Optical-fiber-based powerful tools for living cell manipulation [Invited]

Xiaotong Zhang; Shitai Yang; Libo Yuan

doi:doi:10.3788/COL201917.090603

Chinese Optics Letters, 2019, 17 (9): 090603, Published Online: Aug. 19, 2019

Optical-fiber-based powerful tools for living cell manipulation [Invited] Download： 1115次

Xiaotong Zhang ¹Shitai Yang ¹Libo Yuan ^2,*

Author Affiliations

¹ Key Laboratory of In-Fiber Integrated Optics, Ministry of Education, College of Physics and Optical Engineering, Harbin Engineering University, Harbin 150001, China

² Photonics Research Center, School of Electric Engineering and Automation, Guilin University of Electronics Technology, Guilin 541004, China

Copy Citation Text

Xiaotong Zhang, Shitai Yang, Libo Yuan. Optical-fiber-based powerful tools for living cell manipulation [Invited][J]. Chinese Optics Letters, 2019, 17(9): 090603.

References

[1] AshkinA., Phys. Rev. Lett.24, 156 (1970).

[2] AshkinA.DziedzicJ. M., Appl. Phys. Lett.19, 283 (1971).

[3] AshkinA.DziedzicJ. M.BjorkholmJ. E.ChuS., Opt. Lett.11, 288 (1986).

[4] HuZ.WangJ.LiangJ., Opt. Express12, 4123 (2004).

[5] ZhangH.LiuK. K., J. R. Soc. Interface5, 671 (2008).

[6] LiX.LiuC.ChenS.WangY.ChengS. H.SunD., IEEE Trans. Robot.33, 1200 (2017).

[7] MishraY. N.IngleN.MohantyS. K., J. Biomed. Opt.16, 105003 (2011).

[8] PeřinaJ.JežekJ.PilátZ.ŠerýM.KaňkaJ.SamekO.BernatováS.ZemánekP.NozkaL.HrabovskýM.SenderákováD.UrbańczykW.HaderkaO., Proc. SPIE8697, 86970W (2012).

[9] SunZ.XuS.DaiG.LiY.LouL.LiuQ.ZhuR., J. Chem. Phys.119, 2399 (2003).

[10] LiT.KheifetsS.MedellinD.RaizenM. G., Science328, 1673 (2010).SCIEAS0036-8075

[11] HuangR.ChavezI.TauteK. M.LukićB.JeneyS.RaizenM. G.FlorinE.-L., Nat. Phys.7, 576 (2011).

[12] PearceK.WangF.ReeceP. J., Opt. Express19, 25559 (2011).OPEXFF1094-4087

[13] ReimannR.DodererM.HebestreitE.DiehlR.FrimmerM.WindeyD.TebbenjohannsF.NovotnyL., Phys. Rev. Lett.121, 033602 (2018).

[14] ZhangY.LiangP.LiuZ.LeiJ.YangJ.YuanL., J. Lightwave Technol.32, 1394 (2014).

[15] AshkinA.DziedzicJ. M.YamaneT., Nature330, 769 (1987).

[16] ZhongM. C.WeiX. B.ZhouJ. H.WangZ. Q.LiY. M., Nat. Commun.4, 1768 (2013).

[17] GrierD. G., Nature424, 810 (2003).

[18] FelgnerH.MullerO.SchliwaM., Appl. Opt.34, 977 (1995).

[19] NeumanK. C.BlockS. M., Rev. Sci. Instrum.75, 2787 (2004).

[20] LiuJ.LiZ., Micromachines (Basel)9, 232 (2018).

[21] WhiteD. A., J. Computat. Phys.159, 13 (2000).

[22] WhiteD. A., Comput. Phys. Commun.128, 558 (2000).

[23] WongV.RatnerM. A., J. Opt. Soc. Am. B23, 1801 (2006).

[24] SimpsonS. H.HannaS., Opt. Express19, 16526 (2011).

[25] GauthierR. C., Opt. Express13, 3707 (2005).

[26] SunW.PanS.JiangY., J. Modern Opt.53, 2691 (2006).

[27] BenitoD. C.SimpsonS. H.HannaS., Opt. Express16, 2942 (2008).

[28] NieminenT. A.Rubinsztein-DunlopH.HeckenbergN. R.BishopA. I., Comput. Phys. Commun.142, 468 (2001).

[29] NieminenT. A.LokeV. L. Y.StilgoeA. B.HeckenbergN. R.Rubinsztein-DunlopH. , J. Modern Opt.58, 528 (2011).JMOPEW0950-0340

[30] ZhangY.LiuZ.YangJ.YuanL., Proc. SPIE8351, 83512X (2012).

[31] MolloyJ. E.PadgettM. J., Contempor. Phys.43, 241 (2010).

[32] Jonás˘A.ZemánekP., Electrophoresis29, 4813 (2008).ELCTDN0173-0835

[33] PadgettM.BowmanR., Nat. Photon.5, 343 (2011).

