A material-sparing simplified buoyancy method for determining the true density of solids

Merrill Goldenberg; Gerrit Vreeman; David J. Sun; Mackenzie Moffit; May Li; Marina Zernik; Saivee Ahuja; Yumin Kim; Dillon Semin; Changquan Calvin Sun

doi:10.1016/j.ijpharm.2023.122694

A material-sparing simplified buoyancy method for determining the true density of solids

Merrill Goldenberg, Gerrit Vreeman, David J. Sun, Mackenzie Moffit, May Li, Marina Zernik, Saivee Ahuja, Yumin Kim, Dillon Semin, Changquan Calvin Sun

Pharmaceutics

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

True density is an important physical property of powdered materials, especially in the context of powder compaction. Currently available methods for true density determination either require a significant amount of materials or are laborious. Hence, a material-sparing and efficient method for true density determination is of value. In this work, we detail a simplified buoyancy-based method capable of fast determination of true density with accuracy comparable to helium pycnometry. This miniaturized method only uses a few milligrams of a powder with data collection process expedited by centrifugation in a laboratory centrifuge. This method can be easily adapted in a laboratory since determination of true density only requires a balance, a micropipette, a laboratory centrifuge, and standard stock liquids of low and high densities. Hence, it is a useful addition to the materials characterization tool kit critical for pharmaceutical formulation development.

Original language	English (US)
Article number	122694
Journal	International journal of pharmaceutics
Volume	635
DOIs	https://doi.org/10.1016/j.ijpharm.2023.122694
State	Published - Mar 25 2023

Bibliographical note

Funding Information:
Funding from the National Science Foundation through grant number IIP- 1919037 is gratefully acknowledged for partially supporting G.V. Assistance from Carter Supple for data collection is also appreciated.

Publisher Copyright:
© 2023 Elsevier B.V.

Keywords

Buoyancy
Crystal
Material-sparing
Polymer
True density

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title = "A material-sparing simplified buoyancy method for determining the true density of solids",

abstract = "True density is an important physical property of powdered materials, especially in the context of powder compaction. Currently available methods for true density determination either require a significant amount of materials or are laborious. Hence, a material-sparing and efficient method for true density determination is of value. In this work, we detail a simplified buoyancy-based method capable of fast determination of true density with accuracy comparable to helium pycnometry. This miniaturized method only uses a few milligrams of a powder with data collection process expedited by centrifugation in a laboratory centrifuge. This method can be easily adapted in a laboratory since determination of true density only requires a balance, a micropipette, a laboratory centrifuge, and standard stock liquids of low and high densities. Hence, it is a useful addition to the materials characterization tool kit critical for pharmaceutical formulation development.",

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author = "Merrill Goldenberg and Gerrit Vreeman and Sun, {David J.} and Mackenzie Moffit and May Li and Marina Zernik and Saivee Ahuja and Yumin Kim and Dillon Semin and Sun, {Changquan Calvin}",

note = "Funding Information: Funding from the National Science Foundation through grant number IIP- 1919037 is gratefully acknowledged for partially supporting G.V. Assistance from Carter Supple for data collection is also appreciated. Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",

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AU - Vreeman, Gerrit

AU - Sun, David J.

AU - Moffit, Mackenzie

AU - Li, May

AU - Zernik, Marina

AU - Ahuja, Saivee

AU - Kim, Yumin

AU - Semin, Dillon

AU - Sun, Changquan Calvin

N1 - Funding Information: Funding from the National Science Foundation through grant number IIP- 1919037 is gratefully acknowledged for partially supporting G.V. Assistance from Carter Supple for data collection is also appreciated. Publisher Copyright: © 2023 Elsevier B.V.

PY - 2023/3/25

Y1 - 2023/3/25

N2 - True density is an important physical property of powdered materials, especially in the context of powder compaction. Currently available methods for true density determination either require a significant amount of materials or are laborious. Hence, a material-sparing and efficient method for true density determination is of value. In this work, we detail a simplified buoyancy-based method capable of fast determination of true density with accuracy comparable to helium pycnometry. This miniaturized method only uses a few milligrams of a powder with data collection process expedited by centrifugation in a laboratory centrifuge. This method can be easily adapted in a laboratory since determination of true density only requires a balance, a micropipette, a laboratory centrifuge, and standard stock liquids of low and high densities. Hence, it is a useful addition to the materials characterization tool kit critical for pharmaceutical formulation development.

AB - True density is an important physical property of powdered materials, especially in the context of powder compaction. Currently available methods for true density determination either require a significant amount of materials or are laborious. Hence, a material-sparing and efficient method for true density determination is of value. In this work, we detail a simplified buoyancy-based method capable of fast determination of true density with accuracy comparable to helium pycnometry. This miniaturized method only uses a few milligrams of a powder with data collection process expedited by centrifugation in a laboratory centrifuge. This method can be easily adapted in a laboratory since determination of true density only requires a balance, a micropipette, a laboratory centrifuge, and standard stock liquids of low and high densities. Hence, it is a useful addition to the materials characterization tool kit critical for pharmaceutical formulation development.

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A material-sparing simplified buoyancy method for determining the true density of solids

Abstract

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Keywords

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