2023年
46. Acoustic data telemetry for real-time downhole monitoring.
Zang, X., Martinez, JJ., Yang, Y., Salalila, A., Deng, Z.
Submitted
45. A review on intelligent impedance cytometry systems: Development, applications and advances.
Tang, T., Julian, T., Ma, D., Yang, Y., Li, M., Hosokawa, Y., Yalikun, Y.*
Analytica Chimica Acta(2023)
44. Carrier-type switching gas detection using hybrid sensor with graphene 2D layer and MoOx nanorods 3D network.
Sugahara, T.*, Hirose, Y., Nakamura, J., Ono, T., Uemura, T., Karakawa, M., Ioth, T., Shin, W., Yang, Y., Harada, N., Suganuma, K.
ACS Applied Engineering Materials(2023)
43. A guided-liquid-based hybrid triboelectric nanogenerator for omnidirectional and high-performance ocean wave energy harvesting.
Xu, Q., Shang, C., Ma, H., Li, C., Xue, L*., Sun, X., Sugahara, T., Yalikun, Y., Lai, YC*., Yang, Y*.
Nano Energy(2023).
42. Fast-speed, highly sensitive, flexible humidity sensors based on a printable composite of carbon nanotubes and hydrophilic polymers.
Ding, S., Yin, T., Yang, D., Zhang, S., Zhou, H., Guo, S., Li, Q., Wang, Y., Yang, Y., Jiang, Z., Sen, Y*..
Langmuir(2023)
41. Recent advances in luminescent metal-organic frameworks for detection of gas and volatile organic molecules.
Ma, H., Yang, Y.*, Wang, J., Li, C., Fan, Z., Wang, J*.
IEEE Transactions on Instrumentation and Measurement (2023)
40. Multi-position measurable flow velocity sensor for microfluidic applications.
Hao, Y., Fang, C., Yuan, Y., Okano, K., Yasukuni, R., Cheng, S., Tanaka, Y., Hosokawa, Y., Yang, Y., Li, M., Yalikun, Y.*
IEEE Sensors Journal (2023).
2022年
39. (期刊封面论文) Parallel impedance cytometry for real-time screening of bacterial single cells from nano to microscale.
Tang, T., Liu, X., Yuan, Y., Zhang, T., Kiya, R., Yang, Y., Yamazaki, Y., Kamikubo, H., Tanaka, Y., Li, M., Hosokawa, Y., Yalikun, Y.
ACS Sensors (2022).
38. 用于收集岸基海浪能的弹簧辅助摩擦电纳米发电机.
Xu, Q.,Pan, Y., Ma, H., Liu, W., Xue, L.* Yang, Y.*.
热带海洋学报 (Journal of Tropical Oceanography)(2022).
37. Review in life cycle assessment of biomass conversion through pyrolysis-issues and recommendations.
Yu, Z., Ma, H., Liu, X., Wang, M., Wang, J*.
Green Chemical Engineering(2022).
36. Machine learning-based impedance system for real-time recognition of antibiotic-susceptible bacteria with parallel cytometry.
Tang, T., Liu, X., Yuan, Y., Kiya, R., Zhang, T., Yang, Y., Suetsugu, S., Yamazaki, Y., Ota, N., Yammoto, K., Kamikubo, H., Tanaka, Y., Li, M., Hosokawa, Y., Yalikun, Y.
Sensors and Actuators B: Chemical (2022).
35. Blade-coated Ti3C2Tx MXene films for pseudocapacitive energy storage and infrared stealth.
Ma, H., Wang, J*., Wang, J., Shang, K., Yang, Y*., Fan, Z*.
Diamond & Related Materials(2022).
34. (期刊封面论文) A tube-shaped solid–siquid-interfaced triboelectric–electromagnetic hybrid nanogenerator for efficient ocean wave energy harvesting.
Sun, X‡., Shang,C‡., Ma, H., Li, C., Xue, L*., Xu, Q., Wei, Z., Li,WL*., Yalikun,Y., Lai,Y*., Yang Y*.
Nano Energy(2022).
33. Assessment of electrical penetration of cell membrane using four-frequency impedance cytometry.
Tang, T., Liu, X., Yuan, Y., Kiya, R., Zhang, T., Yang, Y., Suzuki, K., Tanaka, Y., Li, M., Hosokawa, Y., Yalikun, Y.
Microsystems & Nanoengineering(2022).
32. 3D Porous MXene films for advanced electromagnetic interference shielding and energy storage
Ma, H., Li, C., Yang, Y.*, Fan, Z *.
Crystals(2022).
31. Harvesting wave energy to power acoustic transmitters using triboelectric nanogenerator.
Yang, Y., Salalila, M., Jung, H., Lu, J., Lai, Y., Deng, Z.
