2025

47.Li Q, Kulkarni SP, Sui C, Chen TH, Yan G, Wu R, Chen W, Hung PJ, Wu X, et al. High-efficiency broadband active metasurfaces via reversible metal electrodeposition. arXiv preprint:2504.05612. 2025.

46.Hung PJ, Li Q, Chen TH, Fu CT, Han Y, Wu R, Yan G, Fan Q, Liu J, et al. All-solution-processed mid-infrared electrochromics (ASPIRE) for thermoregulation with arbitrary curvatures. 10.26434/chemrxiv-2025-g97zs, 2025.

45.Liang J, Sui C, Tian J, Higueros G, Chen TH, Wu R, Hung PJ, Deng Y, et al. Ionic liquid-based reversible metal electrodeposition for adaptive radiative thermoregulation under extreme environments. Adv. Func. Mater. 2025, 2419087.

2024

44.Wu R, Sui C, Zhang Y, Li J, Chen X, Wang H, et al. Spectrally engineered textile for radiative cooling against urban heat islands. Science 2024, 384:1203-1212.

43.Wu R, Zhang L, Wang Y, Chen Z, Liu M, et al. Stretchable spring-sheathed yarn sensor for 3D dynamic body reconstruction assisted by transfer learning. InfoMat 2024: e12527.

42.Wu R, Hsu PC. Better cooling for faster healing. Nat Chem Eng. 2024: 1-2.

41.Miao Y, Zhang L, Wang H, Chen X, Wu R, Ma L. Woven fabric triboelectric nanogenerators for human-computer interaction and physical health monitoring. Nano Res. 2024: 1-9.

40.Han Y, Xie W, Hill GT, Smeets P, Hu X, Yan G, Zou S, Liu J, Wu R, et al. Uncovering the predictive pathways of lithium and sodium interchange in layered oxides. Nat Mater. 2024, 23: 951-959.

39.Yan G, Wei J, Apodaca E, Choi S, Eng PJ, Stubbs JE, Han Y, Zou S, Bera MK, Wu R, et al. Identifying critical features of iron phosphate particle for lithium preference. Nat Commun. 2024, 15(1): 4859.

2023

38.Wu R, Chen TH, Hsu PC. Stay healthy under global warming: A review of wearable technology for thermoregulation. EcoMat 2023: e12396.

37.Bae J, Wu R, Kim T. Fabricating and laminating films with through-holes and engraved/protruding structures for 3D micro/nanofluidic platforms. Small Methods 2023: 2300211.

36.Ling Z, Liu H, Wang Y, Wu R, Liu H. Hierarchical weaving metafabric for unidirectional water transportation and evaporative cooling. Adv Funct Mater. 2023, 33(51).

35.Sui C, Pu J, Chen T, Liang J, Lai Y, Rao Y, Wu R, et al. Dynamic electrochromism for all-season radiative thermoregulation. Nat. Sustain. 2023: 1-10.

34.Bae JY, Seo S, Wu R, et al. Programmable and pixelated solute concentration fields controlled by three-dimensionally networked microfluidic source/sink arrays. ACS Nano 2023, 17(20):20273-20283.

2022

33.Wu R, Zhang Y, Li J, Wang H, Chen X, et al. Industrial fabrication of 3D braided stretchable hierarchical interlocked fancy-yarn triboelectric nanogenerator for self-powered smart fitness system. Adv Energy Mater. 2022: 2201288.

32.Wu R, Liu M, Wang Y, Chen Z, Zhang L, et al. Full-fiber auxetic-interlaced yarn sensor for sign-language translation glove assisted by artificial neural network. Nano-Micro Lett. 2022, 14(1):1-14.

31.Wu R, Chen X, Wang H, Zhang Y, Li J, et al. Spider-inspired regenerated silk fibroin fiber actuator via microfluidic spinning. Chem Eng J. 2022, 444: 136556.

30.Zhao J, Wang Y, Chen X, Wu R, Guo W. Self-powered speech recognition system for deaf users. Cell Rep Phys Sci. 2022, 101168.

29.Dong X, Liu Q, Liu S, Wu R, Ma L. Silk Fibroin Based Conductive Film for Multifunctional Sensing and Energy Harvesting. Adv Fiber Mater. 2022: 1-9.

28.Zhang Y, Aniruddha P, Hou C, Lu D, Qiu W, Kong L, Wu R, et al. Reconstructed silk fibroin mediated smart wristband for physiological signal detection. Chem Eng J. 2022, 132362.

2021

27.Wu R, Zhang Y, Li J, Wang H, Chen X, et al. From mesoscopic functionalization of silk fibroin to smart fiber devices for textile electronics and photonics. Adv Sci. 2021, 2103981.

26.Wu R, Liu M, Wang Y, Chen Z, Zhang L, et al. Microfluidic approaches for fabricating intelligent fiber devices: importance of shape characteristics. Lab Chip 2021, 21(7): 1217-1240.

25.Ma LY, Wu R, Zhang Y, Li J, Wang H, et al. Acid and alkali-resistant textile triboelectric nanogenerator as smart protective suit for liquid energy harvesting and self-powered monitoring in high-risk environment. Adv Funct Mater. 2021: 2102963.

