30 results on '"Zhihong Nie"'
Search Results
2. Association of endothelial progenitor cells and peptic ulcer treatment in patients with type 2 diabetes mellitus.
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ZHIHONG NIE, LIMIN XU, CHUANYUAN LI, TAO TIAN, PINGPING XIE, XIA CHEN, and BOJING LI
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ULCER treatment , *PEPTIC ulcer , *PROGENITOR cells , *ENDOTHELIUM physiology , *PEOPLE with diabetes , *BLOOD testing - Abstract
The present study aimed to investigate the association between endothelial progenitor cells (EPCs) and peptic ulcers in patients with or without type 2 diabetes mellitus (T2DM), in association with the efficiency of peptic ulcer treatment. The study recruited healthy subjects and peptic ulcer patients with or without T2DM. All the ulcer patients, including those with and without T2DM, were administered omeprazole for 8 weeks. Peptic ulcer patients with T2DM were additionally treated with glipizide and novolin. Blood samples were then obtained from the three groups following ulcer treatment. CD133+ cells were isolated from the blood samples using magnetic bead selection, and cultured in complete medium 199. Morphological and quantity changes in EPCs were observed by light and fluorescence microscopy. In addition, flow cytometric analysis was used to quantify the number of vascular endothelial cells. The treatment was partially effective in 7 of the 32 peptic ulcer patients without T2DM and 12 of the 32 peptic ulcer patients with T2DM. However, this treatment was ineffective in 20 of the 32 peptic ulcer patients with T2DM. Notably, 25 peptic ulcer patients without T2DM were defined as completely recovered following treatment. In addition, the number of circulating EPCs as well as their colony forming ability was significantly reduced (P<0.05) in the peptic ulcer patients with T2DM following ulcer treatment, compared with the other groups. Circulating EPC counts were significantly increased in peptic ulcer patients without T2DM, as compared with the healthy controls. With regards to colony formation, peptic ulcer patients without T2DM did not exhibit improved colony formation ability. In conclusion, the number of circulating EPCs and their colony-forming ability was significantly reduced in peptic ulcer patients with T2DM following ulcer treatment when compared with the other groups. This suggests that the poor curative effect of peptic ulcer treatment in these patients is associated with impairment of EPCs. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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3. Temperature-controlled ‘breathing’ of carbon dioxide bubblesElectronic supplementary information (ESI) available. See DOI: 10.1039/c1lc20490d.
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Ethan Tumarkin, Zhihong Nie, Jai Il Park, Milad Abolhasani, Jesse Greener, Barbara Sherwood-Lollar, Axel Günther, and Eugenia Kumacheva
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CARBON dioxide , *BUBBLE dynamics , *TEMPERATURE effect , *RESPIRATION , *MICROFLUIDIC devices , *PARTICLE size distribution , *POLYETHYLENE glycol - Abstract
We report a microfluidic (MF) approach to studies of temperature mediated carbon dioxide (CO2) transfer between the gas and the liquid phases. Micrometre-diameter CO2bubbles with a narrow size distribution were generated in an aqueous or organic liquid and subsequently were subjected to temperature changes in the downstream channel. In response to the cooling-heating-cooling cycle the bubbles underwent corresponding contraction-expansion-contraction transitions, which we term ‘bubble breathing’. We examined temperature-controlled dissolution of CO2in four exemplary liquid systems: deionized water, a 0.7 M aqueous solution of NaCl, ocean water extracted from Bermuda coastal waters, and dimethyl ether of poly(ethylene glycol), a solvent used in industry for absorption of CO2. The MF approach can be extended to studies of other gases with a distinct, temperature-dependent solubility in liquids. [ABSTRACT FROM AUTHOR]
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- 2011
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4. Integration of paper-based microfluidic devices with commercial electrochemical readersElectronic supplementary information (ESI) available: fabrication of EµPADs, measurement of analytes in EµPADs using glucometers, assays, electrochemical behavior of EµPADs, and performance of two-layer EµPADs. See DOI: 10.1039/c0lc00237b
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Zhihong Nie, Frédérique Deiss, Xinyu Liu, Ozge Akbulut, and George M. Whitesides
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MICROFLUIDIC devices , *ELECTROCHEMISTRY , *MICROFABRICATION , *QUANTITATIVE research , *BLOOD cholesterol , *URINE - Abstract
The combination of simple Electrochemical Micro-Paper-based Analytical Devices (EµPADs) with commercially available glucometers allows rapid, quantitative electrochemical analysis of a number of compounds relevant to human health (e.g., glucose, cholesterol, lactate, and alcohol) in blood or urine. [ABSTRACT FROM AUTHOR]
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- 2010
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5. Integration of paper-based microfluidic devices with commercial electrochemical readersElectronic supplementary information (ESI) available: fabrication of EµPADs, measurement of analytes in EµPADs using glucometers, assays, electrochemical behavior of EµPADs, and performance of two-layer EµPADs. See DOI: 10.1039/c0lc00237b
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Zhihong Nie, Frédérique Deiss, Xinyu Liu, Ozge Akbulut, and George M. Whitesides
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MICROFLUIDIC devices , *ELECTROCHEMISTRY , *INFORMATION processing , *FIBERS , *GLUCOSE , *QUANTITATIVE research , *CHOLESTEROL , *LACTATES - Abstract
The combination of simple Electrochemical Micro-Paper-based Analytical Devices (EµPADs) with commercially available glucometers allows rapid, quantitative electrochemical analysis of a number of compounds relevant to human health (e.g., glucose, cholesterol, lactate, and alcohol) in blood or urine. [ABSTRACT FROM AUTHOR]
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- 2010
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6. Step-Growth Polymerization of Inorganic Nanoparticles.