Active and Passive Smart Structures and Integrated Systems XVI(2022)
30. Vertical multiple-layer structure of temperature and turbulent diffusivity in the South China Sea.
He, X., Liang, C., Yang, Y.*, Chen, G., Shang, X.*, He, X.*, Tong, P.*
Acta Oceanologica Sinica(2022).
29. A real-time underwater acoustic telemetry receiver with edge computing for studying fish behavior and environmental sensing.
Yang, Y., Elsinghorst, R., Martinez, J., Hou, H., Lu, J., Deng, Z.
IEEE Internet of Things Journal (2022).
28. Supersaturated solid-solution interfaces of Cu core/Ag shell structures and their enhanced thermal stability with high oxidation-resistant behaviors.
Li, W.*, Lang, F., Tong, K., Liang, C., Yang, Y.*, Wang, H., Jiu, J., Zhang, J., Suganuma, K.
Corrosion Science (2022).
2021年
27. A simple transmission dynamics model for predicting the evolution of COVID-19 under control measures in China.
Shang, C., Yang, Y.*, Chen, G., Shang, X.
Epidemiology and Infection 149 (2021).
26. Fully integrated flexible dielectric monitoring sensor system for real-time in situ prediction of the degree of cure and glass transition temperature of an epoxy resin.
Yang, Y.*, Plovie, B., Chiesura, G., Vervust, T., Daelemans, L., Mogosanu, D., Wuytens, P., De Clerck, K., Vanfleteren, J.
IEEE Transactions on Instrumentation and Measurement 70 (2021): 1-9.
25. Lab-on-a-Fish: Wireless, miniaturized, fully integrated, implantable biotelemetric tag for real-time in vivo monitoring of aquatic animals.
Yang, Y., Lu, J., Pflugrath, B., Li, H., Martinez, J., Regmi, S., Wu, B., Xiao, J., Deng, Z.
IEEE Internet of Things Journal (2021).
2020年
24. Postsynthetic oxidation of the coordination site in a heterometallic metal–organic framework: tuning catalytic behaviors.
Han, Y., Sinnwell, M., Surbella, R., Xu, W., Sushko, M., Zheng, J., Engelhard, M., Liu, L., Yang, Y., Ma, S., Thallapally, P.
Chemistry of Materials. (2020).
2019年
23. Good practices for rechargeable lithium metal batteries.
Wu, B., Yang, Y.*, Liu, D., Niu, C., Gross, M., Seymour, L., Lee, H., Le, P., Vo, T., Deng, ZD., Dufek, E., Whittingham, S., Liu, J. and Xiao, J.
Journal of the Electrochemical Society. 166(16), A4141. (2019).
22. (亮点论文) Stretchable sensors for environmental monitoring.
Yang, Y. and Deng, ZD.
Applied Physics Reviews. 6(1), 011309. (2019).
21. Alloying and embedding of Cu-core/Ag-shell nanowire for ultra-stable stretchable and transparent electrodes.
Zhang, B., Li, W., Nogi, M., Chen, C., Yang, Y., Sugahara, T., Koga, H., Suganuma, K.
ACS Applied Materials & Interfaces. 11(20), 18540-18547. (2019).
20. Large-scale and galvanic replacement free synthesis of Cu@Ag core-shell nanowires for flexible electronics.
Zhang, B., Li, W., Jiu, J., Yang, Y., Jing, J., Li, C., Suganuma, K.
ACS Inorganic Chemistry. 58(5), 3374-3381.(2019).
19. Ultra-Long-Term Reliable Encapsulation Using an Atomic Layer Deposited HfO2 / Al2O3 / HfO2 Triple-Interlayer for Biomedical Implants.
Li, C., Cauwe, M., Yang, Y., Schaubroeck, D., Op de beeck, M.
Coatings. 9(9), 579. (2019).
18. Fully embedded CuNWs/PDMS conductor with high oxidation resistance and high conductivity for stretchable electronics.
Zhang, B., Li, W., Yang, Y., Chen, C., Li, C., Suganuma, K.
Journal of Materials Science. 54(8), 6381-6392. (2019).
17. Low-temperature and pressureless sinter joining of Cu with micro/submicron Ag paste in air.
Zhang, Z., Chen, C., Yang, Y., … & Suganuma, K.
Journal of Alloys and Compounds. 780, 435-442. (2019).
16. (期刊封面论文) Monitoring the state-of-charge of a vanadium redox flow battery with the acoustic attenuation coefficient: an in operando noninvasive method.
Zang, X., Yan, L., Yang, Y., Pan, H., Nie, Z., Deng, ZD., Wang, W.
Small Method. 3(12), 1900494. (2019).
Link: https://onlinelibrary.wiley.com/toc/23669608/2019/3/12
15. Stretchable mould interconnect optimization: peeling automation and carrierless techniques.
Plovie, B., Yang, Y., Dunphy, S., Dhaenens, K., Van Put, S., Bossuyt, F., Vanfleteren, J.
