香港城市大学物理系 代亮 课题组 招博士生。 研究方向为 计算与理论软物质物理,生物物理。 2019或者2020年9月入学.
城大研究生奖学金:
The Studentship rate for 2019/20 is HK$17,000 per month. The Studentship period is 4 years for full-time PhD students (irrespective of their entry qualifications).
此外,优秀者可申请香港研究生奖学金 Hong Kong PhD Fellowship Scheme
Each fellowship recipient will receive:
• A yearly stipend of HK$301,200 (approximately US$38,610)
• A conference and research related travel allowance of HK$12,600 (approximately US$1,610) per year
• An additional entrance scholarship of HK$77,496 (approximately US$9,930) covering tuition and on-campus hostel accommodation fees for the first year of studies
前期论文:
1. Dai, L. and P.S. Doyle (2018) Universal Knot Spectra for Confined Polymers. Macromolecules, 51: 6327.
2. Dai, L., J.J. Jones, A.R. Klotz, S. Levy, and P.S. Doyle (2017) Nanoconfinement greatly speeds up the nucleation and the annealing in single-DNA collapse. Soft matter, 13: 6363.
3. Dai, L. and P.S. Doyle (2017) Trapping a Knot into Tight Conformations by Intra-Chain Repulsions. Polymers, 9: 57.
4. Dai, L., C.B. Renner, and P.S. Doyle (2016) The polymer physics of single DNA confined in nanochannels. Adv. Colloid Interface Sci., 232: 80.
5. Dai, L. and P.S. Doyle (2016) Effects of intrachain interactions on the knot size of a polymer. Macromolecules, 49: 7581.
6. Dai, L., C.B. Renner, J. Yan, and P.S. Doyle (2015) Coil-globule transition of a single semiflexible chain in slitlike confinement. Sci. Rep., 5: 18438.
7. Dai, L., C.B. Renner, and P.S. Doyle (2015) Metastable knots in confined semiflexible chains. Macromolecules, 48: 2812.
8. Dai, L., C.B. Renner, and P.S. Doyle (2015) Origin of Metastable Knots in Single Flexible Chains. Phys. Rev. Lett. , 114: 037801.
9. Cong, P., L. Dai, H. Chen, J.R. van der Maarel, P.S. Doyle, and J. Yan (2015) Revisiting the anomalous bending elasticity of sharply bent DNA. Biophys. J., 109: 2338.
10. Dai, L., J. van der Maarel, and P.S. Doyle (2014) Extended de gennes regime of dna confined in a nanochannel. Macromolecules, 47: 2445.
11. Dai, L., C.B. Renner, and P.S. Doyle (2014) Metastable tight knots in semiflexible chains. Macromolecules, 47: 6135.
12. Zhou, B.-R., H. Feng, H. Kato, L. Dai, Y. Yang, Y. Zhou, and Y. Bai (2013) Structural insights into the histone H1-nucleosome complex. Proc Natl Acad Sci U S A, 110: 19390.
13. Zhang, C., A. Hernandez-Garcia, K. Jiang, Z. Gong, D. Guttula, S.Y. Ng, P.P. Malar, J.A. van Kan, L. Dai, P.S. Doyle, R. de Vries, and J.R. Van Der Maarel (2013) Amplified stretch of bottlebrush-coated DNA in nanofluidic channels. Nucleic Acids Res., 41: e189.
14. Zhang, C., D. Guttula, F. Liu, P.P. Malar, S.Y. Ng, L. Dai, P.S. Doyle, J.A. van Kan, and J.R. Van Der Maarel (2013) Effect of H-NS on the elongation and compaction of single DNA molecules in a nanospace. Soft matter, 9: 9593.
15. Li, Z., Y. Yang, J. Zhan, L. Dai, and Y. Zhou (2013) Energy functions in de novo protein design: current challenges and future prospects. Annu. Rev. Biophys., 42: 315.
16. Dai, L., D.R. Tree, J.R. van der Maarel, K.D. Dorfman, and P.S. Doyle (2013) Revisiting blob theory for DNA diffusivity in slitlike confinement. Phys. Rev. Lett. , 110: 168105.
17. Dai, L. and P.S. Doyle (2013) Comparisons of a polymer in confinement versus applied force. Macromolecules, 46: 6336.
18. Dai, L., J.R. van der Maarel, and P.S. Doyle (2012) Effect of nanoslit confinement on the knotting probability of circular DNA. ACS Macro Lett., 1: 732.
19. Dai, L., S.Y. Ng, P.S. Doyle, and J.R. van der Maarel (2012) Conformation model of back-folding and looping of a single DNA molecule confined inside a nanochannel. ACS Macro Lett., 1: 1046.
20. Dai, L., J.J. Jones, J.R. van der Maarel, and P.S. Doyle (2012) A systematic study of DNA conformation in slitlike confinement. Soft Matter, 8: 2972.
21. Dai, L. and Y. Zhou (2011) Characterizing the existing and potential structural space of proteins by large-scale multiple loop permutations. J. Mol. Bio., 408: 585.
22. Dai, L., Y. Yang, H.R. Kim, and Y. Zhou (2010) Improving computational protein design by using structure‐derived sequence profile. Proteins, 78: 2338.
23. Dai, L., Y. Mu, L. Nordenskiöld, and J.R. van der Maarel (2008) Molecular dynamics simulation of multivalent-ion mediated attraction between DNA molecules. Phys. Rev. Lett. , 100: 118301.
24. Dai, L., Y. Mu, L. Nordenskiöld, A. Lapp, and J.R. van der Maarel (2007) Charge structure and counterion distribution in hexagonal DNA liquid crystal. Biophys. J., 92: 947.
25. Dai, L. and Q. Chen (2004) Comment on:“Quantum cooperative games”[Phys. Lett. A 293 (2002) 103]. Phys. Lett. A, 4: 414. |