Long Que

Title(s):

Professor

Office

2113 Coover
2520 Osborn Dr.
Ames, IA 500111046

Information

Education

Ph.D., Electrical Engineering,  University of Wisconsin-Madison (2000)

B.S., Physics, Peking University, Beijing

Research Areas

Core Area(s): Microelectronics and photonics

Department’s Strategic Area(s): Bioengineering; materials, devices & circuits

Additional Information

Publications

Google Scholar Profile: https://scholar.google.com/citations?user=X33lneEAAAAJ&hl=en

  • S. Mao, J. Zhang, X. Ding, V. A. Vuong, J. Song and L. Que, “An integrated sensing chip for ultrasensitive label-free detection of the products of loop-mediated isothermal amplification,” ACS Sensors, 8(6), 2255-2562 (2023)
  • X. Ding, F. Rubby, S. Que, S. Uchayash, and L. Que, “A facile process for fabrication of silicon micro-nanostructures of different shapes as the molds for fabricating flexible micro-nanostructures and wearable sensors,” ACS Applied Materials and Interfaces, 15, 9, 12202-12208 (2023)
  • S. Mao, C. Fonder, F. Rubby, G. Phillips, D. Sakaguchi, and L. Que, “An integrated microfluidic chip for studying the effects of neurotransmitters on neurospheroids,” Lab on a Chip, 23, 1649-1663 (2023)
  • X. Ding, M. Chen, X. Liang, and L. Que, “Soft contact lens with embedded moire patterns-based intraocular pressure sensors,” IEEE Journal of Microelectromechanical Systems, 31(6) pp. 971-976, 2022
  • M. Chen, X. Ding, L. Que, and X. Liang, “Fabrication of microstructures on curved hydrogel substrates,” Journal of Vacuum Science and Technology B , 40, 052804, 2022
  • L. Que, D. Wang, J. Wei, P. Chen, “Editorial: Advanced nanomaterials and nanostructures-based sensors for biomedical applications,” Front. Nanotechnol., v. 4, Article 897091, 2022
  • S. Mao, C. Fonder, F. Rubby, R. Yang, G. Phillips, D. Sakaguchi, and L. Que, “A microchip for studying the effects of dopamine and its precursor on neurospheroids,” Proc. IEEE MEMS conference’22, pp. 305-308, 2022
  • R. Yang, C. Fonder, D. Jiles, D. Sakaguchi, and L. Que, “A microfluidic chip for growth and characterization of adult rat hippocampal progenitor cell neurospheroids,” IEEE Journal of Microelectromechanical Systems, 31 (1), 37 (2022)
  • S. Mao, A. Sarkar, Y. wang, C. Song, D. LeVine, X. Wang, and L. Que, “Microfluidic chip grafted with integrin tension sensors for evaluating the effects of flowing shear stress and ROCK inhibitor on platelets,” Lab on a chip, 21, 3128 (2021)
  • S. Feng, C. Chen, W. Wang, L. Que, “An aptamer nanopore-enabled microsensor for detection of theophylline,” Biosensors and Bioelectronics,105, 36-41 (2018)
  • C. Song, X. Che, L. Que, “A nanopore thin film enabled optical platform for drug loading and release,” Optics Express, 25 (16), 19391-19397 (2017)

Primary Strategic Research Area

Engineered Medicine

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