哈尔滨工业大学2021年博士研究生导师信息：赫晓东

• 1980年09月－1984年07月： 吉林大学数学系 本科生

• 1986年09月－1992年10月： 哈尔滨工业大学复合材料研究所 硕士、博士生

代表性论文

1. Super-Stretchable Spring-Like Carbon Nanotube Ropes， Advanced Materials，24 2896–2900，2012（影响因子13.877，以背封面配图形式چ��"http://kaoyan.koolearn.com/zhuanshuo/mi/" target="_blank" class="link">miqXpgZPvvIk8L3A+PC9saT48bGkgc3R5bGU9"">

   Chemically and uniformly grafting carbon nanotubes onto carbon fibers by poly(amidoamine) for enhancing interfacial strength in carbon fiber composites. J. Mater. Chem. 2012; 22: 5928-5931.（影响因子5.98）

2. Direct measurement of grafting strength between an individual carbon nanotube and a carbon fiber， Carbon，50，3782-3788，2012（影响因子5.38，以封面配图形式报道）

3. Oxidation and ablation of 3D carbon-carbon composite at up to 3000 degree C. Carbon 33, 473-478 , 1995 （影响因子5.38）

4. Preparation of a carbon nanotube/carbon fiber multi-scale reinforcement by grafting multi-walled carbon nanotubes onto the fibers, Carbon, 45, 2559-2563, 2007 （影响因子5.38）

5. Superhard and tougher SiC/diamond-like-carbon composite films produced by electron beam physical vapour deposition, Acta Materialia, 57, 893-902 2009 （影响因子3.755）

6. Cyclic oxidation of Ti(3)AlC(2) at 1000-1300 degrees C in air, Corrosion Science, 53, 290-295, 2011（影响因子3.734）

7. Surface hardness enhancement in sp(3)-bonded carbon doped SiC nanocomposite films, Applied Physics Letter, 91 241914 (2007) (影响因子3.83)

8. Polymorphism of newly discovered Ti(4)GaC(3): A first-principles study, Acta Materialia, 59, 5523-5533, 2011 （影响因子3.755）

9. Multiferroic properties of sputtered BiFeO(3) thin films，Applied Physics Letters 92 (2008) 132908, (影响因子3.83)

10. Resolvable carbon nanotube yarn entanglement as strain sensors and rotational actuators, ACS Nano, 7 , 8128–8135, 2013 (影响因子12.04)

11. Highly Twisted Double-Helix Carbon Nanotube Yarns, ACS Nano 7, (2) 1446-1453, 2013 (影响因子12.04)

12. Graphene nanoribbon aerogels unzipped from carbon nanotube sponges，Advanced Materials, 2014，DOI: 10.1002/adma.201305274 (影响因子14.9)

13. Elastic carbon nanotube straight yarns embedded with helical loops, Nanoscale, 5, 2403，2013(影响因子：6.03)

14. Synthesis and characterization of a new hierarchical reinforcement by chemically grafting graphene oxide onto carbon fibers, Journal of Materials Chemistry, 22, 18748-18752 ,2012 （影响因子：6.1，封面报道)

15. The role of grafting force and surface wettability in interfacial enhancement of carbon nanotube/carbon fiber hierarchical composites, Carbon, 69, 239–246, 2014（影响因子5.86）

16. Interfacial enhancement of carbon fiber composites by poly(amido amine) functionalization, Composites Science and Technology, 74, 37-42, 2013（影响因子：3.43)

17. Tuning the interfacial property of hierarchical composites by changing the grafting density of carbon nanotube using 1,3-propodiamine, Composites Science and Technology, 85 (2013) 36–42（影响因子：3.43)

18. Theoretical prediction and experimental verification of pulling carbon nanotubes from carbon fiber prepared by chemical grafting method, Composites Part A: Applied Science and Manufacturing, 50, 1-10,2013（影响因子：2.74)

19. A pullout model for inclined carbon nanotube, Mechanics of Materials, 52, 28-39, 2012（影响因子：1.94）