Ranran Wang

Overview

Best Publications

• A Stretchable and Highly Sensitive Graphene-Based Fiber for Sensing Tensile Strain, Bending, and Torsion

  Yin Cheng;Ranran Wang;Jing Sun;Lian Gao

  816
  Citations

• Synthesis of Ultralong Copper Nanowires for High-Performance Transparent Electrodes

  Dieqing Zhang;Ranran Wang;Ranran Wang;Meicheng Wen;Ding Weng

  448
  Citations

• Strain Sensors with a High Sensitivity and a Wide Sensing Range Based on a Ti3C2Tx (MXene) Nanoparticle–Nanosheet Hybrid Network

  Yina Yang;Liangjing Shi;Zherui Cao;Ranran Wang

  293
  Citations

• Highly Thermal Conductive Copper Nanowire Composites with Ultralow Loading: Toward Applications as Thermal Interface Materials

  Shouling Wang;Yin Cheng;Ranran Wang;Jing Sun

  290
  Citations

• Ti3C2Tx MXene-graphene composite films for wearable strain sensors featured with high sensitivity and large range of linear response

  Yina Yang;Yina Yang;Zherui Cao;Peng He;Liangjing Shi

  216
  Citations

• High-Performance Piezoresistive Electronic Skin with Bionic Hierarchical Microstructure and Microcracks

  Pu Nie;Ranran Wang;Xiaojuan Xu;Yin Cheng

  192
  Citations

• Highly Stretchable and Conductive Copper Nanowire Based Fibers with Hierarchical Structure for Wearable Heaters.

  Yin Cheng;Hange Zhang;Ranran Wang;Xiao Wang

  184
  Citations

• Porous Fibers Composed of Polymer Nanoball Decorated Graphene for Wearable and Highly Sensitive Strain Sensors

  Tao Huang;Peng He;Ranran Wang;Siwei Yang

  176
  Citations

• Self-Locomotive Soft Actuator Based on Asymmetric Microstructural Ti3C2Tx MXene Film Driven by Natural Sunlight Fluctuation.

  Ying Hu;Lulu Yang;Qiuyang Yan;Qixiao Ji

  170
  Citations

• Copper Nanowire-Based Aerogel with Tunable Pore Structure and Its Application as Flexible Pressure Sensor

  Xiaojuan Xu;Ranran Wang;Pu Nie;Yin Cheng

  168
  Citations

• Stretchable electronic skin based on silver nanowire composite fiber electrodes for sensing pressure, proximity, and multidirectional strain

  Yin Cheng;Ranran Wang;Haitao Zhai;Jing Sun

  163
  Citations

• Highly conductive and ultrastretchable electric circuits from covered yarns and silver nanowires.

  Yin Cheng;Ranran Wang;Jing Sun;Lian Gao

  162
  Citations

• A Biomimetic Conductive Tendril for Ultrastretchable and Integratable Electronics, Muscles, and Sensors

  Yin Cheng;Ranran Wang;Kwok Hoe Chan;Xin Lu

  157
  Citations

• Direct growth of flexible LiMn2O4/CNT lithium-ion cathodes

  Xilai Jia;Xilai Jia;Chunzhu Yan;Chunzhu Yan;Zheng Chen;Ranran Wang

  157
  Citations

• Copper nanowire based transparent conductive films with high stability and superior stretchability

  Yin Cheng;Shouling Wang;Ranran Wang;Jing Sun

  155
  Citations

• An elastomeric transparent composite electrode based on copper nanowires and polyurethane

  Weili Hu;Weili Hu;Ranran Wang;Yunfeng Lu;Qibing Pei

  149
  Citations

• A Stretchable, Breathable, And Self‐Adhesive Electronic Skin with Multimodal Sensing Capabilities for Human‐Centered Healthcare

  Unknown

  147
  Citations

• A stretchable fiber nanogenerator for versatile mechanical energy harvesting and self-powered full-range personal healthcare monitoring

  Yin Cheng;Xin Lu;Kwok Hoe Chan;Ranran Wang

  145
  Citations

• Controllable synthesis of 3D binary nickel–cobalt hydroxide/graphene/nickel foam as a binder-free electrode for high-performance supercapacitors

  Yang Bai;Weiqi Wang;Ranran Wang;Jing Sun

  142
  Citations

• Mutually Noninterfering Flexible Pressure-Temperature Dual-Modal Sensors Based on Conductive Metal-Organic Framework for Electronic Skin.

  Unknown

  141
  Citations

• Fibrous nanocomposites of carbon nanotubes and graphene-oxide with synergetic mechanical and actuative performance.

  Ranran Wang;Jing Sun;Lian Gao;Chaohe Xu

  126
  Citations

• Interface-Controlled Conductive Fibers for Wearable Strain Sensors and Stretchable Conducting Wires.

  Zherui Cao;Ranran Wang;Tengyu He;Fangfang Xu

  121
  Citations