| 期刊/合计 | 独立通讯/8 | 最后共通讯/4 | 一作或靠前共通讯/8 |
| Physical Review Letters | 1 | ||
| Journal of Rheology | 1 | 1 | |
| Macromolecules | 1 | 3 | 4 |
| Giant | 2 | ||
| 高分子学报 | 1 | ||
| Polymer | 3 | 1 | 1 |
| 其他 | 1 |
Chunhua Li,
Yihui Zhu,
Zihe Wang,
Hang Li,
Ming Zhao,
Yifu Ruan,
20. Y. Ruan, Q. Zou, H. Zhang, Y. Zhang, H. Zhang, W. Wu, H. Liu, J. Yan, G. Liu*, The extreme of disentanglement: 100-fold viscosity reduction in model single-chain nanoparticles “单链交联纳米粒子揭示解缠结的极限可达100倍降黏”
Macromolecules, 57 (14), 6583-6592, (2024)
19. Q. Zou, Y. Ruan, R. Zhang*, G. Liu*, Tunable Slow Dynamics of Three-Dimensional Polymer Melts Through Architecture Engineering “三维形状高分子的结构调控慢动力学”
Macromolecules, 57 (2), 777-785, (2024)
18. X. Ouyang, J. Luo, T. Li, Y. Zhu, W. Yu, J. He, P. Zhang, G. Liu*, The second network of soft-nanoparticles in linear polymers of the same chemistry “同种高分子球链体系的第二网络”
Polymer, 283, 126216, (2023)
17. Y. Liu, X.Y. Yan, Q.Y. Guo, H. Lei, X.y. Liu, X.h. Li, Y. Wu, W. Zhang, G. Liu*, S. Z. D. Cheng*, Recent Progress on the Rheology of Giant Molecules “”
Macromolecular Chemistry and Physics, 224, 2200357, (2023)
16. G. Liu*, W. Wu, S. Yang, M. Zhu, Measuring viscoelasticity without sample amount prerequisite “黏弹性测量摆脱样品量限制”
Giant, 13, 100141, (2023)
15. W. Wu†, J. Luo†, X. Ouyang, W. He, K. Bao, H. Li, G. Liu*, 0416-1025
Micronewton shear rheometer performing SAOS using 2 mg of sample
仅需2毫克样品、微牛顿剪切流变仪实现小幅振荡剪切
Journal of Rheology, 67(1), 207-218, (2023)
美国物理联合会Scilight新闻报道 中文报道1 中文报道2 共享测试服务
14. J. Ma†, W. Wu†, Z. Ke, H. Li, J. Luo*, J. Yang*, G. Liu*, 0722-1004
Viscosity master curves and predictions of phenolic resin solutions through early aging
“酚醛树脂老化的黏度主曲线和早期老化预测”
Polymer, 261, 125405, (2022)
13. X. Ouyang, J. Luo, G. Liu*, 0517-0905
Effects of entanglement and dispersity on shear strain hardening
“缠结度和分散度对剪切硬化的影响”
Polymer, 258, 125306, (2022)
12. C. Gu†, Z. Du†, X. Ouyang, H. Xiang, M. Zhu, J. Luo*, G. Liu*, 0307-0725
Pinching dynamics of telechelic associating and coupling polymers
Macromolecules, 55 (16), 7059-7070, (2022)
11. Y. Zhu†, J. Luo†, Q. Zou†, X. Ouyang, Y. Ruan, Y. Liu, G. Liu*,
Glassy feature in melts of 3-dimensional architectured polymer blends
“三维形状高分子共混熔体中的类玻璃特征”
Polymer, 238, 124336, (2022)
10. J. Luo, Y. Zhu, Y. Ruan, W. Wu, X. Ouyang, Z. Du*, G. Liu*,
Diameter and elasticity governing the relaxation of soft-nanoparticles in bulk
Macromolecules, 54 (17), 8077-8087, (2021)
9. Q. Zou, Y. Zhu, Y. Ruan, R. Zhang, G. Liu*,
Coarse-grained Soft-Clusters Remain non-Diffusing in the Melt State
Giant, 8, 100070, (2021)
8. 罗锦添†, 欧阳希凯†, 刘庚鑫*, 巨型分子的黏弹性研究进展,
高分子学报, 51 (7), 687-697, (2020) 中文短评
7. Y. Liu†, G. Liu†,*, W. Zhang, C. Du, C. Wesdemiotis, S. Cheng*,
Cooperative Soft-Cluster Glass in Giant Molecular Clusters
Macromolecules, 52 (11), 4341-4348, (2019) 
2019MM.pdf
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6. G. Liu, X. Feng, K. Lang, R. Zhang, D. Guo, S. Yang, S. Cheng*,
Dynamics of shape-persistent giant molecules -
Zimm-like melt, elastic plateau, and cooperative glass-like
“保持三维形状的巨型分子的动力学,Zimm熔体,弹性平台,协同玻璃”
Macromolecules, 50 (17), 6637-6646, (2017)
5. G. Liu* and S.Q. Wang*,
Entangled linear polymer solutions at high shear:
from strain softening to hardening
“高速剪切时的线性缠结高分子溶液:应变软化到应变硬化”
Macromolecules, 49 (24), 9647-9654, (2016)
4. G. Liu, S. Cheng, H. Lee, H. Ma, H. Xu, T. Chang, R.P. Quirk and S.Q. Wang*,
Strain hardening in startup shear of long chain branched polymer solutions
“长支化高分子溶液在起始剪切时的应变硬化”
Physical Review Letters, 111 (8), 068302(4), (2013)
3. G. Liu*, H. Ma, H. Lee, H. Xu, S. Cheng, H. Sun, T. Chang, R.P. Quirk and S.Q. Wang*, Long chain branched polymers to prolong homogeneous stretching and to resist melt breakup
“延长均匀拉伸和抑制熔体断裂的长支化高分子”
Polymer, 54 (24), 6608-6616, (2013)
2. G. Liu, H. Sun, S. Rangou, K. Ntetsikas, A. Avgeropoulos and S.Q. Wang*,
Studying the origin of strain hardening: basic difference between extension and shear
“应变硬化的起因:拉伸与剪切的根本不同”
Journal of Rheology, 57 (1), 89-104, (2013) Most cited Articles in JoR 2013
1. G. Liu, and S.Q. Wang*, A particle tracking velocimetric study of stress relaxation behavior of entangled polystyrene solutions after stepwise shear
“使用粒子示踪技术研究缠结聚苯乙烯溶液在阶跃应变后的应力松弛行为”
Macromolecules, 45 (16), 6741-6747, (2012)
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