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姚建铨院士团队在国际TOP期刊Nanoscale上发表最新研究成果

发布时间:2019-12-09  来源:   查看:

jinri,youmg游戏 tepinyuanshiyaojianquan、guangdiangongchengxueyuanlianglanjujiaoshougongtongzhidao,guangdiangongchengxueyuanyanxinboshihelianhepeiyangzhangzhangboshi、yangmaoshengboshizaitaihezishengwuchuanganqifangmiandeyanjiugongzuoqudezuixinjinzhan,xiangguanchengguofabiaozaiguojiqikan《nanoscale》(sciyiqu,topqikan,yingxiangyinzi6.97)shang,yanxinboshiyuzhangzhangboshiweigongtongdiyizuozhe,yangmaoshengboshiweitongxunzuozhe。

tuanduitichubingzhibeileyizhongjiyugaojiefanuogongzhenchaocailiaodeduomoshixiezhenshengwuchuanganqi。gaichuanganqitongguochaocailiaodesioujizi,baoujizi,shiliuoujizifanuogongzhendepinyiyijipinyidejichenghuatuxingtancefeiaixibaodenongdu。shiyanyanjiudedao,suizhexibaonongdudezengjia,fanuogongzhendepinyiδfyicijinglizengjiapinyi(ifss),jianshaopinyi(dfss)hezhongxinzengjiadepinyi(rifss)。tongguoyinruxindejiedianchangshuεf,xiuzhengleweiraolilunyijieshiδfzhongdeyichangxianxiang。yanjiujielunweitaihezishengwuchuanganqidezhibeitigongleyizhongxindetujing。

mg游戏大厅shangshuyanjiuchengguodedaoleguojiazhongdianyanfajihuaxiangmu(2017yfa0700202)、guojiazirankexuejijin(61701434, 61735010)、shandongshengzirankexuejijin(zr2017mf005,zr2018lf001 )、zaozhuangshizizhuchuangxinjichengguozhuanhuaxiangmujijin(2016gh19)、shandongshengyuanshizhuanjiagongzuozhan、shandongshengguangdianxinxichuliyuxianshizhongdianshiyanshi,jiaoyubuzhongdianshiyanshi(tianjindaxue)dezizhu。

截至目前,姚建铨院士指导mg游戏大厅 太赫兹科研团队2019年在太赫兹相关领域发表科研论文20篇,其中SCI论文12篇,中科院JCR一区文章3篇,二区文章3篇,ESI高被引论文1篇。


Figure. 1 (a) Schematic diagram of the unit cells for the high order FRMMs, the corresponding structural parameters are: p = 50 µm, w = 200nm, l = 20 µm, d = 40 µm, g = 8 µm, h =10µm. (b) Simulated transmittance spectra for the x-polarized (black curve) and the y-polarized (red curve) incidence wave. (c) Schematic diagram for the periodic structure. (d) Experimental transmittance spectra for the x-polarized (black dotted curve) and they-polarized (red dotted curve) incidence wave.

Figure. 2 Schematic representation of culturing cells method on higher order FRMMs-based biosensors with A549 cells binding to the metal surface and its equivalent dielectric environment transition mechanism.

Figure. 3 Micrographs of the higher order FRMMs-based biosensor with cell A549 at different concentration changing from 1×104 cel3ls/ml to 5×105cell/ml.

Figure. 4 The measured x-polarized transmittance spectrum of the proposed higher order FRMMs-based biosensors under different cell concentrations (1×104cells/ml, 3×104cells/ml, 5×104cells/ml, 1×105cells/ml, 3×105cells/ml, 5×105cells/ml). (h), (j), (i) The measured x-polarized frequency shift Δf of Qx, Ox and Hx extracted from (a),(b), (c), (d), (e), (f).

Figure. 5 The measured y-polarized transmittance spectrum of the designed higher order higher order FRMMs-based biosensors under different cell concentrations (1×104 cells/ml, 3×104 cells/ml, 5×104 cells/ml, 1×105 cells/ml, 3×105 cells/ml, 5×105 cells/ml) (h), (i) The measured x-polarized frequency shift Δf of Qy and Oy extracted from (a),(b), (c), (d), (e), (f).

Figure. 6 the shapes and distributions of graphics integrated with the Δf for each resonant mode under different cell concentration.


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