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1.
Synthesis and characterization of PDEAEMA‐based magneto‐nanogels: Preliminary results on the biocompatibility with cells of human peripheral blood
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Aintzane Pikabea Jose Ramos Nikos Papachristos Dimosthenis Stamopoulos Jacqueline Forcada 《Journal of polymer science. Part A, Polymer chemistry》2016,54(11):1479-1494
Nanogels based on biocompatible, dual pH‐ and temperature‐sensitive poly(2‐(diethylamino)ethyl) methacrylate (PDEAEMA) have been successfully used as nanocontainers for the encapsulation of magnetite, Fe3O4 magnetic nanoparticles (MNPs). For this purpose, citric acid‐coated MNPs were encapsulated into previously synthesized PDEAEMA‐based nanogels using a poly(ethyleneglycol)‐based stabilizer. After the encapsulation of the magnetite MNPs, the so‐called magneto‐nanogels (MNGs) were proved to be multiresponsive on temperature, pH, and magnetic field and colloidally stable. Moreover, preliminary studies on the biocompatibility of these MNGs with cells of human peripheral blood were performed and evidenced quite tolerable biocompatibility, thus suggesting potential use in biomedical applications. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 1479–1494 相似文献
2.
Jose I. Miranda Jose Ramos Jacqueline Forcada 《Journal of polymer science. Part A, Polymer chemistry》2015,53(17):2017-2025
A thorough understanding of the morphology of the environmental sensitive nanogels was indispensable to obtain a deeper insight on their stimuli‐responsive behavior. Therefore, in this work the colloidal characterization and the study of the inner morphology were related by using light scattering technique and 1H‐nuclear magnetic resonance transverse relaxation measurements combined with the Flory–Rehner theory. Different biocompatible and dual‐stimuli‐sensitive nanogel particles based on poly(2‐diethylaminoethyl) methacrylate were synthesized using three different crosslinkers: two bifunctional and one multifunctional. All the nanogels obtained had a core–shell type heterogeneous morphology, but they presented completely different swelling behaviors due to their different crosslinking points’ distribution and polymeric chains’ microstructure. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2015 , 53, 2017–2025 相似文献
3.
Adrián González Jose Ramos Pablo Taboada Jacqueline Forcada 《Journal of polymer science. Part A, Polymer chemistry》2016,54(12):1694-1705
Herein, the synthesis and potential application as cargo delivery systems of thermo‐responsive poly(N‐vinylcaprolactam) (PVCL)‐based, pH‐responsive poly(2‐(diethylamino)ethyl) methacrylate (PDEAEMA)‐based, and thermo‐, and pH‐responsive PDEAEMA/PVCL‐based core–shell nanogels are reported. All the nanogels have been synthesized using different dextran‐methacrylates (Dex‐MAs) as macro‐cross‐linkers. Doxorubicin hydrochloride (DOXO), an anticancer drug, has been effectively loaded into nanogels via hydrogen‐bonding interactions between ? OH groups of DOXO and ? OH groups of Dex‐MA chains. Drug‐release profiles at various pHs, and the cytocompatibility of the DOXO‐loaded nanogels have been assessed in vitro using cervical cancer HeLa and breast cancer MDA‐MB‐231 cell lines. In all the cases, the DOXO release is controlled by Fickian diffusion and case‐II transport, being the diffusional process dominant. In addition, DOXO‐loaded nanogels are efficiently internalized by HeLa and MDA‐MB‐231 cells and DOXO is progressively released in time. Therefore, nanogels synthesized could be suitable and potentially useful as nanocarriers for antitumor drug delivery. © 2016 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 1694–1705 相似文献
4.
Seyed Jamal Tabatabaei Rezaei Khadijeh Norouzi Ali Hesami Asemeh Mashhadi Malekzadeh Ali Ramazani Vahid Amani Roya Ahmadi 《应用有机金属化学》2018,32(4)
A novel pH‐responsive magnetic nanogels were developed with the aim of targeted delivering and simultaneously releasing of newly synthesized Au(III)‐based anticancer drug, Au(1,7‐Phen)Br3. The obtained nanogels were characterized by FT‐IR, DLS, EDAX, TEM, XRD, ICP‐Ms and MRI. The TEM images showed that the nanogels had a spherical shape with a mean diameter of 20 nm. The in vitro release studies of Au (III)‐loaded nanogels showed a pH‐triggered controlled release of drugs. The in vitro cytotoxicity assay of samples to human cervical cancer HeLa cell lines indicated that the Au(III)‐loaded magnetic nanogels exert higher cytotoxicity in comparison with free Au(III) complex. Fluorescent microscope images indicated that these magnetic nanogels possessed notable cell specific targeting in vitro in the presence of an external magnetic field. The results show that this superparamagnetic nanocarrier is a promising candidate for inhibiting growth of tumor cells. 相似文献
5.
