共找到5條詞條名為羅開富的結果 展開
羅開富
中國科學技術大學
羅開富,男,四川省青神縣人。1995年7月畢業於武漢工業大學材料科學系複合材料專業,獲工學學士學位。2016年2月4日晚20:18分,因病醫治無效在安徽合肥逝世,享年45歲。
1998年7月畢業於成都科學技術大學高分子材料工程國家重點實驗室高分子材料專業,獲工學碩士學位,從事疏水締合水溶性聚合物的合成與溶液性能研究;2001年7月畢業於復旦大學高分子科學系高分子物理專業,獲理學博士學位,從事對稱破缺場作用下複雜流體中的圖樣生成-選擇-演化的研究。2001年12月至2003年12月在德國弗賴堡大學(University of Freiburg)大分子化學研究所做博士后;2004年6月至2008年7月在芬蘭赫爾辛基工業大學(Helsinki University of Technology)物理實驗室做博士后;2008年7月至2010年3月在德國慕尼黑工業大學(Technical University of Munich)物理系做博士后。2010年到中國科學技術大學高分子科學與工程系任教授、博士生導師。2010年入選中國科學院“引進海外傑出人才”(百人計劃),2011年獲百人計劃擇優支持,2012年獲國家傑出青年基金資助。
研究領域貫穿從高分子單鏈到高分子凝聚態的研究,前者密切聯繫單分子生物物理,後者主要涉及高分子材料的結構與性能關係。以通訊/第一作者在Phys. Rev. Lett., J. Am. Chem. Soc., Phys. Rev. E, J. Chem. Phys., EPL, Eur. Phys. J. E, Macromolecules, Soft Matter, Polymer等物理和化學學科SCI期刊上發表論文32篇,其中Phys. Rev. Lett.2篇,Phys. Rev. E7篇,J. Chem. Phys.10篇,Soft Matter3篇。研究工作受到國內外同行專家的認可和關注,以通訊/第一作者發表的論文被SCI期刊他引600餘次,多次在國際會議上做邀請報告,包括美國物理學會春季年會(APS March Meeting),歐洲原子和分子計算研究中心(CECAM)組織的專門會議等,為美國國家自然科學基金評審人。
2010年入選中國科學院“引進海外傑出人才”(百人計劃)
2011年獲百人計劃擇優支持
2012年獲國家傑出青年基金資助
講授:本科生課程《高分子物理》;研究生課程《高分子理論與模擬》。
發展和運用高分子物理的基礎理論,注重高分子科學與生命科學-物理-材料科學之間的交叉。強調通過理論來預言實驗結果或與已知實驗結果做對比來加深對實驗現象的理解,同時發展和應用多尺度的模擬方法來驗證理論和幫助發展理論。理論方法包括高分子的鏈構象統計理論,高分子科學中的標度理論,高分子統計物理等。模擬方法包括蒙特卡洛(MC),分子動力學(MD),布朗動力學(BD),朗之萬動力學(LD),耗散粒子動力學(DPD),多粒子碰撞動力學(MPD),格子波爾茲曼(LB)方法以及相場模型(Phase-field Model)方法。研究領域貫穿從高分子單鏈到高分子凝聚態的研究:
1.高分子體系在受限空間的鏈構象與非平衡動力學理論
2. 生物大分子單鏈的不同拓撲結構與性能以及其生物功能相關性
3. 理論單分子生物物理
4. 多相多組分高分子體系的相分離動力學與流變性能
5.三次採油中納微米球的驅油機理與分子結構設計
承擔項目
1.受限高分子鏈的動力學理論與模擬:中國科學技術大學“百人計劃”啟動項目(2010.02-2011.12),中國科學院“百人計劃”擇優支持項目(2011.01-2013.12)
2.環形高分子吸附於表面的動力學:教育部博士點基金項目(2011.01-2013.12)
3.基於複雜驅動機理的大分子穿越納米通道的動力學:國家自然科學基金面上項目(2011.01-2013.12)
4.分子擁擠環境下高分子體系的動力學:國家自然科學基金面上項目(2012.01-2015.12)
5.高分子體系的動力學理論與模擬:國家傑出青年基金項目(2013.01-2016.12)
近期代表性論文(通訊/第一作者)
32. Kehong Zhang andKaifu Luo*, ‘Dynamics of polymer translocation into an anisotropicconfinement’,Soft Matter9,2609 (2013)
31. Wancheng Yu, Yiding MaandKaifu Luo*,‘Translocation of stiff polymers through a nanopore driven by bindingparticles’,Journal of Chemical Physics137,244905 (2012)
30. Junfang Sheng andKaifu Luo*, ‘Chain conformation of ring polymers under a cylindrical nanochannelconfinement’,Physical Review E86 , 031803 (2012)
29. Kehong Zhang andKaifu Luo*,‘Dynamics of polymer translocation into a circular nanocontainer through a nanopore’,Journal of Chemical Physics136,185103(2012)(Selected for theMay 15, 2012 issue of Virtual Journal of Biological Physics Research, and theMay 28, 2011 issue of Virtual Journal of Nanoscale Science & Technology)
28. H. Yong, Yilin Wang, Shichen Yuan, Bi Xu,andKaifu Luo*,‘Driven polymer translocation through a cylindrical nanochannel: Interplay between the channel length and the chain length’,Soft Matter, 8,2769 (2012)
27. Junfang Sheng and Kaifu Luo*,‘Ejection dynamics of a ring polymer out of a nanochannel’,Soft Matter, 8, 367 (2012)(Selected for theDecember 15, 2011 issue of Virtual Journal of Biological Physics Research, and the December 19, 2011 issue of Virtual Journal of Nanoscale Science & Technology)
