Robert C Chang
Stevens Institute of Technology
H-index: 25
North America-United States
Top articles of Robert C Chang
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Tribology of Pore-Textured Hard Surfaces under Physiological Conditions: Effects of Texture Scales | Langmuir | Yiwen Xi Chang-Hwan Choi Robert Chang Hans Jan Kaper Prashant Kumar Sharma | 2023/5/1 |
Advances in design and quality of melt electrowritten scaffolds | Materials & Design | Kai Cao Fucheng Zhang Ahmadreza Zaeri Yang Zhang Ralf Zgeib | 2023/2/1 |
Gradient Biomolecular Immobilization of 3D Structured Poly‐ɛ‐caprolactone Biomaterials toward Functional Engineered Tissue | Macromolecular Materials and Engineering | Ahmadreza Zaeri Ralf Zgeib Fucheng Zhang Kai Cao Robert C Chang | 2023/12 |
Design, fabrication, and characterization of tubular scaffolds by way of a melt electrowriting process | Additive Manufacturing | Fucheng Zhang Kai Cao Ahmadreza Zaeri Ralf Zgeib Christian Buckley | 2023/1/25 |
Development of a low-cost quad-extrusion 3D bioprinting system for multi-material tissue constructs | International Journal of Bioprinting | Ralf Zgeib Xiaofeng Wang Ahmadreza Zaeri Fucheng Zhang Kai Cao | 2023/8/29 |
A holistic model for melt electrowritten three-dimensional structured materials based on residual charge | International Journal of Bioprinting | Kai Cao Fucheng Zhang Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2023 |
Compressing time and space for an in situ dermal graft printing paradigm | Robert C Chang | 2023/7/1 | |
Development of an Open-Source Low-Cost Modular Quad-Extrusion 3D Bioprinter | Ralf Zgeib Xiaofeng Wang Ahmadreza Zaeri Fucheng Zhang Kai Cao | 2023/6/12 | |
3D bioprinting and nanotechnology in tissue engineering and regenerative medicine | Lijie Grace Zhang Kam Leong John P Fisher | 2022/2/18 | |
Effects of scaffold design parameters on the printing accuracy for melt electrowriting | Fucheng Zhang Kai Cao Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2022/9/1 | |
Design, fabrication, and analysis of spatially heterogeneous scaffold by melt electrospinning writing of poly (ε‐Caprolactone) | Journal of Applied Polymer Science | Fucheng Zhang Kai Cao Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2022 |
Effects of printing sequence on the printing accuracy of melt electrowriting scaffolds | Macromolecular Materials and Engineering | Fucheng Zhang Kai Cao Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2022/9 |
Quantitative Investigation into the Design and Process Parametric Effects on the Fiber‐entrapped Residual Charge for a Polymer Melt Electrohydrodynamic Printing Process | Macromolecular Materials and Engineering | Kai Cao Fucheng Zhang Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2022 |
Advancing a real-time image-based jet lag tracking methodology for optimizing print parameters and assessing melt electrowritten fiber quality | Additive Manufacturing | Kai Cao Fucheng Zhang Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2022/6/1 |
A review of the structural and physical properties that govern cell interactions with structured biomaterials enabled by additive manufacturing | Ahmadreza Zaeri Kai Cao Fucheng Zhang Ralf Zgeib Robert C Chang | 2022/6/1 | |
Numerical analysis on the effects of microfluidic-based bioprinting parameters on the microfiber geometrical outcomes | Scientific Reports | Ahmadreza Zaeri Ralf Zgeib Kai Cao Fucheng Zhang Robert C Chang | 2022/3/1 |
Analytical interpretation of microscale fiber deviation in designing for polymer melt electrohydrodynamic-based additive manufacturing | Additive Manufacturing | Kai Cao Fucheng Zhang Bijun Wang Yuning Sun Ahmadreza Zaeri | 2022/10/1 |
Integrated methods for precision manufacturing of tissue engineering scaffolds | 2021/12/23 | ||
A charge‐based mechanistic study into the effect of collector temperature on melt electrohydrodynamic printing outcomes | Advanced Materials Technologies | Kai Cao Fucheng Zhang Ahmadreza Zaeri Ralf Zgeib Robert C Chang | 2021/7 |
A charge-based mechanistic study into the effects of process parameters on fiber accumulating geometry for a melt electrohydrodynamic process | Processes | Kai Cao Fucheng Zhang Robert C Chang | 2020/11/11 |