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Kun Liu, Zhihong Nie, Nana Zhao, Wei Li, Rubinstein, Michael, and Kumacheva, Eugenia
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NANOPARTICLES , *NANOSTRUCTURED materials , *POLYCONDENSATION , *POLYMERIZATION research , *CHEMICAL kinetics , *PREDICTION models , *CHEMICAL bonds , *STATISTICS - Abstract
Self-organization of nanoparticles is an efficient strategy for producing nanostructures with complex, hierarchical architectures. The past decade has witnessed great progress in nanoparticle self-assembly, yet the quantitative prediction of the architecture of nanoparticle ensembles and of the kinetics of their formation remains a challenge. We report on the marked similarity between the self-assembly of metal nanoparticles and reaction-controlled step-growth polymerization. The nanoparticles act as multifunctional monomer units, which form reversible, noncovalent bonds at specific bond angles and organize themselves into a colloidal polymer. We show that the kinetics and statistics of step-growth polymerization enable a quantitative prediction of the architecture of linear, branched, and cyclic self-assembled nanostructures; their aggregation numbers and size distribution; and the formation of structural isomers. [ABSTRACT FROM AUTHOR]
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- 2010
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7. Electrochemical sensing in paper-based microfluidic devicesElectronic supplementary information (ESI) available: Geometry of the hydrodynamic µPED for the analysis of metals, estimation of diffusion coefficient, Cottrell plot for the analysis of glucose, chronoamperometric analysis of glucose in blood plasma and bovine blood, performance of gold electrodes on the paper-based devices. See DOI: 10.1039/b917150a
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Zhihong Nie, Christian A. Nijhuis, Jinlong Gong, Xin Chen, Alexander Kumachev, Andres W. Martinez, Max Narovlyansky, and George M. Whitesides
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ELECTROCHEMICAL sensors , *MICROFLUIDIC devices , *PAPER , *DIFFUSION , *HYDRODYNAMICS , *CEROGRAPHY , *PHOTOLITHOGRAPHY , *QUANTITATIVE chemical analysis - Abstract
This paper describes the fabrication and the performance of microfluidic paper-based electrochemical sensing devices (we call the microfluidic paper-based electrochemical devices, µPEDs). The µPEDs comprise paper-based microfluidic channels patterned by photolithography or wax printing, and electrodes screen-printed from conducting inks (e.g., carbon or Ag/AgCl). We demonstrated that the µPEDs are capable of quantifying the concentrations of various analytes (e.g., heavy-metal ions and glucose) in aqueous solutions. This low-cost analytical device should be useful for applications in public health, environmental monitoring, and the developing world. [ABSTRACT FROM AUTHOR]
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- 2010
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8. Properties and emerging applications of self-assembled structures made from inorganic nanoparticles.
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Zhihong Nie, Petukhova, Alla, and Kumacheva, Eugenia
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NANOPARTICLES , *INORGANIC chemistry , *PROPERTIES of matter , *NANOTECHNOLOGY , *NANOSCIENCE - Abstract
Just as nanoparticles display properties that differ from those of bulk samples of the same material, ensembles of nanoparticles can have collective properties that are different to those displayed by individual nanoparticles and bulk samples. Self-assembly has emerged as a powerful technique for controlling the structure and properties of ensembles of inorganic nanoparticles. Here we review different strategies for nanoparticle self-assembly, the properties of self-assembled structures of nanoparticles, and potential applications of such structures. Many of these properties and possible applications rely on our ability to control the interactions between the electronic, magnetic and optical properties of the individual nanoparticles. [ABSTRACT FROM AUTHOR]
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- 2010
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9. Patterning surfaces with functional polymers.
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Zhihong Nie and Kumacheva, Eugenia
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POLYMERS , *PHOTOLITHOGRAPHY , *INK-jet printing , *COPOLYMERS , *TISSUE engineering - Abstract
The ability to pattern functional polymers at different length scales is important for research fields including cell biology, tissue engineering and medicinal science and the development of optics and electronics. The interest and capabilities of polymer patterning have originated from the abundance of functionalities of polymers and a wide range of applications of the patterns. This paper reviews recent advances in top-down and bottom-up patterning of polymers using photolithography, printing techniques, self-assembly of block copolymers and instability-induced patterning. Finally, challenges and future directions are discussed from the point of view of both applicability and strategies for the surface patterning of polymers. [ABSTRACT FROM AUTHOR]
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- 2008
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10. "Supramolecular" Assembly of Gold Nanorods End-Terminated with Polymer "Pom-Poms": Effect of Pom-Pom Structure on the Association Modes.