Transferrin Decorated Thermoresponsive Nanogels as Magnetic Trap Devices for Circulating Tumor Cells
Mazdak Asadian‐Birjand Catalina Biglione Julian Bergueiro Ariel Cappelletti Chinmay Rahane Govind Chate Jayant Khandare Bastian Klemke Miriam C. Strumia Marcelo Caldern 《Macromolecular rapid communications》2016,37(5):439-445
A rational design of magnetic capturing nanodevices, based on a specific interaction with circulating tumor cells (CTCs), can advance the capturing efficiency and initiate the development of modern smart nanoformulations for rapid isolation and detection of these CTCs from the bloodstream. Therefore, the development and evaluation of magnetic nanogels (MNGs) based on magnetic nanoparticles and linear thermoresponsive polyglycerol for the capturing of CTCs with overexpressed transferrin (Tf+) receptors has been presented in this study. The MNGs are synthesized using a strain‐promoted “click” approach which has allowed the in situ surface decoration with Tf–polyethylene glycol (PEG) ligands of three different PEG chain lengths as targeting ligands. An optimal value of around 30% of cells captures is achieved with a linker of eight ethylene glycol units. This study shows the potential of MNGs for the capture of CTCs and the necessity of precise control over the linkage of the targeting moiety to the capturing device.
6.
Thermo‐ and pH‐induced self‐assembly of P(AA‐b‐NIPAAm‐b‐AA) triblock copolymers synthesized via RAFT polymerization
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Chih‐Yu Kuo Trong‐Ming Don Shih‐Chi Hsu Chia‐Fen Lee Wen‐Yen Chiu Chih‐Yuan Huang 《Journal of polymer science. Part A, Polymer chemistry》2016,54(8):1109-1118
A series of environmentally sensitive ABA triblock copolymers with different block lengths were prepared by reversible addition‐fragmentation chain transfer (RAFT) polymerization from acrylic acid (AA) and N‐isopropylacrylamide (NIPAAm). The GPC and 1H NMR analyses demonstrated the narrow molecular weight distribution and precise chemical structure of the prepared P(AA‐b‐NIPAAm‐b‐AA) triblock copolymers owing to the controlled/living characteristics of RAFT polymerization. The lower critical solution temperature (LCST) of the triblock copolymers could be tailored by adjusting the length of PAA block and controlled by the pH value. Under heating, the triblock copolymers underwent self‐assemble in dilute aqueous solution and formed nanoparticles revealed via TEM images. Physically crosslinked nanogels induced by inter‐/intra‐hydrogen bonding or core‐shell micelle particles thus could be obtained by changing environmental conditions. With a well‐defined structure and stimuli‐responsive properties, the P(AA‐b‐NIPAAm‐b‐AA) copolymer is expected to be employed as a nanocarrier for biomedical applications in controlled‐drug delivery and targeting therapy. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 1109–1118 相似文献
7.
A novel method for preparing poly (2‐acrylamido‐2‐methylpropane sulfonic acid) (PAMPS) and poly (vinylpyrrolidone) (PVP) complex nanogels in PVP aqueous solution is discussed in this paper. The PAMPS/PVP complex nanogels were prepared via polymerization of 2‐acrylamido‐2‐methylpropane sulfonic acid (AMPS) monomer in the presence of PVP nanoparticles which formed in water/acetone cosolvent in presence of N, N′‐methylenebisacrylamide (MBA) as a crosslinker, N, N, N′, N′‐tetramethylethylenediamine (TEMED) and potassium peroxydisulfate (KPS) as redox initiator system. The results of FTIR and 1H NMR spectra indicated that the compositions of PAMPS/PVP are consistent with the designed structure. TEM micrographs proved that PAMPS/PVP nanogels possess the spherical morphology before and after swelling. These PAMPS/PVP nanogels exhibited pH‐induced phase transition due to protonation of PAMPS chains. The properties of PAMPS/PVP nanogels indicate that PAMPS/PVP nanogels can be developed into a pH‐controlled drug delivery system. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
8.
