Erwin Peng scite author profile

Additive manufacturing (AM) of ceramic materials has attracted tremendous attention in recent years, due to its potential to fabricate suitable advanced ceramic structures for various engineering applications. Robocasting, a subset of ceramic AM, is an ideal technique for constructing fine and dense ceramic structures with geometrically complex morphology. With the freedom and convenience to deposit various materials within any 3D spatial position, ceramic robocasting opens up unlimited opportunities, which are otherwise hardly attainable from other AM techniques. Here, a summary of the recent progress on the fabrication of single and multi‐ceramic structures by robocasting is provided, as well as the prospects of achieving shapeable ceramic structures. The current challenges in ceramic robocasting and an outlook on its development, especially toward the fabrication of self‐shaping ceramic structures, are also discussed.

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Synthesis of Manganese Ferrite/Graphene Oxide Nanocomposites for Biomedical Applications

Peng

Choo

Chandrasekharan

et al. 2012

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In this study, MnFe(2)O(4) nanoparticle (MFNP)-decorated graphene oxide nanocomposites (MGONCs) are prepared through a simple mini-emulsion and solvent evaporation process. It is demonstrated that the loading of magnetic nanocrystals can be tuned by varying the ratio of graphene oxide/magnetic nanoparticles. On top of that, the hydrodynamic size range of the obtained nanocomposites can be optimized by varying the sonication time during the emulsion process. By fine-tuning the sonication time, MGONCs as small as 56.8 ± 1.1 nm, 55.0 ± 0.6 nm and 56.2 ± 0.4 nm loaded with 6 nm, 11 nm, and 14 nm MFNPs, respectively, are successfully fabricated. In order to improve the colloidal stability of MGONCs in physiological solutions (e.g., phosphate buffered saline or PBS solution), MGONCs are further conjugated with polyethylene glycol (PEG). Heating by exposing MGONCs samples to an alternating magnetic field (AMF) show that the obtained nanocomposites are efficient hyperthermia agents. At concentrations as low as 0.1 mg Fe mL(-1) and under an 59.99 kA m(-1) field, the highest specific absorption rate (SAR) recorded is 1588.83 W g(-1) for MGONCs loaded with 14 nm MFNPs. It is also demonstrated that MGONCs are promising as magnetic resonance imaging (MRI) T(2) contrast agents. A T(2) relaxivity value (r(2) ) as high as 256.2 (mM Fe)(-1) s(-1) could be achieved with MGONCs loaded with 14 nm MFNPs. The cytotoxicity results show that PEGylated MGONCs exhibit an excellent biocompatibility that is suitable for biomedical applications.

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Nanostructured magnetic nanocomposites as MRI contrast agents

2015

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Graphene oxide based fluorescent nanocomposites for cellular imaging

et al. 2013

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Size dependent magnetic hyperthermia of octahedral Fe₃O₄ nanoparticles

Yang

Fang

et al. 2015

RSC Adv.

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Erwin Peng

Ceramic Robocasting: Recent Achievements, Potential, and Future Developments

Synthesis of Manganese Ferrite/Graphene Oxide Nanocomposites for Biomedical Applications

Nanostructured magnetic nanocomposites as MRI contrast agents

Graphene oxide based fluorescent nanocomposites for cellular imaging

Size dependent magnetic hyperthermia of octahedral Fe₃O₄ nanoparticles

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Erwin Peng

Ceramic Robocasting: Recent Achievements, Potential, and Future Developments

Synthesis of Manganese Ferrite/Graphene Oxide Nanocomposites for Biomedical Applications

Nanostructured magnetic nanocomposites as MRI contrast agents

Graphene oxide based fluorescent nanocomposites for cellular imaging

Size dependent magnetic hyperthermia of octahedral Fe3O4 nanoparticles

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Product

Resources

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Size dependent magnetic hyperthermia of octahedral Fe₃O₄ nanoparticles