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Zhihong Nie, Fava, Daniele, Rubinstein, Michael, and Kumacheva, Eugenia
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POLYMERS , *GOLD , *CHAINS , *MOLECULAR weights , *CRYOSCOPY , *PHYSICAL & theoretical chemistry - Abstract
We report a predefined self-organization of gold nanorods (NRs) end-terminated with multiple polymer arms ("pom-poms") in higher-order structures. The assembly of polymer-tethered NRs was controlled by changing the structure of the polymer pom-poms. We show that the variation in the molecular weight of the polymer molecules and their relative location with respect to the long side of the NRs resulted in two competing association modes of the nanorods, that is, their side-by-side and end-to-end assembly, and produced bundles, chains, rings, and bundled chains of the NRs. The superposition of the two variables controlling the organization of NRs allowed us to create a map showing the variation in the longitudinal plasmonic bands of the NAs achieved by their self-assembly. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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11. Self-assembly of metal–polymer analogues of amphiphilic triblock copolymers.
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Zhihong Nie, Fava, Daniele, Kumacheva, Eugenia, Shan Zou, Walker, Gilbert C., and Rubinstein, Michael
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MOLECULAR self-assembly , *POLYMERS , *BLOCK copolymers , *NANOPARTICLES , *ELECTRONIC equipment , *SURFACE chemistry - Abstract
Organized arrays of anisotropic nanoparticles show electronic and optical properties that originate from the coupling of shape-dependent properties of the individual nanorods. The organization of nanorods in a controllable and predictable way provides a route to the fabrication of new materials and functional devices. So far, significant progress has been achieved in the self-assembly of nanorod arrays, yet the realization of a range of different structures requires changing the surface chemistry of the nanoparticles. We organized metal nanorods in structures with varying geometries by using a striking analogy between amphiphilic ABA triblock copolymers and the hydrophilic nanorods tethered with hydrophobic polymer chains at both ends. The self-assembly was tuneable and reversible and it was achieved solely by changing the solvent quality for the constituent blocks. This approach provides a new route to the organization of anisotropic nanoparticles by using the strategies that are established for the self-assembly of block copolymers. [ABSTRACT FROM AUTHOR]
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- 2007
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12. Screening of the Effect of Surface Energy of Microchannels on Microfluidic Emulsification.
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Wei Li, Zhihong Nie, Hong Zhang, Chantal Paquet, Minseok Seo, Piotr Garstecki, and Eugenia Kumacheva
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SURFACE energy , *MICROFLUIDICS , *EMULSIONS , *EQUILIBRIUM - Abstract
We report the results of a systematic study of the effect of the surface energy of the walls of microchannels on emulsification in parallel flow-focusing microfluidic devices. We investigated the formation of water-in-oil (W/O) and oil-in-water (O/W) emulsions and found that the stability of microfluidic emulsification depends critically on the preferential wetting of the walls of the microfluidic device by the continuous phase. The condition for stable operation of the device is, however, different than that of complete wetting of the walls by the continuous phase at equilibrium. We found that W/O emulsions form when the advancing contact angle of water on the channel wall exceeds 92°. This result is unexpected because at equilibrium even for 92°) is thus more stringent than the equilibrium conditions. Conversely, we observed the stable formation of O/W emulsions for < 92°, that is, when the nonequilibrium transition to complete wetting by oil takes place. These results underlie the importance of pinning and the kinetic wetting effects in microfluidic emulsification. The results suggest that the use of parallel devices can facilitate fast screening of physicochemical conditions for emulsification. [ABSTRACT FROM AUTHOR]
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- 2007
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13. Janus and Ternary Particles Generated by Microfluidic Synthesis: Design, Synthesis, and Self-Assembly.
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Zhihong Nie, Wei Li, Minseok Seo, Shengqing Xu, and Eugenia Kumacheva
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MICROFLUIDICS , *TERNARY alloys , *PARTICLES , *MONOMERS , *POLYMERIZATION , *MOLECULAR self-assembly , *MICROCLUSTERS - Abstract
This paper reports a microfluidic method for fast continuous synthesis of Janus particles and three-phase particles with narrow size distribution. Synthesis of particles included emulsification of monomer liquids and in-situ photoinitiated polymerization of multiphase droplets. We show the strategy for precise control over the structure of Janus particles and their structure-dependent assembly in clusters. We demonstrate an asymmetric chemical modification of the surface of JP5 by conjugating them with protein molecules. The Janus and ternary particles were synthesized from largely immiscible liquids and had a sharp interface between the constituent phases. [ABSTRACT FROM AUTHOR]
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- 2006
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14. Nanoparticle Ensembles for Cancer Imaging and Therapy.
