Janus纳米杂化材料制备研究进展
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摘要
Janus纳米杂化材料是材料科学重要的研究方向之一。如何实现Janus纳米杂化材料批量制备及精确表征是目前研究的重点和难点。利用RefViz软件对Janus纳米材料的研究现状进行分析可知:Janus纳米材料研究中,有关表界面、纳米金及Janus纳米材料性能的研究是目前公认的研究热点。重点介绍了Janus纳米金杂化材料,并对其今后的发展也进行了探讨。
Janus hybrid nanomaterial is one of the important research directions in materials science.The realization,controllable batch preparation and accurate characterization of the nanomaterials are hotspot and difficult problem.RefViz software was used to analyze the research status of Janus.The results showed that the research on surface interface,gold nanoparticles and Janus nanomaterial properties should be considered as the focus in this research.Therefore,the Janus gold hybrid nanomaterial was introduced,and its future development was also discussed.
Janus hybrid nanomaterial is one of the important research directions in materials science.The realization,controllable batch preparation and accurate characterization of the nanomaterials are hotspot and difficult problem.RefViz software was used to analyze the research status of Janus.The results showed that the research on surface interface,gold nanoparticles and Janus nanomaterial properties should be considered as the focus in this research.Therefore,the Janus gold hybrid nanomaterial was introduced,and its future development was also discussed.
引文
[1]Walther A,Mueller A H E.Janus particles:synthesis,self-assembly,physical properties,and applications[J].Chemical Reviews,2013,113(7):5194-5261.
[2]Lattuada M,Hatton T A.Preparation and controlled self-assembly of janus magnetic nanoparticles[J].Journal of the American Chemical Society,2007,129(42):12878-12889.
[3]Alexeev A,Uspal W E,Balazs A C.Harnessing Janus nanoparticles to create controllable pores in membranes[J].Acs Nano,2008,2(6):1117-1122.
[4]Isojima T,Lattuada M,Vander Sande J B,er al.Reversible clustering of pH-and temperature-responsive Janus magnetic nanoparticles[J].Acs Nano,2008,2(9):1799-1806.
[5]Rasch M R,Rossinyol E,Hueso J L,et al.Hydrophobic gold nanoparticle self-assembly with phosphatidylcholine lipid:membrane-loaded and Janus vesicles[J].Nano Letters,2010,10(9):3733-3739.
[6]翟文中,何玉凤,王斌,等.聚合物Janus微粒材料的制备与应用[J].化学进展,2017,29(1):127-136.
[7]梁福鑫,刘冰,杨振忠.Janus复合材料[J].高分子通报,2016(9):45-51.
[8]双少敏,邢洋,周影.双面粒子的制备及应用研究新进展[J].山西大学学报(自然科学版),2017,40(3):577-589.
[9]Song L,Qiao Y,Liu Z,et al.One-step synthesis of Janus hybrid nanoparticles using reverse atom transfer radical polymerization in emulsion[J].Polymer Chemistry,2015,6:896-899.
[10]Wang Y,Zhang C,Tang C,et al.Emulsion interfacial synthesis of asymmetric Janus particles[J].Macromolecules,2011,44(10):3787-3794.
[11]Qiao Y,Du Y,Zhang X,et al.Preparation at the water-oil interface of Janus composite nanoparticles and their photoelectric properties[J].Journal of Applied Polymer Science,2017,134(33):45107.
[12]Li Y,Song L,Qiao Y.Spontaneous assembly and synchronous scan spectra of gold nanoparticles monolayers Janus film with thiol-terminated polystyrene[J].RSC Advances,2014,4(101):57611-57614.
[13]Song L,Du Y,Teng C,et al.Facile preparation and self-aggregate of amphiphilic block nanoparticles[J].Colloid and Polymer Science,2017,295:433-439.
[14]Song L,Qiao Y,Du Y,et al.Shape control synthesis of polymeric hybrid nanoparticles via surface-initiated atom-transfer radical polymerization[J].Journal of Applied Polymer Science,2016,133(26):43584.
[15]Choueiri R M,Galati E,Therien-Aubin H,et al.Surface patterning of nanoparticles with polymer patches[J].Nature,2016,538(7623):79-83.
[16]Du Y,Zhang X,Li Y.Solvents induce phase separation for fabrication of Janus hybrid nanoparticles:a dissipative particle dynamics simulation[J].Computational Materials Science,2018,141:221-228.
[2]Lattuada M,Hatton T A.Preparation and controlled self-assembly of janus magnetic nanoparticles[J].Journal of the American Chemical Society,2007,129(42):12878-12889.
[3]Alexeev A,Uspal W E,Balazs A C.Harnessing Janus nanoparticles to create controllable pores in membranes[J].Acs Nano,2008,2(6):1117-1122.
[4]Isojima T,Lattuada M,Vander Sande J B,er al.Reversible clustering of pH-and temperature-responsive Janus magnetic nanoparticles[J].Acs Nano,2008,2(9):1799-1806.
[5]Rasch M R,Rossinyol E,Hueso J L,et al.Hydrophobic gold nanoparticle self-assembly with phosphatidylcholine lipid:membrane-loaded and Janus vesicles[J].Nano Letters,2010,10(9):3733-3739.
[6]翟文中,何玉凤,王斌,等.聚合物Janus微粒材料的制备与应用[J].化学进展,2017,29(1):127-136.
[7]梁福鑫,刘冰,杨振忠.Janus复合材料[J].高分子通报,2016(9):45-51.
[8]双少敏,邢洋,周影.双面粒子的制备及应用研究新进展[J].山西大学学报(自然科学版),2017,40(3):577-589.
[9]Song L,Qiao Y,Liu Z,et al.One-step synthesis of Janus hybrid nanoparticles using reverse atom transfer radical polymerization in emulsion[J].Polymer Chemistry,2015,6:896-899.
[10]Wang Y,Zhang C,Tang C,et al.Emulsion interfacial synthesis of asymmetric Janus particles[J].Macromolecules,2011,44(10):3787-3794.
[11]Qiao Y,Du Y,Zhang X,et al.Preparation at the water-oil interface of Janus composite nanoparticles and their photoelectric properties[J].Journal of Applied Polymer Science,2017,134(33):45107.
[12]Li Y,Song L,Qiao Y.Spontaneous assembly and synchronous scan spectra of gold nanoparticles monolayers Janus film with thiol-terminated polystyrene[J].RSC Advances,2014,4(101):57611-57614.
[13]Song L,Du Y,Teng C,et al.Facile preparation and self-aggregate of amphiphilic block nanoparticles[J].Colloid and Polymer Science,2017,295:433-439.
[14]Song L,Qiao Y,Du Y,et al.Shape control synthesis of polymeric hybrid nanoparticles via surface-initiated atom-transfer radical polymerization[J].Journal of Applied Polymer Science,2016,133(26):43584.
[15]Choueiri R M,Galati E,Therien-Aubin H,et al.Surface patterning of nanoparticles with polymer patches[J].Nature,2016,538(7623):79-83.
[16]Du Y,Zhang X,Li Y.Solvents induce phase separation for fabrication of Janus hybrid nanoparticles:a dissipative particle dynamics simulation[J].Computational Materials Science,2018,141:221-228.