吕华良

青年研究员

Email: lv_hl@fudan.edu.cn

办公地点：上海市杨浦区淞沪路2005号复旦大学江湾校区交叉一楼A3008室

教育和工作经历

2023年-至今：  复旦大学光电研究院      青年研究员

2019年-2023年： 美国俄亥俄州立大学      博士后

2018年-2019年： 日本国立材料研究所（NIMS） 博士后

2017年-2018年： 美国纽约州立大学布法罗分校 访问学者

2015年-2017年： 新加坡南洋理工大学      访问学者（国家公派）

2013年-2015年： 南京大学             联合培养

主要荣誉及奖项：

i）  国家高层次青年人才；

i)   上海市浦江人才；

ii)  上海市高层次人才(海外)；

iii)  教育部自然科学二等奖；

iv)  中国颗粒学会自然科学二等奖；

v)   2021至2024年度科睿唯安“高被引科学家”

vi)  全国超结构优秀青年学者；

vii)  江苏省科学技术三等奖；

viii) 江苏省科学技术三等奖；

学术兼职：

i)  Matter/Cell Reports Physical Science/iScience 三刊客座编辑；

ix)  Adv. Funct. Mater.客座编辑;

x)  Mater. Today Nano 客座编辑；

xi)  Nano-Micro Lett.和 Adv. Power. Mater.等学术期刊青年编委；

主要研究方向：

i)  Ai机器学习及数据库构建；

ii)  低维材料设计与功能器件；

iii) 电磁能量捕捉与转换；

代表性工作列表：

2025年：

1) Zhou, Xiaodi.; Lv Hualiang* et al. High-entropy nanoalloys supported on entropy-compensating two-dimensional oxides for enhanced nanomagnetism. Sci. Adv.2025.

2) Zhang Qianpeng*.; Lv Hualiang* et al. Pixelation of perovskite quantum wire thin films with 0.18 um features and 63500 ppi pixel density. Sci. Adv. 2025, DOI.

3) Yuan, Mingyue.; Li Bangxin.; Lv Hualiang*et al. Programmable electromagnetic wave absorption via tailored metal single-atom support interactions. Adv. Mater.2025, 37:2417580.

4) Li Bangxin.; Lv Hualiang*et al. A flexible, integrable electromagnetic transistor via dynamically tailored single atom-support interactions. Matter2025.

5) Liu, Jiajun.; Lv Hualiang*et al. Engineering structural anisotropy for visualizing and controlling nanomagnetic interactions with high-frequency electromagnetic wave.Adv. Funct. Mater. 2025, 35:2425148.

6) Liu, Yihao.; Lv Hualiang* et al. Dimensional confined growth in nanometer-sized hierarchical heterostructures: nanoscale visualization of enhanced magnetic and electric interactions. Adv. Funct. Mater.2025, 35:2420679

7) Yuan Mingyue.; Lv Hualiang* et al.Advancements in high-entropy materials for electromagnetic wave absorption.Mater. Horiz. 2025, 12:1033.

8) Lv Hualiang*. Design future nanomaterials for electromagnetic wave absorption and shielding. Cell Rep. Phys. Sci. 2025, 6:102502. (Voices,受邀)

9) Zeng Xiaojun.;Lv Hualiang*et al. Bimetallic coupled porous SiC for multi-band and high-temperature electromagnetic wave response. Nano Today 2025, DOI.

2024年及以前：

1) Lv Hualiang et al.Functional nanoporous graphene superlattice. Nat. Commun. 2024, 12:1295.

2) Lv Hualianget al. A flexible electromagnetic wave-electricity harvester.Nat. Commun.2021, 12:834. （ESI paper）

3) Lv Hualianget al. Staggered circular nanoporous graphene converts electromagnetic waves into electricity. Nat. Commun.2023,14:1982. (ESI paper)

4) Chen. Guanyu.;Lv Hualiang* et al. Visualizing nanoscale interlayer magnetic interactions and unconventional low-frequency behaviors in ferromagnetic multihulled structures. Adv. Mater. 2024:36: 2313411.

5) Lv Xiaowei; Lv Hualianget al. Observation of distinct Skyrmion phases at room temperature in 2D ferromagnetic Fe₃GaTe₂. Nat. Commun.2024, 15:3728

6) Lv Hualiang*et al.Insights into civilian electromagnetic absorption materials: challenge and innovative solutions. Adv. Funct. Mater.2024,34:2315722.

7) Zhou Xiaodi; Lv Hualiang*et al.Dispersing magnetic nanoparticles into staggered, porous nano-frameworks: weaving and visualizing nanoscale magnetic flux lines for enhanced electromagnetic absorption. Adv. Funct. Mater.2024,34: 2314541.

8) Lv Hualianget al. Electromagnetic absorption materials: Current progress and new frontiers. Prog. Mater. Sci.2022, 127:100946. (Hot paper)

9) Lv Hualianget al. A voltage-boosting strategy enabling a low-frequency, flexible electromagnetic wave absorption device. Adv. Mater.2018, 30:1706343. （ESI paper, WoS>900）

10) Lv Hualianget al. An electrical switch-driven flexible electromagnetic absorber. Adv. Funct. Mater. 2020, 30:1907251. （ESI paper）

11) Lv Hualianget al. A flexible microwave shield with tunable frequency-transmission and electromagnetic compatibility. Adv. Funct. Mater.2019, 29:1900163. （ESI paper）