Biography and Research Information
OverviewAI-generated summary
Lauren Roeder's research focuses on the hydrothermal synthesis of valve metal-doped titanate nanofibers for applications in bone tissue engineering. Her work has resulted in publications detailing the synthesis of zirconium-doped and tantalum-doped titanate nanofibers. Roeder has published five papers, accumulating 44 citations and an h-index of 3. She has collaborated with researchers at the University of Arkansas at Fayetteville, including Parker Cole and Savannah Thornburgh, with whom she shares three co-authored publications. Her recent activity indicates ongoing engagement in her research area.
Metrics
- h-index: 4
- Publications: 5
- Citations: 46
Selected Publications
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Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue (2024)
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Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering (2023)
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Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering (2021)
Collaboration Network
Top Collaborators
Parker Cole
3 shared publications
In database
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Savannah Thornburgh
University of Arkansas at Fayetteville
3 shared publications
In database
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Mary J. Malloy
University of Arkansas at Fayetteville (US)
3 shared publications
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Z. Ryan Tian
University of Arkansas at Fayetteville
3 shared publications
In database
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Yang Tian
2 shared publications
In database
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Micah Maulding
University of Arkansas at Fayetteville
2 shared publications
In database
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Yang Huang
2 shared publications
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
- Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering
Yang Tian
University of Arkansas at Fayetteville (US)
1 shared publication
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Lu Zhang
University of Arkansas at Fayetteville (US)
1 shared publication
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Mansi Patel
University of Arkansas at Fayetteville (US)
1 shared publication
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Yiting Xiao
1 shared publication
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Yan Huang
1 shared publication
- Hydrothermal synthesis of valve metal Ta-doped titanate nanofibers for potentially engineering bone tissue
Similar Researchers
Based on overlapping research topics
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University of Arkansas at Fayetteville
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Micah Maulding
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