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Zhihong Nie
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NANOMEDICINE , *CANCER diagnosis , *CANCER treatment - Abstract
Both inorganic and organic (or polymeric) nanoparticles have been widely explored for therapeutic and diagnostic applications. Among others, inorganic nanoparticles are attractive for the treatment, diagnosis and detection of tumors, because of their unique features as compared with their organic and polymeric counterparts. For this purpose, single nanoparticles are often used and functionalized with organic or polymeric ligands to improve their stability, biocompatibility and functionality. While individual nanoparticles are no doubt exciting, ensemble of interacting nanoparticles can exhibit a rich variety of novel and extremely useful collective properties that can be radically different from their individuals. These new synergistic properties are originated from the coupling interactions between metallic, semiconductor or magnetic nanoparticles in the ensemble. For example, the organization of gold nanoparticles allows for tuning the absorption of nanoparticle ensembles in the near-infrared window which is highly desired for in vivo applications. The clustering of magnetic nanoparticles within micelles dramatically increases the magnetic resonance imaging contrast and responsiveness to external magnetic field. It is, therefore, expected that the ability to design assembled structures with tailored spatial arrangement of nanoparticles may facilitate the utilization of inorganic nanoparticles in biomedical applications. In this talk, I will present our efforts to develop new strategies for the selfassembly of polymerfunctionalized inorganic nanoparticles into hybrid nanostructures and to evaluate these materials for enhanced cancer imaging and treatment. Specifically, I will focus on the design and application of vesicular structures containing gold nanoparticles, magnetic nanoparticles or both for effective multimodality cancer imaging (i.e., photothermal, photoacoustic and magnetic resonance imaging) and combinational cancer therapy (i.e., photothermal ablation of tumor, photodynamic therapy and targeted delivery-based chemotherapy). [ABSTRACT FROM AUTHOR]
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- 2017
15. Giant soft-memory in liquid crystal nanocomposites.
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Kempaiah, Ravindra, Yijing Liu, Zhihong Nie, and Basu, Rajratan
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LIQUID crystals , *BLOCK copolymers , *NANOCOMPOSITE materials , *NANOPARTICLES , *DIELECTRIC hysteresis - Abstract
A hybrid nanocomposite comprising 5CB liquid crystal (LC) and block copolymer (BCP) functionalized barium titanate ferroelectric nanoparticles was prepared. This hybrid system exhibits a giant soft-memory effect that was detected by dielectric hysteresis. Spontaneous polarization of ferroelectric nanoparticles couples synergistically with the radially aligned BCP chains to create nanoscopic domains where LC mesogens can align directionally. Such domains can be rotated electromechanically and locked in space even after the removal of the applied electric field. The resulting non-volatile memory is several times larger than the non-functionalized sample and provides an insight into the role of non-covalent polymer functionalization on enhancing the size of the nanoscopic domains. [ABSTRACT FROM AUTHOR]
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- 2016
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16. Multiple Shape Transformations of Composite Hydrogel Sheets.
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Thérien-Aubin, Héloïse, Zi Liang Wu, Zhihong Nie, and Kumacheva, Eugenia
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HYDROGELS , *GELATION , *TISSUE engineering , *BIOSENSORS , *PHYSICAL & theoretical chemistry - Abstract
Soft materials undergoing shape transformations in response to changes in ambient environment have potential applications in tissue engineering, robotics and biosensing. Generally, stimulus-responsive materials acquire two stable shapes corresponding to the "on" and "off" states of the external trigger. Here, we report a simple, yet versatile approach to induce multiple shape transformations of a planar hydrogel sheet, each triggered by a particular, well-defined external stimulus. The approach is based on the integration of small-scale multiple polymer components with distinct compositions in the composite gel sheet. In response to different stimuli, the structural components undergo differential swelling or shrinkage, which creates internal stresses within the composite hydrogel sheet and transforms its shape in a specific manner. [ABSTRACT FROM AUTHOR]
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- 2013
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17. Programmable diagnostic devices made from paper and tape.
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Andres W. Martinez, Scott T. Phillips, Zhihong Nie, Chao-Min Cheng, Emanuel Carrilho, Benjamin J. Wiley, and George M. Whitesides
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MICROFLUIDIC devices , *ADHESIVE tape , *MICROFABRICATION , *BALL-point pens , *MATHEMATICAL programming , *THREE-dimensional imaging - Abstract
This paper describes three-dimensional microfluidic paper-based analytical devices (3-D µPADs) that can be programmed (postfabrication) by the user to generate multiple patterns of flow through them. These devices are programmed by pressing single-use ‘on’ buttons, using a stylus or a ballpoint pen. Pressing a button closes a small space (gap) between two vertically aligned microfluidic channels, and allows fluids to wick from one channel to the other. These devices are simple to fabricate, and are made entirely out of paper and double-sided adhesive tape. Programmable devices expand the capabilities of µPADs and provide a simple method for controlling the movement of fluids in paper-based channels. They are the conceptual equivalent of field-programmable gate arrays (FPGAs) widely used in electronics. [ABSTRACT FROM AUTHOR]
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- 2010
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18. Multi-Step Microfluidic Polymerization Reactions Conducted in Droplets: The Internal Trigger Approach.