Advanced design of t and pH dual‐responsive PDEAEMA–PVCL core–shell nanogels for siRNA delivery
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Garbiñe Aguirre Jose Ramos Jacqueline Forcada 《Journal of polymer science. Part A, Polymer chemistry》2016,54(19):3203-3217
The synthesis, characterization, and potential application as gene delivery systems of biodegradable dual‐responsive core–shell nanogels based on poly(2‐diethylaminoethyl) methacrylate (PDEAEMA) and poly(N‐vinylcaprolactam) (PVCL) are reported. These core–shell nanogels, having a PDEAEMA‐based core and a PVCL‐based shell, were synthesized by batch seeded emulsion polymerization. An indepth study of their swelling behavior was carried out, which presented a dual‐dependent thermo‐ and pH sensitivity. Core–shell nanogels synthesized formed complexes spontaneously through electrostatic interactions when mixing with small interfering RNA (siRNA) molecules. Moreover, the core–shell nanogel/siRNA complexes showed higher polyanion exchange resistance compared to that of the PDEAEMA‐based nanogel/siRNA complexes, indicating that the PVCL‐based shell enhanced the stability of the complexes. In vitro siRNA release profiles showed that siRNA release was controlled by the pH of the medium as well as by the crosslinking density of the PVCL‐based shell. These results indicate that dual‐responsive core–shell nanogels synthesized could be potentially useful as gene delivery systems. © 2016 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 3203–3217 相似文献
9.
In this study, we introduced photolabile 4‐(4‐(1‐hydroxyethyl)‐2‐methoxy‐5‐nitrophenoxy)butyric acid (HMNB) to prepare photoresponsive nanogels. Hyaluronate (HA) grafted with 4‐(4‐(1‐hydroxyethyl)‐2‐methoxy‐5‐nitrophenoxy)butyric acid (HA‐g‐HMNB) was self organized in aqueous solution. Interestingly, HA‐g‐HMNB nanogels exhibited caging and photo‐uncaging properties for an encapsulated antitumor drug. Photoactivation allowed accelerated antitumor drug release from uncaged nanogels. We found a significant improvement in KB tumor‐cell‐killing efficacy when this system was associated with local light irradiation. Copyright © 2013 John Wiley & Sons, Ltd. 相似文献
10.
Panayiotis Bilalis Spyridon Varlas Aikaterini Kiafa Athanassios Velentzas Dimitrios Stravopodis Hermis Iatrou 《Journal of polymer science. Part A, Polymer chemistry》2016,54(9):1278-1288
A series of novel multi‐responsive disulfide cross‐linked polypeptide nanogels has been synthesized by a one‐step ring‐opening polymerization process. The pH‐responsive core of the prepared nanogels was based on poly(L‐histidine), the difunctional N‐carboxy anhydride of l ‐cystine (l ‐Cys‐NCA) was used as a reduction‐cleavable cross‐linking agent, while the outer hydrophilic corona was comprised of a poly(ethylene oxide) block. Extensive molecular characterization studies were conducted in order to confirm the formation of the desired polymeric nanostructures and also to prove their responsiveness to external stimuli within the physiological values of healthy and cancer tissues. Furthermore, the disruption of the disulfide‐bond linkages between the polymeric chains was achieved by the presence of the reductive tripeptide glutathione (GSH), leading to size variations that were monitored by dynamic light scattering (DLS) and size‐exclusion chromatography (SEC). “Stealth” properties of the formed nanostructures were examined by zeta potential measurements. The described nanogels are clearly promising candidates for drug delivery applications. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 1278–1288 相似文献
11.
Lorenzo A. Picos‐Corrales Angel Licea‐Claveríe Karl‐Friedrich Arndt 《Journal of polymer science. Part A, Polymer chemistry》2012,50(20):4277-4287
A synthetic methodology is described for the preparation of core–shell nanogels by reversible addition‐fragmentation chain transfer. Well‐defined macro chain transfer agents (macro‐CTA's) were prepared in a first step using monomers that yield sensitive polymers. In the second step, a crosslinker alone or with the addition of a functionalized comonomer were used to form a crosslinked core. The ratio of crosslinker to macro‐CTA is crucial to yield nanogels. Furthermore, the polymerization time has an impact in the architecture of the nanomaterial obtained: it evolves from a core‐crosslinked star to a core–shell nanogel. Controlling the molecular weight of the macro‐CTA and the type of comonomer in the core forming step, core–shell nanogels with hydrodynamic diameters from 22 to 168 nm and a core that represents from 35 to 77% of the size, were prepared containing functional groups in the core which could be used as catalytic scaffolds. © 2012 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012. 相似文献
12.