IEEE Transactions on Components Packaging and Manufacturing Technology. 9(5), 955-962. (2019).
2018年
14. Highly Stable Transparent Conductive Electrode Based on Silver–Platinum Alloy-walled Hollow Nanowires for Emerging Optoelectronic Devices.
Zhou, K., Han, C., Li, C., Jiu, J., Yang, Y., ... & Suganuma, K.
ACS Applied Materials & Interfaces. 10(42), 36128-36135. (2018)
13. Highly Conductive Ag Paste for Recoverable Wiring and Reliable Bonding Used in Stretchable Electronics.
Li, C., Li, W., Zhang, H., Jiu, J., Yang, Y., Li, L., Gao, Y., Liu, Z., Suganuma, K.
ACS Applied Materials & Interfaces. 11(3), 3231-3240. (2018).
12. (期刊封面论文) 3D multifunctional composites based on large-area stretchable circuit with thermoforming technology.
Yang, Y., Vervust, T., Dunphy, S., Van Put, S., … & Vanfleteren, J.
Advanced Electronic Materials. DOI: 10.1002/aelm.201800071. (2018).
Link: https://onlinelibrary.wiley.com/toc/2199160x/2018/4/8
11. Highly Densified Cu Wirings Fabricated from Air-stable Cu Complex Ink with High Conductivity, Enhanced Oxidation Resistance, and Flexibility.
Li, W., Yang, Y., Zhang, B., Li, CF., Jiu, J., Suganuma, K.
Advanced Materials Interfaces. 5(19), 1800798. (2018)
10. Three-dimensional stretchable and transparent conductors with controllable strain-distribution based on template-assisted transfer printing.
Li, W., Yang, Y., Zhang, B., Li, L., Liu, G., L, C., Jiu, J., Suganuma, K.
ACS Applied Materials & Interfaces. 11(2), 2140-2148. (2018).
9. (期刊封面论文) Design and Integration of Flexible Sensor Matrix for in Situ Monitoring of Polymer Composites.
Yang, Y., Chiesura, G., Plovie, B., Vervust, T., Luyckx, G., Degrieck, J., Sekitani, T., Vanfleteren, J.
ACS Sensors. 3(9), 1698-1705. (2018).
Link: https://pubs.acs.org/toc/ascefj/3/9
8. Multifunctional and miniaturized flexible sensor patch: Design and application for in situ monitoring of epoxy polymerization.
Yang, Y., Xu, K., Vervust, T., & Vanfleteren, J.
Sensors and Actuators B: Chemical. 261, 144-152. (2018).
2017年
7. Arbitrarily Shaped 2.5D Circuits using Stretchable Interconnects Embedded in Thermoplastic Polymers.
Plovie, B., Yang, Y., Guillaume, J., … & Vanfleteren, J.
Advanced Engineering Materials. 19(8), 1700032. (2017).
2016年
6. RTM production monitoring of the A380 Hinge Arm droop nose mechanism.
Chiesura, G., Lamberti, A., Yang, Y., Luyckx, G., Van Paepegem, W., Degrieck, J., Vanfleteren, J, & Vanlanduit, S.
Sensors. 16(6), 866. (2016).
5. (期刊封面论文)Design and fabrication of a shielded interdigital sensor for noninvasive in situ real-time production monitoring of polymers.
Yang, Y., Chiesura, G., Vervust, T., Degrieck, J., & Vanfleteren, J.
Journal of Polymer Science Part B: Polymer Physics. 54(20), 2028-2037. (2016).
Link: https://onlinelibrary.wiley.com/toc/10990488/2016/54/20
4. Design and fabrication of a flexible dielectric sensor system for in situ and real-time production monitoring of glass fibre reinforced composites.
Yang, Y., Chiesura, G., Vervust, T., Bossuyt, F., Luyckx, G., Degrieck, J., & Vanfleteren, J.
Sensors and Actuators A: Physical. 243, 103-110. (2016).
3. Facile fabrication of stretchable Ag nanowire/polyurethane electrodes using high intensity pulsed light.
Yang, Y., Ding, S., Araki, T., Jiu, J., Sugahara, T., Wang, J., ... & Suganuma, K.
Nano Research. 9(2), 401-414. (2016).
2014年
2. Arbitrarily shaped 2.5d circuits using stretchable interconnections and embedding in thermoplastic polymers.
Vanfleteren, J. , Chtioui, I. , Plovie, B. , Yang, Y. , Bossuyt, F. , & Vervust, T. , et al.
Procedia Technology, 15(15), 208-215. (2014).
1. Development of a dielectric sensor system for the on-line cure monitoring of composites.
Yang, Y. , Chiesura, G. , Luyckx, G. , Vervust, T. , Bossuyt, F. , & Kaufmann, M. , et al.
Procedia Technology, 15, 631-637. (2014).