26. Wancheng Yu andKaifu Luo*,‘Chaperone - assisted translocation of a polymer through a nanopore’,Journal of the American Chemicial Society, 133, 13565 (2011)
25.Kaifu Luo* and Ralf Metzler,‘The chain sucker: Translocation dynamics of a polymer chain into a long narrow channel driven by longitudinal flow’Journal of Chemical Physics134, 135102 (2011) (Selected for the April 15, 2011 issue of Virtual Journal of Biological Physics Research.)
24.KaifuLuo* and R. Metzler, ‘Polymer translocation into a fluidic channel through ananopore’Physical Review E82, 021922 (2010) (Selected for the September 1, 2010 issue of Virtual Journal of Biological Physics Research)
23.KaifuLuo* and R. Metzler, ‘Polymer translocation into laterally unbounded confined environments’Journal of Chemical Physics133, 075101 (2010) (Selected for the September 1, 2010 issue of Virtual Journal of Biological Physics Research, and also for the September 13, 2010 issue of Virtual Journal ofNanoscaleScience & Technology)
22.KaifuLuo*, T. Ala-Nissila, and S. C. Ying and R. Metzler, ‘Driven polymer translocation throughnanopores: slow versus fast dynamics’EPL (EurophysicsLetters)88, 68006 (2009) (Selected for the January 15, 2010 issue of Virtual Journal ofNanoscaleScience & Technology)
21.KaifuLuo*, Ralf Metzler, T. Ala-Nissila, and S. C. Ying, ‘Polymer translocation out of confined environments’Physical Review E80, 021907 (2009) (Selected for the August 15, 2009 issue of Virtual Journal of Biological Physics Research, Volume 18, Issue 4)
20.KaifuLuo*, T. Ala-Nissila, S. C. Ying and A. Bhattacharya, ‘Translocation dynamics with attractivenanopore-polymer interactions’,Physical Review E79, 061918 (2008) (Selected for the January 1, 2009 issue of Virtual Journal of Biological Physics Research, and also for the January 12, 2009 issue of Virtual Journal ofNanoscaleScience & Technology)
19.KaifuLuo*, T. Ala-Nissila, S. C. Ying and A. Bhattacharya, ‘Dynamics of DNA translocation through ananopore’,Physical Review E78, 061911 (2008) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology December 22, 2008 Volume 18, Issue 25, and also for the December 15, 2008 issue of Virtual Journal of Biological Physics Research, Volume 16, Issue 12)
18.KaifuLuo, S.Ollila, I.Huopaniemi, T. Ala-Nissila, S. C. Ying, P.Pomorski, M.Karttunen, A. Bhattacharya, ‘Dynamical Scaling Exponents for Polymer Translocation through aNanopore’,Physical Review E78, 050901(R) (2008)(Selected for publication in Virtual Journal ofNanoscaleScience & Technology November 17, 2008 Volume 18, Issue 20, and also for the November 15, 2008 issue of Virtual Journal of Biological Physics Research, Volume 16, Issue 10)
17.KaifuLuo*, T. Ala-Nissila, S. C. Ying and A. Bhattacharya, ‘Sequence dependence of DNA translocation through ananopore’,Physical Review Letters100, 058101 (2008) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology February 18, 2008 Volume 17, Issue 7, and also for publication in Virtual Journal of Biological Physics Research February 15, 2008 Volume 15, Issue 4.)
