He Ji
a
;
Ju Qiu
a
;
Ce Wang
a
;
cwang@jlu.edu.cn
关键词:
Conductive
;
Electrospinning
;
PANI-
PCL
;
Electrical stimulation
;
Vascular tissue engineering
刊名:Materials Science and Engineering: C
出版年:2017
4.
Development of 3D
PCL
microsphere/TiO
2
nanotube composite scaffolds for bone tissue engineering
作者:
Kimia Khoshroo
a
;
b
;
Tahereh S. Jafarzadeh Kashi
a
;
jafarzat@tums.ac.ir" class="auth_mail" title="E-mail the corresponding author
;
Fathollah Moztarzadeh
c
;
Mohammadreza Tahriri
a
;
b
;
c
;
mohammadreza.tahriri@marquette.edu" class="auth_mail" title="E-mail the corresponding author
;
Hossein E. Jazayeri
b
;
Lobat Tayebi
b
;
d
关键词:
PCL
;
TiO2 nanotube
;
Scaffold
;
Tissue engineering
;
Mechanical properties
刊名:Materials Science & Engineering C
出版年:2017
5.
Enhanced corrosion resistance and biocompatibility of AZ31 Mg alloy using
PCL
/ZnO NPs via electrospinning
作者:
Jinwoo Kim
a
;
Hamouda M. Mousa
a
;
b
;
Chan Hee Park
a
;
c
;
biochan@jbnu.ac.kr
;
Cheol Sang Kim
a
;
c
;
chskim@jbnu.ac.kr
关键词:
Magnesium alloy
;
ZnO nanoparticles (NPs)
;
Polycaprolactone (
PCL
)
;
Electrospinning
;
Corrosion
;
Biocompatibility
刊名:Applied Surface Science
出版年:2017
6.
Controllable fabrication and characterization of hydrophilic
PCL
/wool keratin nanonets by electronetting
作者:
Huihui Zhu
a
;
Rong Li
a
;
b
;
lirong@dhu.edu.cn
;
Xingle Wu
a
;
Ke Chen
a
;
Jiangning Che
c
关键词:
Nanonet
;
PCL
;
Wool keratin
;
Extraction
;
Hydrophilic
刊名:European Polymer Journal
出版年:2017
7.
Glycyrrhetinic acid-modified PEG-
PCL
copolymeric micelles for the delivery of curcumin
作者:
Runliang Feng
a
;
runliangfeng@126.com
;
Peizong Deng
a
;
Zhimei Song
a
;
Wei Chu
b
;
Wenxia Zhu
a
;
Fangfang Teng
c
;
d
;
Feilong Zhou
a
关键词:
Curcumin
;
Poly (ethylene glycol)
;
ε-Caprolectone
;
Glycyrrhetinic acid
;
Micelles
刊名:Reactive and Functional Polymers
出版年:2017
8.
Electrospun
PCL
/GO-g-PEG structures: Processing-morphology-properties relationships
作者:
Roberto Scaffaro
a
;
roberto.scaffaro@unipa.it
;
Francesco Lopresti
a
;
Andrea Maio
a
;
Luigi Botta
a
;
Salvatrice Rigogliuso
b
;
Giulio Ghersi
b
关键词:
A. Multifunctional composites
;
A. Biocomposite
;
B. Mechanical properties
;
PEGylated graphene oxide
刊名:Composites Part A: Applied Science and Manufacturing
出版年:2017
9.
Robust formulation for the design of tissue engineering scaffolds: A comprehensive study on structural anisotropy, viscoelasticity and degradation of 3D scaffolds fabricated with customized desktop robot based rapid prototyping (DRBRP) system
作者:
M. Enamul Hoque
mhoque@kfu.edu.sa
enamul1973@gmail.com
关键词:
Robust formulation
;
Anisotropy
;
Viscoelasticity
;
Degradation
;
Scaffold
;
PCL
;
PCL
-PEG
;
Homopolymer
;
Copolymer
刊名:Materials Science and Engineering: C
出版年:2017
10.
An injectable poly(caprolactone trifumarate-gelatin microparticles) (
PCL
TF-GMPs) scaffold for irregular bone defects: Physical and mechanical characteristics
作者:
Nisreen Mohammed Al-Namnam
a
Author Vitae
;
Muralithran Govindan Kutty
b
Author Vitae
;
Wen Lin Chai
b
Author Vitae
;
Kien Oon Ha
a
Author Vitae
;
Kah Hwi Kim
c
Author Vitae
;
Chong Huat Siar
a
Author Vitae
;
Wei Cheong Ngeow
a
;
ngeowy@um.edu.my
Author Vitae
关键词:
Copolymer scaffold
;
Surface analysis
;
Porosity
;
Mechanical properties
;
Bone tissue engineering
;
Cytotoxicity
刊名:Materials Science and Engineering: C
出版年:2017
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按检索点细分(11787)
题名(1015)
作者(548)
关键词(746)
文摘(10759)
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