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Wei Li, Pham, Hung H., Zhihong Nie, MacDonald, Brendan, Güenther, Axel, and Kumacheva, Eugenia
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MICROFLUIDICS , *POLYMERIZATION , *POLYCONDENSATION , *FREE radicals , *ACRYLATES - Abstract
We report the application of the "internal trigger" approach to multistep microfluidic polymerization reactions conducted in droplets, namely, polyaddition and polycondensation. We hypothesized and experimentally established that heat generated in an exothermic free radical polymerization of an acrylate monomer (Reaction 1) triggers the polycondensation of the urethane oligomer (Reaction 2). Completion of two microfluidic polymerization reactions led to the continuous synthesis of polymer particles with an interpenetrating polymer network (IPN) structure. Use of this microfluidic synthesis allowed us (i) to conduct efficient screening of the compositions of the monomer mixtures; (ii) to achieve control of the stoichiometric ratios of reactants in Reaction 2 by varying the flow rates of liquids; (iii) to reach control over the morphology of the resulting particles; and (iv) to produce polymer particles with a narrow size distribution and a predetermined size. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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19. Microfluidic Synthesis of Macroporous Copolymer Particles.
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Stanislav Dubinsky, Hong Zhang, Zhihong Nie, Ilya Gourevich, Dan Voicu, Martin Deetz, and Eugenia Kumacheva
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MICROFLUIDICS , *COPOLYMERS , *ION exchange (Chemistry) , *FLUID dynamics - Abstract
Macroporous copolymer particles have a broad range of applications such as ion exchange resins and sorbents, catalyst supports, and carriers of biologically active species. Many of these applications require precise control of the dimensions of microbeads in the range from 50 to 100 µm and predetermined size of pores. This paper reports semicontinuous photoinitiated microfluidic synthesis of macroporous polymer particles with the designated dimensions and a range of internal structures. Comparison with microspheres synthesized by conventional suspension polymerization shows that microfluidic synthesis provides better control over the porous structure of the microbeads. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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20. Phase behaviors of colloidal analogs of bent-core liquid crystals.
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Yang Yang, Hanwen Pei, Guangdong Chen, Webb, Kyle Thomas, Martinez-Miranda, Luz J., Lloyd, Isabel K., Zhongyuan Lu, Kun Liu, and Zhihong Nie
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LIQUID crystals , *PHASE transitions , *MICROSTRUCTURE , *MESOGENS , *MESOMORPHIC transitions - Abstract
The article presents a systematic study on the phase behaviors of colloidal analogs of bentcore liquid crystals (LC) mesogens, which found that several typical banana phases are formed by assembling bent rods with controlled bending angle (a) and aspect ratio (L/D, with L and D as the length and diameter of each rod arm, respectively. It refers to phase diagrams that illustrate the existence and stability range of all the LC phases in a and L/D space.
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- 2018
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21. Cooperative Assembly of Magneto-Nanovesicles with Tunable Wall Thickness and Permeability for MRI-Guided Drug Delivery.
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Kuikun Yang, Yijing Liu, Yi Liu, Qian Zhang, Chuncai Kong, Chenglin Yi, Zijian Zhou, Zhantong Wang, Guofeng Zhang, Yang Zhang, Khashab, Niveen M., Xiaoyuan Chen, and Zhihong Nie
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MAGNETIC nanoparticles , *NANOSTRUCTURED materials synthesis , *VESICLES (Cytology) , *SUPERPARAMAGNETIC materials , *IRON oxide nanoparticles , *THICKNESS measurement , *DRUG delivery systems , *MATHEMATICAL models , *STANDARDS - Abstract
This article describes the fabrication of nanosized magneto-vesicles (MVs) comprising tunable layers of densely packed superparamagnetic iron oxide nanoparticles (SPIONs) in membranes via cooperative assembly of polymertethered SPIONs and free poly(styrene)-b-poly(acrylic acid) (PS-b-PAA). The membrane thickness of MVs could be well controlled from 9.8 to 93.2 nm by varying the weight ratio of PS-b-PAA to SPIONs. The increase in membrane thickness was accompanied by the transition from monolayer MVs, to double-layered MVs and to multilayered MVs (MuMVs). This can be attributed to the variation in the hydrophobic/hydrophilic balance of polymer-grafted SPIONs upon the insertion and binding of PS-b-PAA onto the surface of nanoparticles. Therapeutic agents can be efficiently encapsulated in the hollow cavity of MVs and the release of payload can be tuned by varying the membrane thickness of nanovesicles. Due to the high packing density of SPIONs, the MuMVs showed the highest magnetization and transverse relaxivity rate (r[sub 2]) in magnetic resonance imaging (MRI) among these MVs and individual SPIONs. Upon intravenous injection, doxorubicin-loaded MuMVs conjugated with RGD peptides could be effectively enriched at tumor sites due to synergetic effect of magnetic and active targeting. As a result, they exhibited drastically enhanced signal in MRI, improved tumor delivery efficiency of drugs as well as enhanced antitumor efficacy, compared with groups with only magnetic or active targeting strategy. The unique nanoplatform may find applications in effective disease control by delivering imaging and therapy to organs/tissues that are not readily accessible by conventional delivery vehicles. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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22. Macroscopic Assembly of Gold Nanorods into Superstructures with Controllable Orientations by Anisotropic Affinity Interaction.
