مقالههای دارای تعهدات انتشار عمومی - Min-Gyu Kangبیشتر بدانید
جای دیگری دردسترس نیست: ۵
Exceeding milli-watt powering magneto-mechano-electric generator for standalone-powered electronics
V Annapureddy, SM Na, GT Hwang, MG Kang, R Sriramdas, H Palneedi, ...
Energy & Environmental Science 11 (4), 818-829, 2018
تعهدات: US Department of Energy, US Department of Defense
Enhanced piezoluminescence in non-stoichiometric ZnS: Cu microparticle based light emitting elastomers
J Gan, MG Kang*, MA Meeker, GA Khodaparast, RJ Bodnar, JE Mahaney, ...
Journal of Materials Chemistry C 5 (22), 5387-5394, 2017
تعهدات: US Department of Defense
Direct growth of ferroelectric oxide thin films on polymers through laser-induced low-temperature liquid-phase crystallization
MG Kang, MS Noh, JJ Pyeon, WS Jung, HG Moon, SH Baek, S Nahm, ...
Chemistry of Materials 32 (15), 6483-6493, 2020
تعهدات: US Department of Defense
Universal multienergy harvester architecture
R Sriramdas, D Yang, MG Kang, M Sanghadasa, S Priya
ACS Applied Materials & Interfaces 13 (1), 324-331, 2020
تعهدات: US Department of Defense, US Department of Agriculture
Second harmonic generation in multiferroic BaTiO3-BiFeO3 film and nanorod arrays grown on Si substrate
RRHH Mudiyanselage, NWG Smith, BA Magill, MG Kang, S Priya, ...
Oxide-based Materials and Devices XIII 12002, 152-155, 2022
تعهدات: US Department of Defense
جای دیگری دردسترس است: ۲۸
Three-dimensional printing of piezoelectric materials with designed anisotropy and directional response
H Cui, R Hensleigh, D Yao, D Maurya, P Kumar, MG Kang, S Priya, ...
Nature materials 18 (3), 234-241, 2019
تعهدات: US National Science Foundation, US Department of Defense
Ultra-low resonant piezoelectric MEMS energy harvester with high power density
HC Song, P Kumar, D Maurya, MG Kang, WT Reynolds, DY Jeong, ...
Journal of Microelectromechanical Systems 26 (6), 1226-1234, 2017
تعهدات: US National Science Foundation, US Department of Energy, US Department of …
3D printed graphene-based self-powered strain sensors for smart tires in autonomous vehicles
D Maurya, S Khaleghian, R Sriramdas, P Kumar, RA Kishore, MG Kang, ...
Nature communications 11 (1), 5392, 2020
تعهدات: US National Science Foundation, US Department of Energy, US Department of …
Broadband dual phase energy harvester: Vibration and magnetic field
HC Song, P Kumar, R Sriramdas, H Lee, N Sharpes, MG Kang, D Maurya, ...
Applied Energy 225, 1132-1142, 2018
تعهدات: US National Science Foundation, US Department of Defense
High Power Magnetic Field Energy Harvesting through Amplified Magneto‐Mechanical Vibration
MG Kang*, R Sriramdas, H Lee, J Chun, D Maurya, GT Hwang, J Ryu, ...
Advanced Energy Materials 8 (16), 1703313, 2018
تعهدات: US National Science Foundation, US Department of Energy, US Department of …
Energy harvesting and strain sensing in smart tire for next generation autonomous vehicles
D Maurya, P Kumar, S Khaleghian, R Sriramdas, MG Kang, RA Kishore, ...
Applied energy 232, 312-322, 2018
تعهدات: US National Science Foundation, US Department of Defense, US Department of …
Decoupled phononic-electronic transport in multi-phase n-type half-Heusler nanocomposites enabling efficient high temperature power generation
HB Kang, B Poudel, W Li, H Lee, U Saparamadu, A Nozariasbmarz, ...
Materials Today 36, 63-72, 2020
تعهدات: US National Science Foundation, US Department of Defense
Lead-free piezoelectric materials and composites for high power density energy harvesting
D Maurya, M Peddigari, MG Kang, LD Geng, N Sharpes, V Annapureddy, ...
Journal of Materials Research 33 (16), 2235-2263, 2018
تعهدات: US National Science Foundation, US Department of Energy, US Department of …
Thermo-magneto-electric generator arrays for active heat recovery system
J Chun, HC Song, MG Kang, HB Kang, RA Kishore, S Priya
Scientific reports 7 (1), 41383, 2017
تعهدات: US Department of Defense
Maximizing power generation from ambient stray magnetic fields around smart infrastructures enabling self-powered wireless devices
H Lee, R Sriramdas, P Kumar, M Sanghadasa, MG Kang*, S Priya*
Energy & Environmental Science, 2020
تعهدات: US National Science Foundation, US Department of Defense
Large Power Amplification in Magneto‐Mechano‐Electric Harvesters through Distributed Forcing
R Sriramdas, MG Kang, M Meng, M Kiani, J Ryu, M Sanghadasa, S Priya
Advanced Energy Materials, 1903689, 2020
تعهدات: US National Science Foundation, US Department of Defense
Melanin–perovskite composites for photothermal conversion
K Wang, Y Hou, B Poudel, D Yang, Y Jiang, MG Kang, K Wang, C Wu, ...
Advanced Energy Materials 9 (37), 1901753, 2019
تعهدات: US Department of Defense
Energy scavenging from ultra-low temperature gradients
RA Kishore, B Davis, J Greathouse, A Hannon, DE Kennedy, A Millar, ...
Energy & Environmental Science 12 (3), 1008-1018, 2019
تعهدات: US National Science Foundation, US Department of Defense
Nanoscale Texturing and Interfaces in Compositionally Modified Ca3Co4O9 with Enhanced Thermoelectric Performance
ME Song, H Lee, MG Kang, W Li, D Maurya, B Poudel, J Wang, ...
ACS omega 3 (9), 10798-10810, 2018
تعهدات: US National Science Foundation, US Department of Defense
Soft phonon mode dynamics in Aurivillius-type structures
D Maurya, A Charkhesht, SK Nayak, FC Sun, D George, A Pramanick, ...
Physical Review B 96 (13), 134114, 2017
تعهدات: US National Science Foundation, US Department of Energy, US Department of …
اطلاعات انتشارات و تأمین بودجه بهطورخودکار توسط برنامه رایانهای تعیین میشود.