Coated gas bubbles for the continuous synthesis of hollow inorganic particles.
暂无分享,去创建一个
[1] Shuichi Shoji,et al. Micro-bubble formation with organic membrane in a multiphase microfluidic system , 2008 .
[2] Seung‐Man Yang,et al. Single-Step Fabrication of Monodisperse TiO2 Hollow Spheres with Embedded Nanoparticles in Microfluidic Devices , 2009 .
[3] A. Gedanken,et al. Acoustic cavitation leading to the morphosynthesis of mesoporous silica vesicles , 2002 .
[4] Xiaoping Zhou,et al. Synthesis of Uniform-Size Hollow Silica Microspheres through Interfacial Polymerization in Monodisperse Water-in-Oil Droplets , 2010 .
[5] Ethan Tumarkin,et al. Small, stable, and monodispersed bubbles encapsulated with biopolymers. , 2009, Macromolecular rapid communications.
[6] Keng-hui Lin,et al. Fabricating scaffolds by microfluidics. , 2009, Biomicrofluidics.
[7] Y. Xiong,et al. Large-scale fabrication of TiO2 hierarchical hollow spheres. , 2006, Inorganic chemistry.
[8] S. Anna,et al. Microfluidic methods for generating continuous droplet streams , 2007 .
[9] O. Ozdemir,et al. A review of induction and attachment times of wetting thin films between air bubbles and particles and its relevance in the separation of particles by flotation. , 2010, Advances in colloid and interface science.
[10] A. Imhof,et al. Ordered macroporous materials by emulsion templating , 1997, Nature.
[11] William L Olbricht,et al. Rapid self-assembly of core-shell organosilicon microcapsules within a microfluidic device. , 2006, Journal of the American Chemical Society.
[12] S. Asher,et al. Synthesis and utilization of monodisperse hollow polymeric particles in photonic crystals. , 2004, Journal of the American Chemical Society.
[13] L. Archer,et al. Hollow Micro‐/Nanostructures: Synthesis and Applications , 2008 .
[14] D. Weitz,et al. Monodisperse Double Emulsions Generated from a Microcapillary Device , 2005, Science.
[15] N. Kimizuka,et al. Interfacial synthesis of hollow TiO2 microspheres in ionic liquids. , 2003, Journal of the American Chemical Society.
[16] Yadong Li,et al. ZnSe semiconductor hollow microspheres. , 2003, Angewandte Chemie.
[17] Xin Du,et al. Facile Preparation of F and N Codoped Pinecone-Like Titania Hollow Microparticles with Visible Light Photocatalytic Activity , 2009 .
[18] J. Aguilera,et al. Aerated food gels: fabrication and potential applications , 2008 .
[19] Liang-Yin Chu,et al. Microfluidic preparation of monodisperse ethyl cellulose hollow microcapsules with non-toxic solvent. , 2009, Journal of colloid and interface science.
[20] Howard A. Stone,et al. Microfluidic generation of a high volume fraction of bubbles in droplets , 2010 .
[21] H. Hou,et al. A “User‐Friendly” Chemical Approach Towards Paramagnetic Cobalt Phosphide Hollow Structures: Preparation, Characterization, and Formation Mechanism of Co2P Hollow Spheres and Tubes , 2005 .
[22] Howard A. Stone,et al. Controllable Microfluidic Production of Microbubbles in Water‐in‐Oil Emulsions and the Formation of Porous Microparticles , 2008 .
[23] M. Dhanaraju,et al. Floating controlled drug delivery system of famotidine loaded hollow microspheres (microballoons) in the stomach. , 2010, Current drug delivery.
[24] Ulrike Woggon,et al. Photons confined in hollow microspheres , 2001 .
[25] Jan C M van Hest,et al. Preparation of biodegradable liquid core PLLA microcapsules and hollow PLLA microcapsules using microfluidics. , 2010, Macromolecular bioscience.
[26] J. Lindner. Contrast ultrasound molecular imaging: harnessing the power of bubbles. , 2009, Cardiovascular research.
[27] H. Möhwald,et al. Gas-filled polyelectrolyte capsules. , 2005, Angewandte Chemie.
[28] Changzheng Wu,et al. Synthesis of New‐Phased VOOH Hollow “Dandelions” and Their Application in Lithium‐Ion Batteries , 2006 .
[29] George M. Whitesides,et al. An Axisymmetric Flow‐Focusing Microfluidic Device , 2005 .
[30] Ethan Tumarkin,et al. Microfluidic production of biopolymer microcapsules with controlled morphology. , 2006, Journal of the American Chemical Society.
[31] N. Xu,et al. Versatile preparation of monodisperse poly(furfuryl alcohol) and carbon hollow spheres in a simple microfluidic device. , 2010, Chemical communications.
[32] G. Whitesides,et al. Formation of droplets and bubbles in a microfluidic T-junction-scaling and mechanism of break-up. , 2006, Lab on a chip.