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Yun Rong, Liping Song, Peng Si, Lei Zhang, Xuefei Lu, Jiawei Zhang, Zhihong Nie, Youju Huang, and Tao Chen
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ANISOTROPIC crystals , *GOLD nanoparticles , *MOLECULAR self-assembly , *NANORODS , *CRYSTAL structure , *CRYSTAL orientation - Abstract
Two-dimensional or three-dimensional highly ordered arrays of anisotropic nanoparticles provide attracting properties that are highly desired by the industry. Traditional assembly methods such as evaporation usually produces the nanostructure arrays only up to the millimeter scale with poor control of nanoparticle orientation, making them hardly applicable for industrial needs. Here, we report a facile method to assemble centimeter-scale gold nanorod (Au NR) arrays with highly controlled nanoparticle orientation and high reproducibility. We selectively functionalized the transverse or longitudinal facets of Au NRs with polyethylene glycol (PEG) molecules and utilized the interfacial polymeric affinity between the PEG domains on Au NRs and the PEGylated substrate to achieve the anisotropic self-assembly. The side-PEGylated Au NRs formed closely packed horizontal arrays, whereas the end-PEGylated Au NRs formed vertically standing arrays on the substrate, respectively. The obtained Au NR arrays with different orientations showed anisotropic surface-enhanced Raman scattering (SERS) performance. We showed that the vertically ordered Au NR arrays exhibited 3 times higher SERS signals than the horizontally ordered arrays. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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23. Anisotropic Self-Assembly of Hairy Inorganic Nanoparticles.
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Chenglin Yi, Shaoyi Zhang, Webb, Kyle Thomas, and Zhihong Nie
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MOLECULAR self-assembly , *SURFACE coatings , *AQUEOUS solutions , *NANOPARTICLES , *METAMATERIALS , *MOLECULAR interactions - Abstract
Current interest in functional assemblies of inorganic nanoparticles (NPs) stems from their collective properties and diverse applications ranging from nanomedicines to optically active metamaterials. Coating the surface of NPs with polymers allows for tailoring of the interactions between NPs to assemble them into hybrid nanocomposites with targeted architectures. This class of building blocks is termed "hairy" inorganic NPs (HINPs). Regiospecific attachment of polymers has been used to achieve directional interactions for HINP assembly. However, to date anisotropic surface functionalization of NPs still remains a challenge. This Account provides a review of the recent progress in the self-assembly of isotropically functionalized HINPs in both the condensed state and aqueous solution as well as the applications of assembled structures in such areas as biomedical imaging and therapy. It aims to provide fundamental mechanistic insights into the correlation between structural characteristics and self-assembly behaviors of HINPs, with an emphasis on HINPs made from NPs grafted with linear block copolymer (BCP) brushes. The key to the anisotropic self-assembly of these HINPs is the generation of directional interactions between HINPs by designing the surrounding medium (e.g., polymer matrix) or engineering the surface chemistry of the HINPs. First, HINPs can self-assemble into a variety of 1D, 2D, or 3D nanostructures with a nonisotropic local arrangement of NPs in films. Although a template is not always required, a polymer matrix (BCPs or supramolecules) can be used to assist the assembly of HINPs to form hybrid architectures. The interactions between brushes of neighboring HINPs or between HINPs and the polymer matrix can be modulated by varying the grafting density and length of one or multiple types of polymers on the surface of the NPs. Second, the rational design of deformable brushes of BCP or mixed homopolymer tethers on HINPs enables the anisotropic assembly of HINPs (in analogy to molecular self-assembly) into complex functional structures in selective solvents. It is evidenced that the directional interactions between BCP-grafted NPs arise from the redistribution and conformation change of the long, flexible polymer tethers, while the lateral phase separation of brushes on NP surfaces is responsible for the assembly of HINPs carrying binary immiscible homopolymers. For HINPs decorated with amphiphilic BCP brushes, their self-assembly can produce a variety of hybrid structures, such as vesicles with a monolayer of densely packed NPs in the membranes and with controlled sizes, shapes (e.g., spherical, hemispherical, disklike), and morphologies (e.g., patchy, Janus-like). This strategy allows fine-tuning of the NP organization and collective properties of HINP assemblies, thus facilitating their application in effective cancer imaging, therapy, and drug delivery. We expect that the design and assembly of such HINPs with isotropic functionalization is likely to open up new avenues for the fabrication of new functional nanocomposites and devices because of its simplicity, low cost, and ease of scale-up. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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24. Synthesis of Platinum Nanotubes and Nanorings via Simultaneous Metal Alloying and Etching.
