Cameron D Morley

Overview

Explore the profile of Cameron D Morley including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 6

Citations 56

Followers 0

Related Specialties

Chemistry

Biochemistry

Biology

Top 10 Co-Authors

Christopher S OBryan

Thomas E Angelini

Sanjay Kumar

Christopher P Kabb

Ron Weiss

Brent S Sumerlin

Jesse Tordoff

Yifan Zhang

Rafael Gomez-Sjoberg

Erika A Ding

Published In

Soft Matter

Nat Commun

Adv Mater

Chem Sci

bioRxiv

Affiliations

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Recent Articles

MAGIC matrices: freeform bioprinting materials to support complex and reproducible organoid morphogenesis

Graham A, Khoo M, Srivastava V, Viragova S, Kim H, Parekh K, et al.

bioRxiv . 2024 Feb; PMID: 38370663

Organoids are powerful models of tissue physiology, yet their applications remain limited due to their relatively simple morphology and high organoid-to-organoid structural variability. To address these limitations we developed a...

A Balance between Inter- and Intra-Microgel Mechanics Governs Stem Cell Viability in Injectable Dynamic Granular Hydrogels

Morley C, Ding E, Carvalho E, Kumar S

Adv Mater . 2023 Sep; 35(44):e2304212. PMID: 37653580

Injectable hydrogels are increasingly explored for the delivery of cells to tissue. These materials exhibit both liquid-like properties, protecting cells from mechanical stress during injection, and solid-like properties, providing a...

Correction: 3D aggregation of cells in packed microgel media

Morley C, Tordoff J, OBryan C, Weiss R, Angelini T

Soft Matter . 2020 Jul; 16(28):6684. PMID: 32639490

Correction for '3D aggregation of cells in packed microgel media' by Cameron D. Morley et al., Soft Matter, 2020, DOI: 10.1039/d0sm00517g.

3D aggregation of cells in packed microgel media

Morley C, Tordoff J, OBryan C, Weiss R, Angelini T

Soft Matter . 2020 Jun; 16(28):6572-6581. PMID: 32589183

In both natural and applied contexts, investigating cell self-assembly and aggregation within controlled 3D environments leads to improved understanding of how structured cell assemblies emerge, what determines their shapes and...

Anthracene-based mechanophores for compression-activated fluorescence in polymeric networks

Kabb C, OBryan C, Morley C, Angelini T, Sumerlin B

Chem Sci . 2019 Oct; 10(33):7702-7708. PMID: 31588318

The recent attention given to functionalities that respond to mechanical force has led to a deeper understanding of force transduction and mechanical wear in polymeric materials. Furthermore, polymers have been...

Quantitative characterization of 3D bioprinted structural elements under cell generated forces

Morley C, Ellison S, Bhattacharjee T, OBryan C, Zhang Y, Smith K, et al.

Nat Commun . 2019 Jul; 10(1):3029. PMID: 31292444

With improving biofabrication technology, 3D bioprinted constructs increasingly resemble real tissues. However, the fundamental principles describing how cell-generated forces within these constructs drive deformations, mechanical instabilities, and structural failures have...