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Nicholas J Rommelfanger

Showing results (1-10 of 16) with videos related to

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Trends in Chemistry|October 21, 2022
Conjugated Polymers Enable a Liquid Retinal ProsthesisNicholas J Rommelfanger, Guosong Hong
APL Materials|July 15, 2021
On the feasibility of wireless radio frequency ablation using nanowire antennasNicholas J Rommelfanger, Guosong Hong
Matter|October 26, 2020
Bioinspired Materials for <i>In Vivo</i> Bioelectronic Neural InterfacesGrace A Woods, Nicholas J Rommelfanger, Guosong Hong
Current Opinion in Biotechnology|August 8, 2021
Learning from the brain's architecture: bioinspired strategies towards implantable neural interfacesNicholas J Rommelfanger, Carl Hc Keck, Yihang Chen, et al.
Nature Protocols|November 2, 2023
Activation of mechanoluminescent nanotransducers by focused ultrasound enables light delivery to deep-seated tissue in vivoShan Jiang, Xiang Wu, Fan Yang, et al.
Multifunctional Materials|February 16, 2026
Bioinspired nanoantennas for opsin sensitization in optogenetic applications: a theoretical investigationCarl H C Keck, Nicholas J Rommelfanger, Zihao Ou, et al.
Physical Review Applied|October 21, 2022
Differential heating of metal nanostructures at radio frequenciesNicholas J Rommelfanger, Zihao Ou, Carl H C Keck, et al.
National Science Review|October 5, 2022
Shedding light on neurons: optical approaches for neuromodulationShan Jiang, Xiang Wu, Nicholas J Rommelfanger, et al.
Nanotechnology|May 5, 2022
Pristine carbon nanotubes are efficient absorbers at radio frequenciesNicholas J Rommelfanger, Kenneth Brinson, John E Bailey, et al.
Nature Biomedical Engineering|October 9, 2023
Laminin-coated electronic scaffolds with vascular topography for tracking and promoting the migration of brain cells after injuryXiao Yang, Yue Qi, Chonghe Wang, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Trends in Chemistry|October 21, 2022
Conjugated Polymers Enable a Liquid Retinal ProsthesisNicholas J Rommelfanger, Guosong Hong
APL Materials|July 15, 2021
On the feasibility of wireless radio frequency ablation using nanowire antennasNicholas J Rommelfanger, Guosong Hong
Matter|October 26, 2020
Bioinspired Materials for <i>In Vivo</i> Bioelectronic Neural InterfacesGrace A Woods, Nicholas J Rommelfanger, Guosong Hong
Current Opinion in Biotechnology|August 8, 2021
Learning from the brain's architecture: bioinspired strategies towards implantable neural interfacesNicholas J Rommelfanger, Carl Hc Keck, Yihang Chen, et al.
Nature Protocols|November 2, 2023
Activation of mechanoluminescent nanotransducers by focused ultrasound enables light delivery to deep-seated tissue in vivoShan Jiang, Xiang Wu, Fan Yang, et al.
Multifunctional Materials|February 16, 2026
Bioinspired nanoantennas for opsin sensitization in optogenetic applications: a theoretical investigationCarl H C Keck, Nicholas J Rommelfanger, Zihao Ou, et al.
Physical Review Applied|October 21, 2022
Differential heating of metal nanostructures at radio frequenciesNicholas J Rommelfanger, Zihao Ou, Carl H C Keck, et al.
National Science Review|October 5, 2022
Shedding light on neurons: optical approaches for neuromodulationShan Jiang, Xiang Wu, Nicholas J Rommelfanger, et al.
Nanotechnology|May 5, 2022
Pristine carbon nanotubes are efficient absorbers at radio frequenciesNicholas J Rommelfanger, Kenneth Brinson, John E Bailey, et al.
Nature Biomedical Engineering|October 9, 2023
Laminin-coated electronic scaffolds with vascular topography for tracking and promoting the migration of brain cells after injuryXiao Yang, Yue Qi, Chonghe Wang, et al.
Pageof 2