Các bài viết có thể truy cập công khai - Marco RolandiTìm hiểu thêm
Không có ở bất kỳ nơi nào: 10
Engineering strategies for chitin nanofibers
X Zhang, M Rolandi
Journal of Materials Chemistry B 5 (14), 2547-2559, 2017
Các cơ quan ủy nhiệm: US Department of Defense
Mechanical properties of self-assembled chitin nanofiber networks
P Hassanzadeh, W Sun, JP de Silva, J Jin, K Makhnejia, GLW Cross, ...
Journal of Materials Chemistry B 2 (17), 2461-2466, 2014
Các cơ quan ủy nhiệm: Science Foundation Ireland
Feedback control of bioelectronic devices using machine learning
M Jafari, G Marquez, J Selberg, M Jia, H Dechiraju, P Pansodtee, ...
IEEE Control Systems Letters 5 (4), 1133-1138, 2020
Các cơ quan ủy nhiệm: US Department of Defense
Correlating ionic conductivity and microstructure in polyelectrolyte hydrogels for bioelectronic devices
M Jia, L Luo, M Rolandi
Macromolecular Rapid Communications 43 (6), 2100687, 2022
Các cơ quan ủy nhiệm: US Department of Defense
Synthesis of pyridine chitosan and its protonic conductivity
Y Deng, BA Helms, M Rolandi
Journal of Polymer Science Part A: Polymer Chemistry 53 (2), 211-214, 2015
Các cơ quan ủy nhiệm: US Department of Energy
Trapping and characterization of nontoxic Aβ42 aggregation intermediates
AR Foley, TS Finn, T Kung, A Hatami, HW Lee, M Jia, M Rolandi, ...
ACS chemical neuroscience 10 (8), 3880-3887, 2019
Các cơ quan ủy nhiệm: US Department of Defense, US National Institutes of Health
Measuring proton currents of bioinspired materials with metallic contacts
M Amit, S Roy, Y Deng, E Josberger, M Rolandi, N Ashkenasy
ACS applied materials & interfaces 10 (2), 1933-1938, 2018
Các cơ quan ủy nhiệm: US National Science Foundation
Delivery of cargo with a bioelectronic trigger
Z Hemmatian, E Jalilian, S Lee, X Strakosas, A Khademhosseini, ...
ACS Applied Materials & Interfaces 10 (26), 21782-21787, 2018
Các cơ quan ủy nhiệm: US National Science Foundation, US Department of Energy, US Department of …
On the interfaces between organic bio-sourced materials and metals for sustainable electronics: the eumelanin case
E Di Mauro, E Hebrard, Y Boulahia, M Rolandi, C Santato
Japanese Journal of Applied Physics 58 (5), 051014, 2019
Các cơ quan ủy nhiệm: Natural Sciences and Engineering Research Council of Canada
Two-channel bioprotonic photodetector
J Soto-Rodríguez, Z Hemmatian, J Black, M Rolandi, F Baneyx
ACS Applied Bio Materials 2 (2), 930-935, 2019
Các cơ quan ủy nhiệm: US Department of Energy, US Department of Defense
Có tại một số nơi: 65
A polysaccharide bioprotonic field-effect transistor
C Zhong, Y Deng, AF Roudsari, A Kapetanovic, MP Anantram, M Rolandi
Nature communications 2 (1), 476, 2011
Các cơ quan ủy nhiệm: US National Institutes of Health
Grotthuss mechanisms: from proton transport in proton wires to bioprotonic devices
T Miyake, M Rolandi
Journal of Physics: Condensed Matter 28 (2), 023001, 2015
Các cơ quan ủy nhiệm: US Department of Energy
A facile and patternable method for the surface modification of carbon nanotube forests using perfluoroarylazides
SJ Pastine, D Okawa, B Kessler, M Rolandi, M Llorente, A Zettl, ...
Journal of the American Chemical Society 130 (13), 4238-4239, 2008
Các cơ quan ủy nhiệm: US National Institutes of Health
Protonic and electronic transport in hydrated thin films of the pigment eumelanin
J Wünsche, Y Deng, P Kumar, E Di Mauro, E Josberger, J Sayago, ...
Chemistry of Materials 27 (2), 436-442, 2015
Các cơ quan ủy nhiệm: Canadian Institutes of Health Research, Government of Italy
A disposable paper breathalyzer with an alcohol sensing organic electrochemical transistor
E Bihar, Y Deng, T Miyake, M Saadaoui, GG Malliaras, M Rolandi
Scientific reports 6 (1), 27582, 2016
Các cơ quan ủy nhiệm: US National Science Foundation
Proton conductivity in ampullae of Lorenzini jelly
EE Josberger, P Hassanzadeh, Y Deng, J Sohn, MJ Rego, CT Amemiya, ...
Science Advances 2 (5), e1600112, 2016
Các cơ quan ủy nhiệm: US National Science Foundation, US National Institutes of Health
A non-enzymatic glucose sensor enabled by bioelectronic pH control
X Strakosas, J Selberg, P Pansodtee, N Yonas, P Manapongpun, ...
Scientific reports 9 (1), 10844, 2019
Các cơ quan ủy nhiệm: US Department of Defense
Chitin nanofiber micropatterned flexible substrates for tissue engineering
P Hassanzadeh, M Kharaziha, M Nikkhah, SR Shin, J Jin, S He, W Sun, ...
Journal of materials chemistry B 1 (34), 4217-4224, 2013
Các cơ quan ủy nhiệm: US National Institutes of Health
Soft and ion‐conducting materials in bioelectronics: From conducting polymers to hydrogels
M Jia, M Rolandi
Advanced healthcare materials 9 (5), 1901372, 2020
Các cơ quan ủy nhiệm: US Department of Defense
Single-chain heteropolymers transport protons selectively and rapidly
T Jiang, A Hall, M Eres, Z Hemmatian, B Qiao, Y Zhou, Z Ruan, AD Couse, ...
Nature 577 (7789), 216-220, 2020
Các cơ quan ủy nhiệm: US National Science Foundation, US Department of Energy, US Department of …
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