| 1 |
Comparative study of solid oxide fuel cell-combined heat and power system designs for optimal thermal integration
Park YJ, Min G, Hong J
Energy Conversion and Management, 182, 351, 2019 |
| 2 |
Impedance spectroscopy for assessment of thermoelectric module properties under a practical operating temperature
Yoo CY, Kim Y, Hwang J, Yoon H, Cho BJ, Min G, Park SH
Energy, 152, 834, 2018 |
| 3 |
Key factors affecting the water production in a thermoelectric distillation system
Al-Madhhachi H, Min G
Energy Conversion and Management, 165, 459, 2018 |
| 4 |
Effective use of thermal energy at both hot and cold side of thermoelectric module for developing efficient thermoelectric water distillation system
A-Madhhachi H, Min G
Energy Conversion and Management, 133, 14, 2017 |
| 5 |
Enhanced performance thermoelectric module having asymmetrical legs
Fabian-Mijarigos A, Min G, Alvarez-Quintana J
Energy Conversion and Management, 148, 1372, 2017 |
| 6 |
Development and investigation of a non-catalytic self-aspirating meso-scale premixed burner integrated thermoelectric power generator
Singh T, Marsh R, Min G
Energy Conversion and Management, 117, 431, 2016 |
| 7 |
Model for geometry optimisation of thermoelectric devices in a hybrid PV/TE system
Hashim H, Bomphrey JJ, Min G
Renewable Energy, 87, 458, 2016 |
| 8 |
Issues of contact etching and pre-treatment in Schottky contact
Lee H, Shin K, Cho N, Min G, Kang C, Han W, Moon J
Thin Solid Films, 517(14), 3844, 2009 |
| 9 |
An "anti-Baldwin" 3-exo-dig cyclization: Preparation of vinylidene cyclopropanes from electron-poor alkenes
Campbell MJ, Pohlhaus PD, Min G, Ohmatsu K, Johnson JS
Journal of the American Chemical Society, 130(29), 9180, 2008 |
| 10 |
Conversion efficiency of thermoelectric combustion systems
Min G, Rowe DM
IEEE Transactions on Energy Conversion, 22(2), 528, 2007 |
