Joe Forth
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Explore the profile of Joe Forth including associated specialties, affiliations and a list of published articles.
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25
Citations
230
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Recent Articles
1.
Acosta-Gutierrez S, Matias D, Avila-Olias M, Gouveia V, Scarpa E, Forth J, et al.
ACS Cent Sci
. 2024 Jul;
10(7):1423.
PMID: 39071054
[This corrects the article DOI: 10.1021/acscentsci.2c00146.].
2.
Almadhi S, Forth J, Rodriguez-Arco L, Duro-Castano A, Williams I, Ruiz-Perez L, et al.
Macromol Biosci
. 2023 Jun;
23(8):e2300068.
PMID: 37315231
A bottom-up approach to fabricating monodisperse, two-component polymersomes that possess phase-separated ("patchy") chemical topology is presented. This approach is compared with already-existing top-down preparation methods for patchy polymer vesicles, such...
3.
Acosta-Gutierrez S, Matias D, Avila-Olias M, Gouveia V, Scarpa E, Forth J, et al.
ACS Cent Sci
. 2022 Aug;
8(7):891-904.
PMID: 35912343
Phenotypic targeting requires the ability of the drug delivery system to discriminate over cell populations expressing a particular receptor combination. Such selectivity control can be achieved using multiplexed-multivalent carriers often...
4.
Zhu S, Xie G, Cui H, Li Q, Forth J, Yuan S, et al.
ACS Nano
. 2022 Jul;
16(9):13761-13770.
PMID: 35904791
Soft robots, made from elastomers, easily bend and flex, but deformability constraints severely limit navigation through and within narrow, confined spaces. Using aqueous two-phase systems we print water-in-water constructs that,...
5.
Forth J, Mariano A, Chai Y, Toor A, Hasnain J, Jiang Y, et al.
Nano Lett
. 2021 Aug;
21(17):7116-7122.
PMID: 34448588
Fine control over the mechanical properties of thin sheets underpins transcytosis, cell shape, and morphogenesis. Applying these principles to artificial, liquid-based systems has led to reconfigurable materials for soft robotics,...
6.
Noble Jesus C, Evans R, Forth J, Estarellas C, Gervasio F, Battaglia G
ACS Macro Lett
. 2021 Aug;
10(8):984-989.
PMID: 34422455
We report the design, simulation, synthesis, and reversible self-assembly of nanofibrils using polyhistidine-based oligopeptides. The inclusion of aromatic amino acids in the histidine block produces distinct antiparallel β-strands that lead...
7.
Tian X, M Leite D, Scarpa E, Nyberg S, Fullstone G, Forth J, et al.
Sci Adv
. 2020 Nov;
6(48).
PMID: 33246953
The blood-brain barrier is made of polarized brain endothelial cells (BECs) phenotypically conditioned by the central nervous system (CNS). Although transport across BECs is of paramount importance for nutrient uptake...
8.
Duro-Castano A, Moreira Leite D, Forth J, Deng Y, Matias D, Noble Jesus C, et al.
Adv Drug Deliv Rev
. 2020 Oct;
160:52-77.
PMID: 33031897
The targeted delivery of therapeutic compounds to the brain is arguably the most significant open problem in drug delivery today. Nanoparticles (NPs) based on peptides and designed using the emerging...
9.
Zhu S, Forth J, Xie G, Chao Y, Tian J, Russell T, et al.
ACS Nano
. 2020 Jun;
14(9):11215-11224.
PMID: 32515582
Producing artificial multicellular structures to process multistep cascade reactions and mimic the fundamental aspects of living systems is an outstanding challenge. Highly biocompatible, artificial systems consisting of all-aqueous, compartmentalized multicellular...
10.
Xie G, Forth J, Zhu S, Helms B, Ashby P, Shum H, et al.
Proc Natl Acad Sci U S A
. 2020 Mar;
117(15):8360-8365.
PMID: 32220955
Natural and man-made robotic systems use the interfacial tension between two fluids to support dense objects on liquid surfaces. Here, we show that coacervate-encased droplets of an aqueous polymer solution...