關鍵字查詢 | 類別:研究報告 | | 關鍵字:電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為

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序號 學年期 教師動態
1 101/1 數學系 曾琇瑱 教授 研究報告 發佈 電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為 , [101-1] :電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為研究報告電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為Electrophoretic Behavior of Charge-Regulated Biocolloids in a Soft Charge-Regulated Nanopore曾琇瑱; 徐治平淡江大學數學學系電泳; 電雙層極化; 電滲透流; 電荷可調節型軟性粒子; 邊界效應; 軟性電荷可調節奈米孔道; electrophoresis; electroosmotic flow; double-layer polarization; charge-regulated soft particle; boundary effect; soft charge-regulated nanopore計畫編號:NSC101-2221-E032-046
 研究期間:201208~201307
 研究經費:450,000行政院國家科學委員會Theoretical investigation of electrophoresis of soft biocolloidal nanoparticles such as DNA and virus in a charged nanopore has a fundamental importance for the future development of bio- and nanotechnology. Previous studies focused mainly on rigid pore surface with constant surface potential or surface charge density. Here, it is extended to more realistic cases where the rigid surface is of charge-regulated nature or covered by an ion-penetrable, charge-regulated membrane layer. In particular, the effects of multiple ionic species, double-layer pola
2 99/1 數學系 曾琇瑱 教授 研究報告 發佈 微奈米電泳前瞻技術及生醫工程與光電材料工程之應用-子計畫三:電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為 , [99-1] :微奈米電泳前瞻技術及生醫工程與光電材料工程之應用-子計畫三:電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為研究報告微奈米電泳前瞻技術及生醫工程與光電材料工程之應用-子計畫三:電荷可調節型生物膠體粒子在軟性電荷可調節奈米孔道中之電泳行為Electrophoretic Behavior of Charge-Regulated Biocolloids in a Soft Charge-Regulated Nanopore曾琇瑱淡江大學數學學系電泳; 電雙層極化; 電荷可調節型軟性粒子; 邊界效應; 軟性電荷可調節奈米孔道計畫編號:NSC100-2221-E032-026
 研究期間:20110801~20120731
 研究經費:520,000行政院國家科學委員會Theoretical investigation of electrophoresis of soft biocolloidal nanoparticles such as DNA and virus in a charged nanopore has a fundamental importance for the future development of bio- and nanotechnology. Previous studies focused mainly on rigid pore surface with constant surface potential or surface charge density. Here, it is extended to more realistic cases where the rigid surface is of charge-regulated nature or covered by an ion-penetrable, charge-regulated membrane layer. In particular, the effects of multiple ionic species, double-layer polarization and the electroosmotic flow arising from a charged nanopore on the electrophoretic b
[第一頁][上頁]1[次頁][最末頁]目前在第 1 頁 / 共有 02 筆查詢結果