24.Ma LY, Wu R, Liu M, Wang Y, Chen Z, et al. All-in-one fibrous capacitive humidity sensor for human breath monitoring. Text Res J. 2021, 91(3-4):398-405.

23.Bae JY, Chae Y, Park JG, Wu R, et al. Direct single-step printing of conductive grids on curved surfaces using template-guided foaming. ACS Appl Mater Interfaces 2021, 13(16): 19168-19175.

22.Shi CY, Hu F, Wu R, et al. New silk road: from mesoscopic reconstruction/functionalization to flexible meso-electronics/photonics based on cocoon silk materials. Adv Mater. 2021: 2005910.

21.Lin ZF, Meng Z, Miao H, Wu R, et al. Biomimetic salinity power generation based on silk fibroin ion-exchange membranes. ACS Nano 2021, 15(3): 5649-5660.

20.Zhang YF, Wu R, et al. Enhanced mechanical performance of biocompatible silk fibroin films through mesoscopic construction of hierarchical structures. Text Res J. 2021, 91(9-10): 1146-1154.

19.Ma LY, Patil AB, Wu R, et al. A capacitive humidity sensor based on all-protein embedded with gold nanoparticles@carbon composite for human respiration detection. Nanotechnology 2021, 32(19): 19LT01.

18.Hou C, Zhang F, Chen C, Zhang Y, Wu R, et al. Wearable hydration and pH sensor based on protein film for healthcare monitoring. Chem Pap. 2021: 1-8.

17.Zhu Z, Guo S, Qin Y, Chen X, Wu R, et al. Robust elbow angle prediction with aging soft sensors via output-level domain adaptation. IEEE Sens J. 2021.

2020

16.Wu R, Zhang Y, Li J, Wang H, Chen X, et al. Graphene decorated carbonized cellulose fabric for physiological signal monitoring and energy harvesting. J Mater Chem A 2020, 8(25): 12665-12673.

15.Wu R, Liu M, Wang Y, Chen Z, Zhang L, et al. Fibrous inductance strain sensors for passive inductance textile sensing. Mater Today Phys. 2020, 100243.

14.Ma LY, Wu R, Zhang Y, Li J, Wang H, et al. Machine-fabricated 3D honeycomb structured flame-retardant triboelectric fabric for fire escape and rescue. Adv Mater. 2020, 32(38), 2003897.

13.Patil AB, Zheng CB, Ma LY, Wu R, et al. Flexible and disposable gold nanoparticles-N-doped carbon-modified electrochemical sensor for simultaneous detection of dopamine and uric acid. Nanotechnology 2020, 32(6): 065502.

12.Chen ZY, Wu R, et al. 3D Upper Body Reconstruction with Sparse Soft Sensors. Soft Robot. 2020, 8(2), 226-239.

11.Patil AB, Meng Z, Wu R, et al. Tailoring the meso-structure of gold nanoparticles in keratins-based activated carbon toward high-performance flexible sensor. Nano-Micro Lett. 2020, 12(1):1-11.

10.Ma LY, Zhou MJ, Wu R, et al. Continuous and scalable manufacture of hybridized nano-micro triboelectric yarns for energy harvesting and signal sensing. ACS Nano 2020.

9.Zhang Y, Tu H, Wu R. Programing performance of silk fibroin superstrong scaffolds by mesoscopic regulation among hierarchical structures. Biomacromolecules 2020, 21(10): 4169-4179.

2019

8.Wu R, Zhang Y, Li J, Wang H, Chen X, et al. Silk Composite electronic textile sensor for high space precision 2D combo temperature-pressure sensing. Small 2019, 15(31): 1901558.

7.Wu R, Ma LY, Zhang Y, Li J, Wang H, et al. All-textile electronic skin enabled by high elastic spacer fabric and conducting fibers. ACS Appl Mater Interfaces 2019, 11(36): 33336-33346.

6.Wu R, Liu M, Wang Y, Chen Z, Zhang L, et al. A facile method to prepare a wearable pressure sensor based on fabric electrodes for human motion monitoring. Text Res J. 2019, 89(23-24): 5144.

5.Ma LY, Wu R, Zhang Y, Li J, Wang H, et al. Full-Textile Wireless Flexible Humidity Sensor for Human Physiological Monitoring. Adv Funct Mater. 2019, 29(43): 1904549.

4.Ma LY, Liu Q, Wu R, Patil AB, et al. From Molecular Reconstruction of Mesoscopic Functional Conductive Silk Fibrous Materials to Remote Respiration Monitoring. Small 2019.

3.Hou C, Xu ZJ, Qiu W, Wu R, Wang YN, Xu QC, et al. A biodegradable and stretchable protein-based sensor as artificial electronic skin for human motion detection. Small 2019, 15(11).

2.Patil AB, Huang Y, Ma L, Wu R, et al. An efficient disposable and flexible electromechanical sensor based on a novel and stable metal carbon composite derived from cocoon silk. Biosens Bioelectron. 2019, 142: 111595.

1.Liu Q, Meng ZH, Wu R, et al. A novel facile and green synthesis protocol to prepare high strength regenerated silk fibroin/SiO₂ composite fiber. Fibers Polym. 2019, 20(10):2222-6