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李海增
作者:        发布时间:2021-03-11        点击数:

姓名

李海增

性别

出生年月

1990.03

电话

+86-18817330541

E-mail

haizeng@sdu.edu.cn

职位/职称

教授

人才类别

山东大学齐鲁青年学者

教育经历:

起止时间

学位

毕业院校

专业学科

2011-2016

博士

东华大学纤维材料改性国家重点实验室

材料学

2007-2011

学士

青岛科技大学

无机非金属材料工程





工作经历:

起止时间

工作单位

职位/职称

2016.8-2016.11

香港城市大学

Research Associate

2017-2020

阿尔伯塔大学

Postdoctoral fellow




研究方向和研究领域简介:

主要研究方向为电致变色光热调控器件,涉及内容主要包括:

① 红外发射率可调电致变色器件;

② 低成本电致变色显示技术;

③ 智能窗用柔性可裁剪电致变色贴膜;

④ 人体辐射热管理能源织物。

代表性研究成果:

近五年,以一作或通讯作者在Joule、Advanced Materials (2篇)、Light: Science & Applications、Advanced Optical Materials、Nano Energy、Nanophotonics、Nanoscale Horizons、ACS Applied Materials & Interfaces等主流杂志发表学术论文17篇,其中多篇当选ESI热点论文和高被引论文。此外,李海增教授获授权中国发明专利3项,申请美国与加拿大专利各1项。

[1] H. Li*, C. J. Firby, A. Y. Elezzabi*, Rechargeable aqueous hybrid Zn2+/Al3+ electrochromic batteries. Joule, 2019, 3, 2268. (SCI, IF=29.155, ESI热点论文、高被引论文)

(能源学人报道:https://nyxr-home.com/25609.html)

[2] W. Zhang, H. Li*, W. W. Yu, A. Y. Elezzabi*, Transparent inorganic multicolour displays enabled by zinc-based electrochromic devices. Light: Science & Applications, 2020, 9, 121. (SCI, IF=13.714)

(美国科学促进会AAAS报道: https://www.eurekalert.org/pub_releases/2020-07/lpcc-tim071420.php.

Phys.org报道: https://phys.org/news/2020-07-transparent-inorganic-multicolour-enabled-zinc-based.html.

中国光学报道: https://mp.weixin.qq.com/s/k90KnCtIEG4W_p5CLZXFjg. )

[3] H. Li*, W. Zhang, A. Y. Elezzabi*, Transparent zinc-mesh electrodes for solar-charging electrochromic windows. Advanced Materials, 2020, 32, 2003574. (SCI, IF=27.398)

[4] H. Li*, L. McRae, C. J. Firby, M. Al-Hussein, A. Y. Elezzabi*, Rechargeable aqueous electrochromic batteries utilizing Ti-substituted tungsten molybdenum oxide based Zn2+ ion intercalation cathodes. Advanced Materials, 2019, 31, 1807065. (SCI, IF=27.398, ESI高被引论文)

[5] H. Li*, L. McRae, C. J. Firby, A. Y. Elezzabi*, Nanohybridization of molybdenum oxide with tungsten molybdenum oxide nanowires for solution-processed fully reversible switching of energy storing smart windows. Nano Energy, 2018, 47, 130. (SCI, IF=16.602)

(LaserFocusWorld杂志在 Optics以及Detectors & Imaging专栏分别作了重点报道: https://www.laserfocusworld.com/optics/article/16555300/transparent-molybdenum-oxidebased-smart-windows-store-energy-like-a-battery;

https://www.laserfocusworld.com/detectors-imaging/article/16571711/molybdenum-smart-windows-store-energy-like-a-battery.)

[6] W. Zhang, H. Li*, E. Hopmann, A. Y. Elezzabi*, Nanostructured inorganic electrochromic materials for light applications. Nanophotonics, 2020, 10, 825. (SCI, IF=7.491,邀请综述)

[7] H. Li*, A. Y. Elezzabi, Simultaneously enabling dynamic transparency control and electrical energy storage via electrochromism. Nanoscale Horizons, 2020, 5, 691. (SCI, IF=9.927)

[8] W. Zhang, H. Li*, M. Al-Hussein, A. Y. Elezzabi*, Electrochromic battery displays with energy retrieval functions using solution-processable colloidal vanadium oxide nanoparticles. Advanced Optical Materials, 2020, 8, 1901224. (SCI, IF=8.286)

[9] H. Li*, L. McRae, A. Y. Elezzabi*, Solution-processed interfacial PEDOT:PSS assembly into porous tungsten molybdenum oxide nanocomposite films for electrochromic applications. ACS Applied Materials & Interfaces, 2018, 10, 10520. (SCI, IF=8.758)

[10] W. Zhang, H. Li*, C. J. Firby, M. Al-Hussein, A. Y. Elezzabi*, Oxygen-vacancy-tunable electrochemical properties of electrodeposited molybdenum oxide films. ACS Applied Materials & Interfaces, 2019, 11, 20378. (SCI, IF=8.758)

[11] H. Li, J. Li, C. Hou*, D. Ho*, Q. Zhang, Y. Li, H. Wang*, Solution-processed porous tungsten molybdenum oxide electrodes for energy storage smart windows. Advanced Materials Technologies, 2017, 2, 1700047. (SCI, IF=5.969)

[12] H. Li, C. Chen, M. Cui, G. Cai, A. Eh, P. S. Lee*, H. Wang*, Q. Zhang, Y. Li*, Spray coated ultrathin films from aqueous tungsten molybdenum oxide nanoparticle ink for high contrast electrochromic applications. Journal of Materials Chemistry C, 2016, 4, 33. (SCI, IF=7.059)

[13] H. Li, J. Wang, Q. Shi, M. Zhang, C. Hou*, G. Shi, H. Wang*, Q. Zhang, Y. Li, Q. Chi*, Constructing three-dimensional quasi-vertical nanosheet architectures from self-assemble two-dimensional WO3·2H2O for efficient electrochromic devices. Applied Surface Science, 2016, 380, 281. (SCI, IF=6.182)

[14] H. Li, G. Shi, H. Wang*, Q. Zhang, Y. Li *, Self-seeded growth of nest-like hydrated tungsten trioxide film directly on FTO substrate for highly enhanced electrochromic performance. Journal of Materials Chemistry A, 2014, 2, 11305. (SCI, IF=11.301)

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