Yong Zuo Na Guo Zhenqian Jiao Pengfei Song Xiaojun Liu Rongmin Wang Yubing Xiong 《Journal of polymer science. Part A, Polymer chemistry》2016,54(1):169-178
In this study, a facile strategy for the preparation of thermo‐ and pH‐responsive nanogels through reversible addition–fragmentation transfer (RAFT) crosslinking copolymerization of ionic liquid‐based monomers is demonstrated. The use of chain transfer agents (CTAs) containing carboxyl group in the RAFT polymerizations is the key to producing highly thermoresponsive nanogels. Experimental results demonstrate that the critical gelation temperature of the as‐prepared nanogels can be tuned by adjusting the feed ratio of monomer and CTA. Variable temperature Fourier transform infrared measurements and control experiments indicate that hydrogen‐bonding interactions between the carboxyl groups of CTAs are responsible for the thermoresponsive behaviors of poly(ionic liquid) (PIL)‐based nanogels. Furthermore, PIL‐based nanogels are also found to be pH‐sensitive, and can be further decorated by poly(N‐isopropylacrylamide) (PNIPAAm) via surface grafting polymerization. PNIPAAm‐grafted nanogel aqueous solutions can be reversibly transformed into macrogels upon a change in temperature. © 2015 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2016 , 54, 169–178 相似文献
13.
Jilei Wang Bing Wu Shang Li Yaning He 《Journal of polymer science. Part A, Polymer chemistry》2017,55(15):2450-2457
Using atom transfer radical polymerization (ATRP) and macromolecular azo coupling reaction, both o‐nitrobenzyl (ONB) group and azobenzene group were efficiently incorporated into the center of the amphiphilic diblock copolymer chain. The prepared diblock copolymer was well characterized by UV–vis, 1H NMR, and GPC methods. Self‐assembly of the amphiphilic copolymer in selected solvents can result in uniform self‐assembly aggregates. In the presence of external stimuli [upconversion nanoparticles (UCNPs)/NIR light or enzyme], the amphiphilic diblock copolymer chain could be broken by the cleavage of ONB or azobenzene group, which would lead to the disruption of the self‐assembly aggregates. This photo‐ and enzyme‐triggered disruption process was proved by using transmission electron microscopy (TEM) and GPC method. Fluorescence emission spectra measurements indicated that the release of Nile red, a hydrophobic dye, encapsulated by the self‐assembly aggregates, could be successfully realized under the NIR light and enzyme stimuli. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017 , 55, 2450–2457 相似文献
14.
Weipeng Lv Shuoqi Liu Wenqian Feng Junjie Qi Guoliang Zhang Fengbao Zhang Xiaobin Fan 《Macromolecular rapid communications》2011,32(14):1101-1107
Poly(N‐isopropylacrylamide) (PNIPAAm) grafted dextran nanogels with dodecyl and thiol end groups have been synthesized by RAFT process. Dodecyl‐terminated polymers (DexPNI) can be readily dissolved in water and further self assemble into ordered stable nanostructures through direct noncovalent interactions at room temperature. SEM, AFM and DLS measurements confirm the formation of spherical nanogels at hundred‐nanometer scales. The elevation of environment temperature will indirectly result in the formation of collapsed nanostructures due to the LCST phase transition of PNIPAAm side chains. Turbidimetry results show that the phase transition behaviors of DexPNI are greatly dependent on PNIPAAm chain length and polymer concentration: increasing PNIPAAm chain length and polymer concentration both lead to lower LCSTs and sharper phase transitions. Moreover, the dodecyl‐terminated polymers can transform into thiol‐terminated versions by aminolysis of trithiocarbonate groups, and further into chemical (disulfide) cross‐linked versions (SS‐DexPNI) by oxidation. SS‐DexPNI nanogels have “doubled” chain length of PNIPAAm, and hence sharper phase transitions. In situ DLS measurements of the evolution of hydrodynamic radius attest that the self assembly of SS‐DexPNI nanogels can be selectively directed by the change in either external temperature or redox potential. These nanogels thus are promising candidates for triggered intracellular delivery of encapsulated cargo. We can also expect that the polymer can be noncovalently (by dodecyl end groups) or covalently (by thiol end groups) coated on a series of nanomaterials (e.g., carbon nanotubes, graphene, gold nanomaterials) to build a variety of novel smart, and robust nanomaterials.
