Članki z zahtevami za javni dostop - Hanna ChoVeč o tem
Ni na voljo nikjer: 1
A micromechanical mass sensing method based on amplitude tracking within an ultra-wide broadband resonance
R Potekin, S Kim, DM McFarland, LA Bergman, H Cho, AF Vakakis
Nonlinear Dynamics 92, 287-304, 2018
Zahteve: US National Science Foundation
Na voljo nekje: 17
Nonlinear couplings and energy transfers in micro-and nano-mechanical resonators: intermodal coupling, internal resonance and synchronization
K Asadi, J Yu, H Cho
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2018
Zahteve: US Department of Defense
Multi-frequency Atomic Force Microscopy based on enhanced internal resonance of an inner-paddled cantilever
R Potekin, S Dharmasena, H Keum, X Jiang, J Lee, S Kim, LA Bergman, ...
Sensors and Actuators A: Physical 273, 206-220, 2018
Zahteve: US National Science Foundation
Utilizing intentional internal resonance to achieve multi-harmonic atomic force microscopy
B Jeong, C Pettit, S Dharmasena, H Keum, J Lee, J Kim, S Kim, ...
Nanotechnology 27 (12), 125501, 2016
Zahteve: US National Science Foundation
Strong internal resonance in a nonlinear, asymmetric microbeam resonator
K Asadi, J Yeom, H Cho
Microsystems & nanoengineering 7 (1), 9, 2021
Zahteve: US Department of Defense
Cantilever dynamics in higher-harmonic atomic force microscopy for enhanced material characterization
R Potekin, S Dharmasena, DM McFarland, LA Bergman, AF Vakakis, ...
International Journal of Solids and Structures 110, 332-339, 2017
Zahteve: US National Science Foundation
Piezoelectric heterogeneity in collagen type I fibrils quantitatively characterized by piezoresponse force microscopy
J Kwon, H Cho
ACS Biomaterials Science & Engineering 6 (12), 6680-6689, 2020
Zahteve: US National Science Foundation
Collagen piezoelectricity in osteogenesis imperfecta and its role in intrafibrillar mineralization
J Kwon, H Cho
Communications Biology 5 (1), 1229, 2022
Zahteve: US National Science Foundation
Ultimate decoupling between surface topography and material functionality in atomic force microscopy using an inner-paddled cantilever
SM Dharmasena, Z Yang, S Kim, LA Bergman, AF Vakakis, H Cho
ACS nano 12 (6), 5559-5569, 2018
Zahteve: US National Science Foundation
Mechanism of geometric nonlinearity in a nonprismatic and heterogeneous microbeam resonator
K Asadi, J Li, S Peshin, J Yeom, H Cho
Physical Review B 96 (11), 115306, 2017
Zahteve: US Department of Defense
Frequency stabilization in a MEMS oscillator with 1: 2 internal resonance
J Yu, K Asadi, H Brahmi, H Cho, S Nezmi, S Lee
2019 IEEE international symposium on inertial sensors and systems (INERTIAL …, 2019
Zahteve: US Department of Defense
Ultrabroadband microresonators with geometrically nonlinear stiffness and dissipation
R Potekin, K Asadi, S Kim, LA Bergman, AF Vakakis, H Cho
Physical Review Applied 13 (1), 014011, 2020
Zahteve: US National Science Foundation
Frequency stabilization in an encapsulated high-q micromechanical resonator via internal resonance
J Yu, HK Kwon, GD Vukasin, TW Kenny, H Cho
2020 IEEE 33rd international conference on micro electro mechanical systems …, 2020
Zahteve: US National Science Foundation, US Department of Defense
Finite element analysis of the impact of bone nanostructure on its piezoelectric response
S Pai, J Kwon, B Liang, H Cho, S Soghrati
Biomechanics and Modeling in Mechanobiology 20, 1689-1708, 2021
Zahteve: US Department of Defense
Exploiting and tailoring 1: 2 internal resonance in a stepped beam micromechanical resonator for frequency stabilization
J Yu, H Cho
Sensors and Actuators A: Physical 362, 114619, 2023
Zahteve: US Department of Defense
One-to-two internal resonance in a micro-mechanical resonator with strong Duffing nonlinearity
J Yu, A Donmez, H Herath, H Cho
Journal of Micromechanics and Microengineering 34 (1), 015007, 2023
Zahteve: US Department of Defense
Multifunctional microcavity surfaces for robust capture and direct rapid sampling of concentrated analytes
S Shin, S Oh, SR Park, H Cho, S Kim, YT Cho
Small Structures 5 (3), 2300400, 2024
Zahteve: US National Science Foundation
Nanomechanical characterization of bone quality depending on tissue age via bimodal atomic force microscopy
J Kwon, H Cho
Nanomanufacturing and Metrology 6 (1), 30, 2023
Zahteve: US National Science Foundation
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