个人简介

龚舒，中南大学材料科学与工程学院特聘教授, 硕士、博士生导师，2023年入选国家海外高层次青年人才项目（海

外优青）。博士及博士后师从国际著名柔性电子专家程文龙教授 (悉尼大学)。主要从事可穿戴与可植入传感器件、

POCT（即时检测）生物传感器、智能弹性体及水凝胶电子器件等领域的研究，致力于开发可穿戴与小型化电子设

备，以应用于疾病早期筛查、治疗及预后监测等多个临床阶段，并通过先进人工智能算法辅助治疗过程。累计发表

SCI论文80余篇，其中以第一作者或通讯作者身份在Nature Nanotechnology、Nature Communications、

Advanced Materials 等国际高水平期刊发表论文20余篇。论文总被引次数超过9400次，单篇最高被引2300余次，

H指数为41。

实验室简介

中南大学柔性电子与生物材料实验室成立于2024年7月，现拥有教授1人，副教授1人，讲师1人，博后1人，在读博

士研究生4人，在读硕士研究生9人。研究经费充足，已建成约120m²标准化实验室（另有在建实验室80m²），近

50m²办公空间（另有在建办公室50m²）。

研究方向

• 可穿戴器件

• POCT（即时检测）生物传感器

• 仿生组织工程

主持项目

• 国家自然科学基金优秀青年基金（海外）1项；

• 国家自然科学基金面上项目1项；

• 中南大学科研启动项目1项。

招聘信息

招收26年博士、硕士、本博计划，同时招聘具有材料、化学、生物、柔性电子等交叉学科背景的优秀博士后及科研助

理，提供具有竞争力的薪酬，并欢迎优秀的本科生来组学习、交流。有意者可发送个人简历并附带至少一名推荐人联

系方式至电子邮箱：shu.gong@csu.edu.cn

其他学术主页

https://scholar.google.com/citations?user=X9sxkeIAAAAJ&hl=zh-CN&oi=ao

发表论文

• Shu Gong* et. al., Materials-driven soft wearable bioelectronics for connected healthcare. Chem. Rev. 

2024, 124 (2), 455-553 (IF 51.4)

• Shu Gong* et. al., Hierarchically Resistive Skins as Specific and Multimetric On-Throat Wearable 

Biosensors. Nat. Nanotechnol. 2023, https://doi.org/10.1038/s41565-023-01383-6. (IF 39.21)

• Shu Gong* et. al., A soft and ultrasensitive force sensing diaphragm for probing cardiac organoids 

instantaneously and wirelessly. Nat. Commun. 2022, 13: 7259. (IF 17.69)

• Shu Gong* et. al., A gold nanowire-integrated soft wearable system for dynamic continuous 

non-invasive cardiac monitoring. Biosen. & Bioelectron. 2022, 205, 114072. (IF 12.54)

• Shu Gong* et. al., Skin-Like Stretchable Fuel Cell Based on Gold-Nanowire-Impregnated Porous 

Polymer Scaffolds. Small 2020, 16, 2003269. (IF 15.15)

• Shu Gong* et. al., A soft resistive acoustic sensor based on suspended standing nanowire membranes

 with point crack design. Adv. Funct. Mater., 2020, 30, 1910717. (IF 19.92)

• Shu Gong* et. al., Multiscale soft-hard interface design for flexible hybrid electronics. Adv. Mater. 

2020, 32, 1902278. (IF 32.09)

• Shu Gong* et. al., Local Crack-Programmed Gold Nanowire Electronic Skin Tattoos for In-Plane 

Multisensor Integration. Adv. Mater., 2019, 31, 201903789. (IF 32.09)

• Shu Gong* et. al., Softening Gold for Elastronics. Chem. Soc. Rev. 2019; DOI: 10.1039/c8cs00609a. 

(IF 54.56)

• Shu Gong* et. al., Standing Enokitake-like Nanowire Films for Highly Stretchable Elastronics. ACS 

Nano, 2018, 12, 9742-9749. (IF: 18.03)

• Shu Gong* et. al., Unconventional Janus Properites of Enokitake-like Gold Nanowire Film. ACS Nano, 

2018; 12: 8717-8722. (IF: 18.03)

• Shu Gong* et. al., A location-and sharpness-specific tactile electronic skin based on staircase-like 

nanowire patches. Nanoscale Horiz. 2018, 3, 640-647. (IF 10.99)

• Shu Gong* et. al., Toward soft skin-like wearable and implantable energy devices. Adv. Energy Mater. 

2017, 7, 1700648. (IF 29.7)

• Shu Gong* et. al., One-dimensional nanomaterials for soft electronics. Adv. Electron. Mater. 2017, 3, 

1600314. (IF 7.63)

• Shu Gong* et. al., Self-assembled ultrathin gold nanowires as highly transparent, conductive and 

stretchable supercapacitor. Electroanalysis 2016, 28, 1298-1304. (IF 4.60)

• Shu Gong* et. al., Fabrication of highly transparent and flexible nanomesh electrode via self-assembly

 of ultrathin gold nanowires. Adv. Electron. Mater. 2016, 2, 1600121. (IF 7.63)

• Shu Gong* et. al., Tattoo-like Polyaniline Microparticle-Doped Gold Nanowire Patches as Highly 

Durable Wearable Sensors. ACS Appl. Mater. Inter. 2015, 7, 19700-19708. (IF 10.38)

• Shu Gong* et. al., Highly Stretchy Black Gold E-Skin Nanopatches as Highly Sensitive Wearable 

Biomedical Sensors. Adv. Electron. Mater., 2015; DOI: 10.1002/aelm. (IF 7.63)

• Shu Gong* et. al., A Wearable and Highly Sensitive Pressure Sensor with Ultrathin Gold Nanowires. 

Nat. Commun. 2014; 5: 3132-3139. (GS Cits 2300+; IF 17.69)