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Zhiqi Huang, Raciti, David, Shengnan Yu, Lei Zhang, Lin Deng, Jie He, Yijing Liu, Khashab, Niveeen M., Chao Wang, Jinlong Gong, and Zhihong Nie
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NANOSTRUCTURES , *OXYGEN reduction , *CATALYSIS , *CHEMICAL reactions , *ALLOYS - Abstract
Metallic nanotubes represent a class of hollow nanostructures with unique catalytic properties. However, the wet-chemical synthesis of metallic nanotubes remains a substantial challenge, especially for those with dimensions below 50 nm. This communication describes a simultaneous alloying-etching strategy for the synthesis of Pt nanotubes with open ends by selective etching Au core from coaxial Au/Pt nanorods. This approach can be extended for the preparation of Pt nanorings when Saturnlike Au core/Pt shell nanoparticles are used. The diameter and wall thickness of both nanotubes and nanorings can be readily controlled in the range of 14--37 nm and 2--32 nm, respectively. We further demonstrated that the nanotubes with ultrathin side walls showed superior catalytic performance in oxygen reduction reaction. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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25. Synthesis and Liquid-Crystal Behavior of Bent Colloidal Silica Rods.
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Yang Yang, Guangdong Chen, Martinez-Miranda, Luz J., Hua Yu, Kun Liu, and Zhihong Nie
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LIQUID crystals , *SILICA gel , *SILICA rods , *QUANTUM perturbations , *REACTION time - Abstract
The design and assembly of novel colloidal particles are of both academic and technological interest. We developed a wet-chemical route to synthesize monodisperse bent rigid silica rods by controlled perturbation of emulsion-templated growth. The bending angle of the rods can be tuned in a range of 0-50° by varying the strength of perturbation in the reaction temperature or pH in the course of rod growth. The length of each arm of the bent rods can be individually controlled by adjusting the reaction time. For the first time we demonstrated that the bent silica rods resemble banana-shaped liquid-crystal molecules and assemble into ordered structures with a typical smectic B2 phase. The bent silica rods could serve as a visualizable mesoscopic model for exploiting the phase behaviors of bent molecules which represent a typical class of liquid-crystal molecules. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
26. Entropy-Driven Pattern Formation of Hybrid Vesicular Assemblies Made from Molecular and Nanoparticle Amphiphiles.
- Author
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Yijing Liu, Yanchun Li, Jie He, Duelge, Kaleb John, Zhongyuan Lu, and Zhihong Nie
- Subjects
- *
AMPHIPHILES , *BLOCK copolymers , *MORPHOLOGY , *NANOSTRUCTURES , *PHASE separation - Abstract
Although an analogy has been drawn between them, organic molecular amphiphiles (MAMs) and inorganic nanoparticle (NP) amphiphiles (NPAMs) are significantly different in dimension, geometry, and composition as well as their assembly behavior. Their concurrent assembly can synergetically combine the inherent properties of both building blocks, thus leading to new hybrid materials with increasing complexity and functionality. Here we present a new strategy to fabricate hybrid vesicles with well-defined shape, morphology, and surface pattern by coassembling MAMs of block copolymers (BCPs) and NPAMs comprising inorganic NPs tethered with amphiphilic BCPs. The assembly of binary mixtures generated unique hybrid Janus-like vesicles with different shapes, patchy vesicles, and heterogeneous vesicles. Our experimental and computational studies indicate that the different nanostructures arise from the delicate interplay between the dimension mismatch of the two types of amphiphiles, the entanglement of polymer chains, and the mobility of NPAMs. In addition, the entropic attraction between NPAMs plays a dominant role in controlling the lateral phase separation of the two types of amphiphiles in the membranes. The ability to utilize multiple distinct amphiphiles to construct discrete assemblies represents a promising step in the self-assembly of structurally complex functional materials. [ABSTRACT FROM AUTHOR]