15.
Shihua Zhang Zixu Gu Ying Hao Mingzu Zhang Peihong Ni 《Journal of polymer science. Part A, Polymer chemistry》2011,49(18):4081-4091
In this work, we have synthesized a polycation and a polyanion via a combination of oxyanion‐initiated polymerization and polymer reaction, and then developed a novel approach to prepare a controlled magnetic target gene carrier with magnetic Fe3O4 nanoparticles as core and poly(ethylene glycol) (PEG) segment as corona via layer‐by‐layer (LbL) assembly and shell‐crosslinking. Magnetic nanoparticles (MNPs) were first modified by poly[2‐(dimethylamino)ethyl methacrylate] (PDMAEMA) via radical polymerization. The resulting MNPs were used to compact deoxyribonucleic acid (DNA) through LbL assembly, involving four steps: ( 1 ) the binding of DNA to the polycation PDMAEMA on the surface of MNPs; ( 2 ) the produced particles in Step 1 with negative charge interacting with additional polycation ethoxy group end‐capped PDMAEMA (EtO‐PDMAEMA) homopolymer, leading to a positive charge surface; ( 3 ) using carboxyl group (‐COO‐) of poly(methacrylic acid) (PMAA) in a diblock copolymer (MePEG2000‐b‐PMAASH) as polyanion, which has partial mercapto groups (‐SH) in PMAA segment, to interact with the particles produced in Step 2; ( 4 ) the shell of the composite nanoparticle was crosslinked by oxidizing the ‐SH groups of the MePEG2000‐b‐PMAASH to form disulfide linkage (S? S). All the processes of LbL assembly were investigated by agarose gel retardation assay and zeta potential measurements. The in vitro cytotoxicity analysis proves that polyions/DNA MNPs have excellent properties and potential applications as gene carriers. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2011 相似文献
16.
One-pot synthesis of magnetic nanogels via photochemical method is reported in this paper. Poly(2-hydroxyethyl methacrylate)(PHEMA)
magnetic nanogels are synthesized by in-situ polymerization of 2-hydroxyethyl methacrylate (HEMA) and N,N′-methylene-bis-(acrylamide)(MBA) in Fe3O4 aqueous suspension under UV irradiation. The structure and compositions of magnetic nanogels are characterized by FTIR, TGA,
SEM, TEM and PCS. TGA measurement indicates that magnetic nanogels contain 90% magnetite. Both naked Fe3O4 and magnetic nanogels are superparamagnatic at room temperature according to magnetization curves. The swollen capability
of the hydrogel shell is proved by contrasting the particles sizes obtained by SEM, TEM and PCS. Particle diameters can be
manipulated by changing monomer concentration and irradiation time. A mechanism of the coating process is proposed.
Supported by the Shanghai Municipal Commission for Special Project of Nanometer Science and Technology (Grant No. 0452nm068) 相似文献
17.
Simone F. Medeiros Amilton M. Santos Hatem Fessi Abdelhamid Elaissari 《Journal of polymer science. Part A, Polymer chemistry》2010,48(18):3932-3941
The goal of this study was to develop a new route to prepare thermally responsive polymer nanogels. Poly(N‐vinylcaprolactam) nanogels were prepared via inverse miniemulsion polymerization (W/O) at 70 °C using n‐hexadecane as a nonpolar continuous phase, potassium persulfate as an initiator, and N,N′‐methylenebisacrylamide as a crosslinker. Sorbitan monooleate (Span 80) was used as surfactant and its influence on the polymerization kinetics and on the colloidal characteristics of the nanogels were principally investigated. It was observed that the addition of a strong “lipophobe” is required to stabilize the resulting miniemulsion. The nanogels were characterized in terms of morphology, size, zeta potential, and thermoproperties using transmission electron microscopy and dynamic light scattering. It was observed that all the nanogels obtained collapsed when the lower critical solution temperature (LCST) was raised. © 2010 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 48: 3932–3941, 2010 相似文献
18.
