Journal of Nanomaterials

Multifunctional Nanomaterials for Biomedical Engineering: Unique Properties, Fabrications, and Diverse Applications


Publishing date
16 Jan 2015
Status
Published
Submission deadline
29 Aug 2014

Lead Editor

1National Taiwan Normal University, Taipei, Taiwan

2Wright State University, Dayton, USA

3Northwest University, Xi'an, China


Multifunctional Nanomaterials for Biomedical Engineering: Unique Properties, Fabrications, and Diverse Applications

Description

Nanomaterials have widely emerged in biomedical engineering of science and application due to their unique properties. Especially, if nanomaterials possess versatility for different jobs of biomedical engineering, such as preoperative imaging and intraoperative imaging, their popularity and production value are full of competitiveness. Their related methodologies and instruments are also created or emphasized as the mainstream. Consequently, multifunctional nanomaterials attract interests and attention of researchers, engineers, and businessmen in biomedical engineering. To recognize one nanomaterial as multifunctional, the key is to introduce its practical and excellent properties in biomedical engineering. We invite authors to submit original research and review articles that seek to develop novel multifunctional nanomaterials including related novel methodology or instruments for biomedical engineering. We are interested in articles that explore the diverse properties of the same multifunctional nanomaterials for biomedical engineering.

Potential topics include, but are not limited to:

  • Development of novel multifunctional nanomaterials for biomedical engineering, including related novel or improved methodology or instruments
  • Development of novel or improved methodology or instruments to increase multifunctions of certain developed nanomaterials
  • Development of novel or improved fabrication technology to achieve economic or industrial production of certain developed multifunctional nanomaterials for biomedical engineering
  • Theoretical models for the diverse properties of certain developed multifunctional nanomaterials for biomedical engineering
  • Complete comparison of the application performances between the selected multifunctional nanomaterials and conventional materials for biomedical engineering

Articles

  • Special Issue
  • - Volume 2015
  • - Article ID 942698
  • - Editorial

Multifunctional Nanomaterials for Biomedical Engineering: Unique Properties, Fabrications, and Diverse Applications

Jen-Jie Chieh | Sharmila M. Mukhopadhyay | Yali Cui
  • Special Issue
  • - Volume 2015
  • - Article ID 150394
  • - Research Article

Comparison of the Effect of Sol-Gel and Coprecipitation Routes on the Properties and Behavior of Nanocomposite Chitosan-Bioactive Glass Membranes for Bone Tissue Engineering

Elke M. F. Lemos | Sandhra M. Carvalho | ... | Marivalda M. Pereira
  • Special Issue
  • - Volume 2015
  • - Article ID 489183
  • - Research Article

Effectiveness of Two Self-Etchings Bonded Clinically in Caries Affected Dentin with Homogeneous Smear Layer

Roberto Pinna | Paolo Usai | ... | Egle Milia
  • Special Issue
  • - Volume 2015
  • - Article ID 250617
  • - Research Article

Physicochemical Analysis of the Polydimethylsiloxane Interlayer Influence on a Hydroxyapatite Doped with Silver Coating

C. L. Popa | A. Groza | ... | D. Predoi
  • Special Issue
  • - Volume 2015
  • - Article ID 497296
  • - Research Article

Assaying Biomarkers via Real-Time Measurements of the Effective Relaxation Time of Biofunctionalized Magnetic Nanoparticles Associated with Biotargets

Shu-Hsien Liao | Jean-Hong Chen | ... | Hong-Chang Yang
  • Special Issue
  • - Volume 2014
  • - Article ID 351848
  • - Research Article

Time-Evolution Contrast of Target MRI Using High-Stability Antibody Functionalized Magnetic Nanoparticles: An Animal Model

K. W. Huang | S. Y. Yang | ... | H. C. Yang
Journal of Nanomaterials
 Journal metrics
Acceptance rate41%
Submission to final decision80 days
Acceptance to publication40 days
CiteScore1.570
Impact Factor2.233
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