Effect of surface wettability on boiling and evaporation Y Takata, S Hidaka, JM Cao, T Nakamura, H Yamamoto, M Masuda, T Ito Energy 30 (2-4), 209-220, 2005 | 359 | 2005 |
Pool boiling on a superhydrophilic surface Y Takata, S Hidaka, M Masuda, T Ito International Journal of Energy Research 27 (2), 111-119, 2003 | 312 | 2003 |
Thermal conductivity enhancement of lauric acid phase change nanocomposite with graphene nanoplatelets S Harish, D Orejon, Y Takata, M Kohno Applied thermal engineering 80, 205-211, 2015 | 250 | 2015 |
Heat transfer through a condensate droplet on hydrophobic and nanostructured superhydrophobic surfaces S Chavan, H Cha, D Orejon, K Nawaz, N Singla, YF Yeung, D Park, ... Langmuir 32 (31), 7774-7787, 2016 | 179 | 2016 |
Boiling feature on a super water-repellent surface Y Takata, S Hidaka, T Uraguchi Heat transfer engineering 27 (8), 25-30, 2006 | 133 | 2006 |
Development of a 22 kV/6.9 kV single-phase model for a 3 MVA HTS power transformer K Funaki, M Iwakuma, K Kajikawa, M Hara, J Suchiro, T Ito, Y Takata, ... IEEE transactions on applied superconductivity 11 (1), 1578-1581, 2001 | 119 | 2001 |
Experimental and analytical investigation of liquid sheet breakup characteristics ESR Negeed, S Hidaka, M Kohno, Y Takata International Journal of Heat and Fluid Flow 32 (1), 95-106, 2011 | 114 | 2011 |
Effect of ambient temperature and relative humidity on interfacial temperature during early stages of drop evaporation Y Fukatani, D Orejon, Y Kita, Y Takata, J Kim, K Sefiane Physical Review E 93 (4), 043103, 2016 | 97 | 2016 |
Wetting and evaporation of multicomponent droplets Z Wang, D Orejon, Y Takata, K Sefiane Physics Reports 960, 1-37, 2022 | 94 | 2022 |
Enhanced coalescence-induced droplet-jumping on nanostructured superhydrophobic surfaces in the absence of microstructures P Zhang, Y Maeda, F Lv, Y Takata, D Orejon ACS applied materials & interfaces 9 (40), 35391-35403, 2017 | 88 | 2017 |
Evaporation of water drop on a plasma-irradiated hydrophilic surface Y Takata, S Hidaka, A Yamashita, H Yamamoto International journal of heat and fluid flow 25 (2), 320-328, 2004 | 85 | 2004 |
Correlation of the Thermal Conductivity of Normal and Parahydrogen from the Triple Point to 1000 K and up to 100 MPa MJ Assael, ML Huber, RA Perkins, Y Takata Journal of Physical and Chemical Reference Data 40 (3), 2011 | 81 | 2011 |
Thermal patterns and hydrothermal waves (HTWs) in volatile drops K Sefiane, Y Fukatani, Y Takata, J Kim Langmuir 29 (31), 9750-9760, 2013 | 72 | 2013 |
Enhanced thermal conductivity of phase change nanocomposite in solid and liquid state with various carbon nano inclusions S Harish, D Orejon, Y Takata, M Kohno Applied Thermal Engineering 114, 1240-1246, 2017 | 71 | 2017 |
Thermal conductivity enhancement of lauric acid phase change nanocomposite in solid and liquid state with single-walled carbon nanohorn inclusions S Harish, D Orejon, Y Takata, M Kohno Thermochimica Acta 600, 1-6, 2015 | 71 | 2015 |
Gladiolus dalenii Based Bioinspired Structured Surface via Soft Lithography and Its Application in Water Vapor Condensation and Fog Harvesting V Sharma, D Orejon, Y Takata, V Krishnan, S Harish Acs sustainable chemistry & engineering 6 (5), 6981-6993, 2018 | 69 | 2018 |
Dropwise condensation on multiscale bioinspired metallic surfaces with nanofeatures D Orejon, A Askounis, Y Takata, D Attinger ACS applied materials & interfaces 11 (27), 24735-24750, 2019 | 68 | 2019 |
Simultaneous dropwise and filmwise condensation on hydrophilic microstructured surfaces D Orejon, O Shardt, NSK Gunda, T Ikuta, K Takahashi, Y Takata, SK Mitra International Journal of Heat and Mass Transfer 114, 187-197, 2017 | 66 | 2017 |
Enhanced pool boiling of ethanol on wettability-patterned surfaces B Shen, T Hamazaki, W Ma, N Iwata, S Hidaka, A Takahara, K Takahashi, ... Applied thermal engineering 149, 325-331, 2019 | 65 | 2019 |
Droplet nucleation on a well-defined hydrophilic–hydrophobic surface of 10 nm order resolution Y Yamada, T Ikuta, T Nishiyama, K Takahashi, Y Takata Langmuir 30 (48), 14532-14537, 2014 | 62 | 2014 |