HanWen Sun LianYing Zhang XinJun Zhu ChunYan Kong CunLan Zhang SiDe Yao 《中国科学B辑(英文版)》2009,52(1):69-75
One-pot synthesis of magnetic nanogels with excellent biocompatibility via the photochemical method is reported in this paper.
Poly(PEGMA) modified superparamagnetic nanogels (poly(PEGMA) magnetic nanogels) were synthesized by in-situ polymerization using poly(ethylene glycol) methacrylate (PEGMA) as the monomer and N, N′-methylene-bis-(acrylamide) (MBA) as the cross-linking agent in magnetite aqueous suspension under UV irradiation. The surface
functional groups and components of magnetic nanogels were analyzed by Fourier transform infrared spectroscopy (FTIR) and
a thermogravimetric analyzer (TGA). The results indicated that the poly(PEGMA) magnetic nanogels were synthesized successfully
by coating poly(PEGMA) on the Fe3O4 nanoparticles under UV irradiation, and the Fe3O4 nanoparticles content in this nanogels was above 50 wt%. The morphology, size, zeta-potential and magnetic property were
also characterized. The magnetic nanogels had a nearly spherical shape and core-shell structure, the average size in aqueous
system measured by photon correlation spectroscopy (PCS) was 68.4 nm, which was much bigger than that in the dry state, the
nanogels behaved superparamagnetically with saturated magnetization of 58.6 emu/g, and the zeta-potential was −16.3–−17.3
mV at physiological pH (6.8–7.4) which could help to maintain stability in blood. The preliminary application as drug carrier
was made and the doxorubicin-loaded magnetic nanogels had an excellent property in slow-release. The experiment indicated
that the magnetic nanogel was an ideal candidate carrier in target drug delivery systems and other biomedical application.
Supported by the Natural Science Foundation of Shandong Province (Grant No. Q2006F01), Scientific and Technological Project
of Shandong Province (Grant No. 2007GG3WZ02066) and Scientific and Technological Project of Department of Education, Shandong
(Grant No. J07WC01) 相似文献
19.
Synthesis and one‐dimensional assembly of cylindrical polymer nanoparticles prepared from tricomponent bottlebrush copolymers
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Sebla Onbulak Javid Rzayev 《Journal of polymer science. Part A, Polymer chemistry》2017,55(23):3868-3874
Biological systems feature controlled assembly of well‐defined building blocks at different length scales. While major progress has been achieved in directing the assembly of synthetic molecular building blocks, controlled organization of nanostructured units into micro‐ and macroscale aggregates remains a challenge. Herein, we report the synthesis of well‐defined nanostructured building blocks, cylindrical polymeric nanoparticles with controlled dimensions and inner surface chemistry, and their dynamic anisotropic organization into one‐dimensional assemblies. Nanoparticle building blocks were produced by molecular templating of cylindrical bottlebrush copolymers featuring tricomponent side chains. The produced nanostructures were composed of a nonionic and bioinert polyethylene glycol (PEG) shell and stimuli‐responsive poly(methacrylic acid) (PMA) chains grafted on the interior. We show that pH‐dependent interactions between PMA chains exposed only at the nanoparticle ends lead to anisotropic end‐to‐end association of parent cylindrical nanostructures into elongated superstructures. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017 , 55, 3868–3874 相似文献
20.
Nicky Chan Nathan Yee So Young An Jung Kwon Oh 《Journal of polymer science. Part A, Polymer chemistry》2014,52(14):2057-2067
New poly(ethylene oxide)‐based block copolymers (ssBCs) with a random copolymer block consisting of a reduction‐responsive disulfide‐labeled methacrylate (HMssEt) and a thermoresponsive di(ethylene glycol)‐containing methacrylate (MEO2MA) units were synthesized. The ratio of HMssEt/MEO2MA units in the random P(MEO2MA‐co‐HMssEt) copolymer block enables the characteristics of well‐defined ssBCs to be amphiphilic or thermoresponsive and double hydrophilic. Their amphiphilicity or temperature‐induced self‐assembly results in nanoaggregates with hydrophobic cores having different densities of pendant disulfide linkages. The effect of disulfide crosslinking density on morphological variation of disulfide‐crosslinked nanogels is investigated. In response to reductive reactions, the partial cleavage of pendant disulfide linkages in the hydrophobic cores converts the physically associated aggregates to disulfide‐crosslinked nanogels. The occurrence of in‐situ disulfide crosslinks provides colloidal stability upon dilution. © 2014 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2014 , 52, 2057–2067 相似文献