研究方向
1. 材料设计合成:维数可控(异质)纳米材料的化学合成及其生物、电磁、催化性能。
2. 生物医用材料:磁性纳米颗粒的功能化及其在医学成像与疾病治疗等领域的应用。
3. 新型能源材料:燃料电池用非贵金属催化剂及锂电池电极新材料的研究与开发。
代表性科研论文
1. Yu J, Ju Y, Zhao L, Chu X, Yang W, Tian Y, Sheng F, Lin J, LiuF, Dong Y, Hou Y, Multi-stimuli-regulated photo-chemothermal cancer therapy remotely controlled via Fe5C2 nanoparticles, ACS NANO, 10: 159−169, 2016.
2. Rehman S, Guo S, Hou Y, Rational design of Si/SiO2@hierarchical porous carbon spheres as efficient polysulfide reservoirs for high-performance Li–S battery, ADV. MATER., 28: 3167–3172, 2016.
3. Liu F, Hou Y, Gao S, Exchange-coupled nanocomposites: chemical synthesis, characterization and applications, CHEM. SOC. REV., 43: 8098–8113, 2014.
4. Li Q, Mahmood N, Zhu J, Hou Y, Sun S, Graphene and its composites with nanoparticles for electrochemical energy applications, NANO TODAY, 9: 668–683, 2014.
5. Yu J, Yang C, Li J, Ding Y, Zhang L, Yousaf MZ, Li J, Pang R, Wei L, Xu L, Sheng F, Li C, Li G, Zhao L, Hou Y, Multifunctional Fe5C2 nanoparticles: a targeted theranostic platform for magnetic resonance imaging and photoacoustic tomography-guided photothermal therapy, ADV MATER., 26: 4114–4120, 2014.
6. Liu F, Zhu J, Yang W, Dong Y, Hou Y, Zhang C, Yin H, Sun S, Building nanocomposite magnets by coating a hard magnetic core with a soft magnetic shell, ANGEW. CHEM. INT. ED., 53: 2176–2180, 2014.
7. Yin H, Zhang C, Liu F, Hou Y, Hybrid of iron nitride and nitrogen-doped graphene aerog el as synergistic catalyst for oxygen reduction reaction, ADV. FUNCT. MATER., 24: 2930–2937, 2014.
8. Zhang C, Mahmood N, Yin H, Liu F, Hou Y, Synthesis of phosphorus-doped graphene and its multifunctional applications for oxygen reduction reaction and lithium ion batteries. ADV. MATER., 25: 4932–4937, 2013.
9. Yang C, Zhao H, Hou Y, Ma D, Fe5C2 nanoparticles: a facile bromisde-induced synthesis and as an active phase for fischer-tropsch synthesis (FTS), J. AM. CHEM. SOC., 134: 15814–15821, 2012.
10. Hao R, Xing R, Xu Z, Hou Y, Gao S, Sun S, Synthesis, functionalization and biomedical applications of multifunctional magnetic nanoparticles. ADV. MATER., 22: 2729–2742, 2010.
