Abstract
A method of 3D printing complex or challenging structures by breaking them into parts with connectors, printing each part separately, and then assembling the structure post-printing has been developed. This has advantages such as multicoloured printing, framework optimization and reduction, print time reduction, and can be used to bypass print tray size limits. This method is particularly applicable to extended structures such as coordination polymers, metal-organic frameworks, and hydrogen bonding networks, but examples where it can be used to simplify the printing of small molecules are also shown.
Supplementary materials
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CuttingWithSolidworks NoRightAngles 720
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CuPz AuCN2
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CuPz Body
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NaCl Cl Core
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NaCl Cl End
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NaCl Na Core
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NaCl Na End
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Pc ring
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Pc THF
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RaF2 F
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RaF2 Joiner
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RaF2 Ra
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UsingSolidworksToAddConnectors
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ExportingFromHgAndUsingMagicsToCutAndRepair
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HowToOrientConnectors
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CuttingWithSolidworks NoRightAngles
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MeshLabTutorial
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HowToOrientConnectors 720p
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ExportingFromHgAndUsingMagicsToCutAndRepair 720p
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CuttingWithSolidworks NoRightAngles 720
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UsingSolidworksToAddConnectors 720p
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connectors chem
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LaTeX ChemRxiv
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ESI 3DFramework ChemRvix
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