Anthony Griffin scite author profile

Self-healing is achieved with a dual-microcapsule system utilizing epoxy-amine chemistry in a high temperature cured thermosetting epoxy polymer. One capsule contains a modified aliphatic polyamine prepared by vacuum infiltration of polyoxypropylenetriamine into hollow polymeric microcapsules. The second capsule contains a difunctional epoxide and reactive diluent. Healing efficiency is accessed through recovery of fracture toughness and excellent long-term stability at ambient conditions is demonstrated.

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Fracture behavior of a self-healing, toughened epoxy adhesive

Jin

Miller

Pety

et al. 2013

International Journal of Adhesion and Adhesives

103

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Organelle-targeted therapies: a comprehensive review on system design for enabling precision oncology

Yang

Griffin

Qiang

et al. 2022

Sig Transduct Target Ther

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Cancer is a major threat to human health. Among various treatment methods, precision therapy has received significant attention since the inception, due to its ability to efficiently inhibit tumor growth, while curtailing common shortcomings from conventional cancer treatment, leading towards enhanced survival rates. Particularly, organelle-targeted strategies enable precise accumulation of therapeutic agents in organelles, locally triggering organelle-mediated cell death signals which can greatly reduce the therapeutic threshold dosage and minimize side-effects. In this review, we comprehensively discuss history and recent advances in targeted therapies on organelles, specifically including nucleus, mitochondria, lysosomes and endoplasmic reticulum, while focusing on organelle structures, organelle-mediated cell death signal pathways, and design guidelines of organelle-targeted nanomedicines based on intervention mechanisms. Furthermore, a perspective on future research and clinical opportunities and potential challenges in precision oncology is presented. Through demonstrating recent developments in organelle-targeted therapies, we believe this article can further stimulate broader interests in multidisciplinary research and technology development for enabling advanced organelle-targeted nanomedicines and their corresponding clinic translations.

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Direct synthesis of ordered mesoporous materials from thermoplastic elastomers

et al. 2023

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The ability to manufacture ordered mesoporous materials using low-cost precursors and scalable processes is essential for unlocking their enormous potential to enable advancement in nanotechnology. While templating-based methods play a central role in the development of mesoporous materials, several limitations exist in conventional system design, including cost, volatile solvent consumption, and attainable pore sizes from commercial templating agents. This work pioneers a new manufacturing platform for producing ordered mesoporous materials through direct pyrolysis of crosslinked thermoplastic elastomer-based block copolymers. Specifically, olefinic majority phases are selectively crosslinked through sulfonation reactions and subsequently converted to carbon, while the minority block can be decomposed to form ordered mesopores. We demonstrate that this process can be extended to different polymer precursors for synthesizing mesoporous polymer, carbon, and silica. Furthermore, the obtained carbons possess large mesopores, sulfur-doped carbon framework, with tailorable pore textures upon varying the precursor identities.

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Retention of mechanical performance of polymer matrix composites above the glass transition temperature by vascular cooling

Coppola

Griffin

Sottos

et al. 2015

Composites Part A: Applied Science and Manufacturing

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Anthony Griffin

Thermally Stable Autonomic Healing in Epoxy using a Dual‐Microcapsule System

Fracture behavior of a self-healing, toughened epoxy adhesive

Organelle-targeted therapies: a comprehensive review on system design for enabling precision oncology

Direct synthesis of ordered mesoporous materials from thermoplastic elastomers

Retention of mechanical performance of polymer matrix composites above the glass transition temperature by vascular cooling

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