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Dihan Su et al.
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Enzymatically fabricated and degradable microcapsules for production of multicellular spheroids with well-defined diameters of less than 150 μm
Shinji Sakai et al.
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Biomedical applications of chemically-modified silk fibroin
Amanda R. Murphy et al.
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JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A (2008)
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Satoshi Yanagisawa et al.
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Studies on Indian silk. I. Macrocharacterization and analysis of amino acid composition
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