- Published
- 2014
- Full Text
- View/download PDF
27. Self-Assembly of Amphiphilic Plasmonic Micelle-Like Nanoparticles in Selective Solvents.
- Author
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Jie He, Xinglu Huang, Yan-Chun Li, Yijing Liu, Taarika Babu, Aronova, Maria A., Shouju Wang, Zhongyuan Lu, Xiaoyuan Chen, and Zhihong Nie
- Subjects
- *
MICELLES synthesis , *MOLECULAR self-assembly , *GOLD nanoparticles , *AMPHIPHILES , *BLOCK copolymers , *SOLVENTS , *PLASMONS (Physics) , *NANOMEDICINE - Abstract
Amphiphilic plasmonic micelle-like nanoparticles (APMNs) composed of gold nanoparticles (AuNPs) and amphiphilic block copolymers (BCPs) structurally resemble polymer micelles with well-defined architectures and chemistry. The APMNs can be potentially considered as a prototype for modeling a higher-level self-assembly of micelles. The understanding of such secondary self-assembly is of particular importance for the bottom-up design of new hierarchical nanostructures. This article describes the self-assembly, modeling, and applications of APMN assemblies in selective solvents. In a mixture of water/tetrahydrofuran, APMNs assembled into various superstructures, including unimolecular micelles, clusters with controlled number of APMNs, and vesicles, depending on the lengths of polymer tethers and the sizes of AuNP cores. The delicate interplay of entropy and enthalpy contributions to the overall free energy associated with the assembly process, which is strongly dependent on the spherical architecture of APMNs, yields an assembly diagram that is different from the assembly of linear BCPs. Our experimental and computational studies suggested that the morphologies of assemblies were largely determined by the deformability of the effective nanoparticles (that is, nanoparticles together with tethered chains as a whole). The assemblies of APMNs resulted in strong absorption in near-infrared range due to the remarkable plasmonic coupling of Au cores, thus facilitating their biomedical applications in bioimaging and photothermal therapy of cancer. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
- View/download PDF
28. Self-Assembly of Inorganic Nanoparticle Vesicles and Tubules Driven by Tethered Linear Block Copolymers.
- Author
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Jie He, Yijing Liu, Taarika Babu, Zengjiang Wei, and Zhihong Nie
- Subjects
- *
MOLECULAR self-assembly , *NANOPARTICLE synthesis , *AMPHIPHILES , *BLOCK copolymers , *CHEMICAL synthesis , *CHEMISTRY methodology - Abstract
Controllable self-assembly of nanoscale building blocks into larger specific structures provides an effective route for the fabrication of new materials with unique optical, electronic, and magnetic properties. The ability of nanoparticles (NPs) to self-assemble like molecules is opening new research frontiers in nanoscience and nanotechnology. We present a new class of amphiphilic "colloidal molecules" (ACMs) composed of inorganic NPs tethered with amphiphilic linear block copolymers (BCPs). Driven by the conformational changes of tethered BCP chains, such ACMs can self-assemble into well-defined vesicular and tubular nanostructures comprising a monolayer shell of hexagonally packed NPs in selective solvents. The morphologies and geometries of these assemblies can be controlled by the size of NPs and molecular weight of BCPs. Our approach also allows us to control the interparticle distance, thus fine-tuning the plasmonic properties of the assemblies of metal NPs. This strategy provides a general means to design new building blocks for assembling novel functional materials and devices. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
- View/download PDF
29. Close-Packed Superlattices of Side-by-Side Assembled Au-CdSe Nanorods.
- Author
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Nana Zhao, Kun Liu, Jesse Greener, Zhihong Nie, and Eugenia Kumacheva
- Subjects
- *
SUPERLATTICES , *CADMIUM selenide , *SUBSTRATES (Materials science) , *NANOSTRUCTURED materials , *SOLVENTS , *LIGANDS (Biochemistry) , *HYDROGEN bonding , *GOLD , *MOLECULAR self-assembly - Abstract
We report solution-based side-by-side self-assembly of Au-tipped CdSe nanorods (NRs) in large two-dimensional superlattices and the deposition of these lattices on a substrate with NRs aligned perpendicular to the surface. The side-by-side assembly of the NRs was triggered by changing the solvent quality for the ligands coating the long side of the nanorods. The stability of the self-assembled superlattices was enhanced due to the hydrogen bonding between the ligands attached to the Au tips of the nanorods. The reported approach can further facilitate the hierarchical integration of multicomponent NRs into functional devices. [ABSTRACT FROM AUTHOR]
- Published
- 2009
- Full Text
- View/download PDF
30. Microfluidic Production of Biopolymer Microcapsules with Controlled Morphology.
- Author
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Hong Zhang, Tumarkin, Ethan, Peerani, Raheem, Zhihong Nie, Sullan, Ruby May A., Walker, Gilbert C., and Kumacheva, Eugenia
- Subjects
- *
MICROFLUIDICS , *BIOPOLYMERS , *HYDROGELS , *POLYMERS , *SOLUTION (Chemistry) , *CHEMICAL reactions , *CHEMISTRY - Abstract
We report a microfluidic approach to generating capsules of biopolymer hydrogels. Droplets of an aqueous solution of a biopolymer were emulsified in an organic phase comprising a cross-linking agent. Polymer gelation was achieved in situ (on a microfluidic chip) by diffusion-controlled ionic cross-linking of the biopolymer, following the transfer of the cross-linking agent from the continuous phase to the droplets. Gelation was quenched by collecting particles in a large pool of cross-linking agent-free liquid. The structure of microgels (from capsules to gradient microgels to particles with a uniform structure) was controlled by varying the time of residence of droplets on the microfluidic chip and the concentration of the cross-linking agent in the continuous phase. We demonstrated the encapsulation of a controlled number of polystyrene beads in the microgel capsules. The described approach was applied to the preparation of capsules of several polysaccharides such as alginate, κ-carrageenan, and carboxymethylcellulose. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
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