In situ self-assembly for cancer therapy and imaging
In situ self-assembly—the in situ formation of complex materials via biochemical reactions of
monomers—has enhanced the efficacy of drug delivery for cancer therapy and imaging. So …
monomers—has enhanced the efficacy of drug delivery for cancer therapy and imaging. So …
Mito‐bomb: targeting mitochondria for cancer therapy
X Guo, N Yang, W Ji, H Zhang, X Dong… - Advanced …, 2021 - Wiley Online Library
Cancer has been one of the most common life‐threatening diseases for a long time.
Traditional cancer therapies such as surgery, chemotherapy (CT), and radiotherapy (RT) …
Traditional cancer therapies such as surgery, chemotherapy (CT), and radiotherapy (RT) …
[HTML][HTML] Stimuli-responsive nanocarriers for drug delivery, tumor imaging, therapy and theranostics
P Mi - Theranostics, 2020 - ncbi.nlm.nih.gov
In recent years, much progress has been motivated in stimuli-responsive nanocarriers,
which could response to the intrinsic physicochemical and pathological factors in diseased …
which could response to the intrinsic physicochemical and pathological factors in diseased …
[HTML][HTML] Polymer bioconjugates: Modern design concepts toward precision hybrid materials
The conjugation of synthetic polymers with various biomolecules provides an easy access to
biohybrid materials which combine advantages from both the synthetic world and Nature …
biohybrid materials which combine advantages from both the synthetic world and Nature …
[HTML][HTML] Self-assembly of protein-polymer conjugates for drug delivery
Protein-polymer conjugates are a class of molecules that combine the stability of polymers
with the diversity, specificity, and functionality of biomolecules. These bioconjugates can …
with the diversity, specificity, and functionality of biomolecules. These bioconjugates can …
In situ self-assembled nanomedicines for cancer treatment
X Sun, X Yang, Y Chen, J Sun, Z He, S Zhang… - Chemical Engineering …, 2023 - Elsevier
Nanomedicines have emerged as a dependable modality for cancer theranostics. However,
the limited tumor penetration of conventional nanocarriers poses significant challenges in …
the limited tumor penetration of conventional nanocarriers poses significant challenges in …
Atom transfer radical polymerization for biorelated hybrid materials
Proteins, nucleic acids, lipid vesicles, and carbohydrates are the major classes of
biomacromolecules that function to sustain life. Biology also uses post-translation …
biomacromolecules that function to sustain life. Biology also uses post-translation …
Surface antimicrobial functionalization with polymers: Fabrication, mechanisms and applications
CG Wang, NEB Surat'man, JJQ Mah, C Qu… - Journal of Materials …, 2022 - pubs.rsc.org
Undesirable adhesion of microbes such as bacteria, fungi and viruses onto surfaces affects
many industries such as marine, food, textile, and healthcare. In particular in healthcare and …
many industries such as marine, food, textile, and healthcare. In particular in healthcare and …
Nanocarriers address intracellular barriers for efficient drug delivery, overcoming drug resistance, subcellular targeting and controlled release
J Liu, H Cabral, P Mi - Advanced Drug Delivery Reviews, 2024 - Elsevier
The cellular barriers are major bottlenecks for bioactive compounds entering into cells to
accomplish their biological functions, which limits their biomedical applications …
accomplish their biological functions, which limits their biomedical applications …
Polymerization‐Induced Self‐Assembly: An Emerging Tool for Generating Polymer‐Based Biohybrid Nanostructures
L Qiu, X Han, C Xing, U Glebe - Small, 2023 - Wiley Online Library
The combination of biomolecules and synthetic polymers provides an easy access to utilize
advantages from both the synthetic world and nature. This is not only important for the …
advantages from both the synthetic world and nature. This is not only important for the …