Minjeong Ha
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Explore the profile of Minjeong Ha including associated specialties, affiliations and a list of published articles.
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15
Citations
352
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Recent Articles
1.
Park M, Hwang S, Kang H, Ha M, Park J, Park S, et al.
Cells
. 2025 Jan;
14(2).
PMID: 39851554
Endocrine-disrupting chemicals (EDCs), including phthalates, have been implicated in the development of non-alcoholic fatty liver disease (NAFLD) and hepatic fibrosis. This study investigates the age-dependent effects of butyl benzyl phthalate...
2.
Wei Y, Bhuyan P, Kwon S, Kim S, Bae Y, Singh M, et al.
Nanomicro Lett
. 2024 Jul;
16(1):248.
PMID: 39017957
The demand of high-performance thin-film-shaped deformable electromagnetic interference (EMI) shielding devices is increasing for the next generation of wearable and miniaturized soft electronics. Although highly reflective conductive materials can effectively...
3.
Kwon H, Yang Y, Kim G, Gim D, Ha M
Nanoscale
. 2024 Mar;
16(14):6778-6819.
PMID: 38502047
The field of soft intelligent robots has rapidly developed, revealing extensive potential of these robots for real-world applications. By mimicking the dexterities of organisms, robots can handle delicate objects, access...
4.
Jeon S, Lee N, Lee K, Ha M, Kim C, Kim Y, et al.
Korean J Intern Med
. 2024 Jan;
39(3):458-468.
PMID: 38287499
Background/aims: The SAMe-TT2R2 score is used for assessing anticoagulation control (AC) quality with warfarin. However, it is hard to apply SAMe-TT2R2 score in Asian patients with atrial fibrillation (AF), because...
5.
Rim M, Kang D, Kim W, Jang J, Oh M, Wi Y, et al.
ACS Nano
. 2023 Jul;
17(15):14750-14760.
PMID: 37486215
Tetrathiafulvalene (TTF)-based reactive mesogens (TTF-E and TTF-T) are synthesized, self-assembled, uniaxially oriented, and polymerized for the development of encryptable electrochromic smart windows. Electrochemical and spectroscopic experiments prove that the self-assembled...
6.
Ha M, Canon Bermudez G, Liu J, Oliveros Mata E, Evans B, Tracy J, et al.
Adv Mater
. 2021 May;
33(25):e2008751.
PMID: 33969551
Origami utilizes orchestrated transformation of soft 2D structures into complex 3D architectures, mimicking shapes and functions found in nature. In contrast to origami in nature, synthetic origami lacks the ability...
7.
Ha M, Canon Bermudez G, Kosub T, Monch I, Zabila Y, Oliveros Mata E, et al.
Adv Mater
. 2021 Feb;
33(12):e2005521.
PMID: 33533129
Highly compliant electronics, naturally conforming to human skin, represent a paradigm shift in the interplay with the surroundings. Solution-processable printing technologies are yet to be developed to comply with requirements...
8.
Um D, Lee Y, Kim T, Lim S, Lee H, Ha M, et al.
ACS Appl Mater Interfaces
. 2020 Jun;
12(28):32154-32162.
PMID: 32551519
Silver nanowire (AgNW) electrodes attract significant attention in flexible and transparent optoelectronic devices; however, high-resolution patterning of AgNW electrodes remains a considerable challenge. In this study, we have introduced a...
9.
Park J, Lee Y, Ha M, Cho S, Ko H
J Mater Chem B
. 2020 Apr;
4(18):2999-3018.
PMID: 32263040
Flexible electronic devices are regarded as one of the key technologies in wearable healthcare systems, wireless communications and smart personal electronics. For the realization of these applications, wearable energy and...
10.
Ha M, Lim S, Ko H
J Mater Chem B
. 2020 Apr;
6(24):4043-4064.
PMID: 32255149
Flexible electronic devices that are lightweight and wearable are critical for personal healthcare systems, which are not restricted by time and space. To monitor human bio-signals in a non-invasive manner,...