16.LuoKaifu*, JiangXiuliand YangYuliang, ‘Solitonsand production of defects in director-aligning regime ofnematicliquid crystals under a simple shear flow and in a static external magnetic field’,Chinese Physics B17, 2600 (2008)
15.KaifuLuo*, T. Ala-Nissila, S. C. Ying and A. Bhattacharya, ‘Influence of polymer-pore interactions on translocation’,Physical Review Letters99, 148102 (2007) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology October 15, 2007 Volume 16, Issue 16, and also for publication in Virtual Journal of Biological Physics Research October 15, 2007 Volume 14, Issue 8.)
14.I.Huopaniemi,KaifuLuo*, T. Ala-Nissila, S. C. Ying, ‘Polymer translocation through ananoporeunder a pulling force’,Physical Review E75, 061912 (2007) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology-July 9, 2007 Volume 16, Issue 2, and also for publication in Virtual Journal of Biological Physics Research July 1, 2007 Volume 14, Issue 1.)
13.KaifuLuo*, T. Ala-Nissila, S. C. Ying and A. Bhattacharya, ‘Heteropolymertranslocation through ananopore’,Journal of Chemical Physics126, 145101 (2007) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology April 23, 2007 Volume 15, Issue 16, and also for publication in Virtual Journal of Biological Physics Research April 15, 2007 Volume 13, Issue 8. Also selected for the April 2007 issue of JCP:BioChemicalPhysics.)
12.I.Huopaniemi,KaifuLuo*, T. Ala-Nissila, S. C. Ying, ‘Langevindynamics simulations of polymer translocation throughnanopores’,Journal of Chemical Physics, 125, 124901 (2006)
11.KaifuLuo*, ‘The morphology and dynamics of polymerization-induced phase separation’,European Polymer Journal, 42, 1499 (2006)
10.KaifuLuo*, IHuopaniemi, T. Ala-Nissila, S. C. Ying, ‘Polymer translocation through ananoporeunder an electric field’,Journal of Chemical Physics, 124, 114704 (2006) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology March 27, 2006 Volume 13, Issue 12, and also for publication in Virtual Journal of Biological Physics Research March 15, 2006 Volume 11, Issue 6.)
9.KaifuLuo*, T. Ala-Nissila, S. C. Ying, ‘Polymer translocation through ananopore: a 2D Monte Carlo study’,Journal of Chemical Physics, 124, 034714 (2006) (Selected for publication in Virtual Journal ofNanoscaleScience & Technology January 30, 2006 Volume 13, Issue 4.)
8.KaifuLuo*, M.-P.Kuittu, C. Tong, S.Majaniemi, and T. Ala-Nissila*, ‘Phase field modeling of wetting on structured surface’,Journal of Chemical Physics, 123, 194702 (2005)
7.KaifuLuo*, W.Gronski*, C. Friedrich ‘Viscoelasticphase separation in polymer blends’,European Physical Journal E, 15, 177 (2004)
6.KaifuLuo*, W.Gronski, C. Friedrich ‘The morphology and dynamics of phase-separating polymer blends with viscosity asymmetry’,Macromolecular Theory and Simulations, 13, 365 (2004)
5.KaifuLuo*, Yuliang Yang, ‘Orientation phase transition in the hexagonal phase and rheological properties ofdiblockcopolymer under a simple shear flow’,Polymer, 45, 6745 (2004)
4.KaifuLuo*, Hongdong Zhang Yuliang Yang, ‘Chain stretching effect on the morphology of phase separation and rheological properties of polymer blends subjected to a simple shear flow’,Macromolecular Theory and Simulations, 13, 335 (2004)
3.KaifuLuo, Yuliang Yang*, ‘Lamellar orientation and rheological properties ofdiblockcopolymer subjected to simple shear flow’,Macromolecules, 35, 3722 (2002)
2.KaifuLuo, Yuliang Yang*, ‘The morphology and the corresponding rheological properties of phase separating polymer blends subjected to a simple shear’,Macromolecular Theory and Simulations, 11, 429 (2002)
1.KaifuLuo, Yuliang Yang*, ‘Chain stretching effect on the morphology and kinetics ofmicrophaseseparation ofdiblockcopolymer under simple shear flow’,Journal of Chemical Physics, 115, 2818 (2001)