[34] PacoretC.RégnierS., Rev. Sci. Instrum.84, 081301 (2013).

[35] SuH.HuH.ZhangL.GeX.ShenY., Proc. SPIE10154, 101540C (2016).

[36] TsuboiY., Nat. Nanotechnol.11, 5 (2015).

[37] LeeS. R.KimJ.LeeS.JungY.KimJ. K.OhK., Opt. Express18, 25299 (2010).

[38] BarronA. L.KarA. K.AsprayT. J.WaddieA. J.TaghizadehM. R.BookeyH. T., Opt. Express21, 13199 (2013).

[39] FrawleyM. C.GusachenkoI.TruongV. G.SergidesM.ChormaicS. N., Opt. Express22, 16322 (2014).

[40] Rodrigues RibeiroR. S.SopperaO.OlivaA. G.GuerreiroA.JorgeP. A. S., J. Lightwave Technol.33, 3394 (2015).

[41] ZhangY.LiuZ.YangJ.YuanL., Opt. Commun.285, 4068 (2012).

[42] YuanL.LiuZ.YangJ.GuanC., Opt. Express16, 4559 (2008).

[43] GongY.YeA.-Y.WuY.RaoY.-J.YaoY.XiaoS., Opt. Express21, 16181 (2013).

[44] CabriniS.LiberaleC.CojocD.CarpentieroA.PrascioluM.MoraS.DegiorgioV.De AngelisF.Di FabrizioE., Microelectron. Eng.83, 804 (2006).

[45] ZhangY.TangX.ZhangY.SuW.LiuZ.YangX.ZhangJ.YangJ.OhK.YuanL., Opt. Lett.43, 2784 (2018).

[46] LiuZ.WangL.ZhangY.LiuC.WuJ.ZhangY.YangX.ZhangJ.YangJ.YuanL., Opt. Commun.431, 196 (2019).

[47] TaguchiK.UenoH.HiramatsuT.IkedaM., Electron. Lett.33, 413 (1997).ELTNBK0013-4759

[48] LiuZ.GuoC.YangJ.YuanL., Opt. Express14, 12510 (2006).

[49] ZhangY.LiuZ.YangJ.YuanL., J. Lightwave Technol.30, 1487 (2012).

[50] LiberaleC.MinzioniP.BragheriF.De AngelisF.Di FabrizioE.CristianiI., Nat. Photon.1, 723 (2007).

[51] LiberaleC.CojocG.BragheriF.MinzioniP.PerozzielloG.La RoccaR.FerraraL.RajamanickamV.Di FabrizioE.CristianiI., Sci. Rep.3, 1347 (2013).

[52] YuanL.LiuZ.YangJ., Appl. Phys. Lett.91, 259 (2007).

[53] YuanL.LiuZ.YangJ.GuanC., Opt. Express16, 4559 (2008).

[54] LiuZ.WangL.LiangP.ZhangY.YangJ.YuanL., Opt. Lett.38, 2617 (2013).

[55] ZhangY.LiangP.LeiJ.WangL.LiuZ.YangJ.YuanL., J. Lightwave Technol.32, 1098 (2014).

[56] ChenS.HuangH.ZouH.LiQ.FuJ.LinF.WuX., J. Opt.16, 125302 (2014).

[57] LiuZ.ChenY.ZhaoL.ZhangY.WeiY.ZhuZ.YangJ.YuanL., Opt. Commun.381, 371 (2016).

[58] DengH.ZhangY.YuanT.ZhangX.ZhangY.LiuZ.YuanL., ACS Photon.4, 642 (2017).

[59] LiangP.-B.LeiJ.-J.LiuZ.-H.ZhangY.YuanL.-B., Chin. Phys. B23, 088702 (2014).

[60] ZhangY.TangX.ZhangY.LiuZ.ZhaoE.YangX.ZhangJ.YangJ.YuanL., J. Lightwave Technol.35, 3849 (2017).

[61] XinH.XuR.LiB., Laser Photon. Rev.7, 801 (2013).

[62] LiY.XinH.LiuX.LiB., Sci. Rep.5, 10925 (2015).

[63] PengF.YaoB.YanS.ZhaoW.LeiM., J. Opt. Soc. Am. B26, 2242 (2009).

[64] RuiG.WangY.WangX.GuB.CuiY., J. Phys. Commun.2, 065015 (2018).

Xiaotong Zhang, Shitai Yang, Libo Yuan. Optical-fiber-based powerful tools for living cell manipulation [Invited][J]. Chinese Optics Letters, 2019, 17(9): 090603.

Optical-fiber-based powerful tools for living cell manipulation [Invited] Download： 1115次

关于本站 Cookie 的使用提示

全站搜索

Optical-fiber-based powerful tools for living cell manipulation [Invited] Download： 1115次

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索