This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.
Abramzon B, Sazhin S (2005) Droplet vaporization model in the presence of thermal radiation. International Journal of Heat and Mass Transfer48(9), 1868–1873.AbramzonBSazhinS2005Droplet vaporization model in the presence of thermal radiationInternational Journal of Heat and Mass Transfer4891868187310.1016/j.ijheatmasstransfer.2004.11.017Search in Google Scholar
Agrawal A, Cho SH, Zandi O, Ghosh S, Johns RW, Milliron DJ. (2018) Localized surface plasmon resonance in semiconductor nanocrystals. Chemical Reviews118(6), 3121–3207.AgrawalAChoSHZandiOGhoshSJohnsRWMillironDJ2018Localized surface plasmon resonance in semiconductor nanocrystalsChemical Reviews11863121320710.1021/acs.chemrev.7b00613Search in Google Scholar
Anderson MS, Ewert MK, Keener JF (2018) Life support baseline values and assumptions document.AndersonMSEwertMKKeenerJF2018Life support baseline values and assumptions documentSearch in Google Scholar
Attari B, Weislogel M, Wollman A, Chen Y, Snyder T (2016) Puddle jumping: spontaneous ejection of large liquid droplets from hydrophobic surfaces during drop tower tests. Physics of Fluids28(10), 102104.AttariBWeislogelMWollmanAChenYSnyderT2016Puddle jumping: spontaneous ejection of large liquid droplets from hydrophobic surfaces during drop tower testsPhysics of Fluids281010210410.1063/1.4963686Search in Google Scholar
Avedisian CT, Koplik J (1987) Leidenfrost boiling of methanol droplets on hot porous/ceramic surfaces. International Journal of Heat and Mass Transfer30(2), 379–393.AvedisianCTKoplikJ1987Leidenfrost boiling of methanol droplets on hot porous/ceramic surfacesInternational Journal of Heat and Mass Transfer30237939310.1016/0017-9310(87)90126-8Search in Google Scholar
Bernardin JD, Stebbins CJ, Mudawar I (1997) Mapping of impact and heat transfer regimes of water drops impinging on a polished surface. International Journal of Heat and Mass Transfer40(2), 247–267.BernardinJDStebbinsCJMudawarI1997Mapping of impact and heat transfer regimes of water drops impinging on a polished surfaceInternational Journal of Heat and Mass Transfer40224726710.1016/0017-9310(96)00119-6Search in Google Scholar
Biance AL, Clanet C, Quéré D (2003) Leidenfrost drops. Physics of Fluids15(6), 1632–1637.BianceALClanetCQuéréD2003Leidenfrost dropsPhysics of Fluids1561632163710.1063/1.1572161Search in Google Scholar
Bora T, Zoepfl D, Dutta J (2016) Importance of plasmonic heating on visible light driven photocatalysis of gold nanoparticle decorated zinc oxide nanorods. Scientific Reports6, 26913.BoraTZoepflDDuttaJ2016Importance of plasmonic heating on visible light driven photocatalysis of gold nanoparticle decorated zinc oxide nanorodsScientific Reports62691310.1038/srep26913488625727242172Search in Google Scholar
Carter DL, Tobias B, Orozco NY (2013) Status of ISS water management and recovery. In 43rd International Conference on Environmental Systems (p. 3509).CarterDLTobiasBOrozcoNY2013Status of ISS water management and recoveryIn43rd International Conference on Environmental Systems350910.2514/6.2013-3509Search in Google Scholar
Carter L (2010, July) Status of the regenerative ECLS water recovery system. In 40th International Conference on Environmental Systems (p. 6216).CarterL2010JulyStatus of the regenerative ECLS water recovery systemIn40th International Conference on Environmental Systems621610.2514/6.2010-6216Search in Google Scholar
Chen H, Cheng WL, Peng YH, Jiang LJ (2018) Dynamic Leidenfrost temperature increase of impacting droplets containing high-alcohol surfactant. International Journal of Heat and Mass Transfer118, 1160–1168.ChenHChengWLPengYHJiangLJ2018Dynamic Leidenfrost temperature increase of impacting droplets containing high-alcohol surfactantInternational Journal of Heat and Mass Transfer1181160116810.1016/j.ijheatmasstransfer.2017.11.100Search in Google Scholar
Chiaramonte FP, Joshi JA (2004) Workshop on critical issues in microgravity fluids, transport, and reaction processes in advanced human support technology.ChiaramonteFPJoshiJA2004Workshop on critical issues in microgravity fluids, transport, and reaction processes in advanced human support technologySearch in Google Scholar
de Aberasturi DJ, Serrano-Montes AB, Liz-Marzán LM (2015) Modern applications of plasmonic nanoparticles: from energy to health. Advanced Optical Materials3(5), 602–617.de AberasturiDJSerrano-MontesABLiz-MarzánLM2015Modern applications of plasmonic nanoparticles: from energy to healthAdvanced Optical Materials3560261710.1002/adom.201500053Search in Google Scholar
Dongare PD, Alabastri A, Pedersen S, Zodrow KR, Hogan NJ, Neumann O, Wu J, Wang T, Deshmukh A, Elimelech M, Li Q, Nordlander P, Halas NJ (2017) Nanophotonics-enabled solar membrane distillation for off-grid water purification. Proceedings of the National Academy of Sciences114(27), 6936–6941.DongarePDAlabastriAPedersenSZodrowKRHoganNJNeumannOWuJWangTDeshmukhAElimelechMLiQNordlanderPHalasNJ2017Nanophotonics-enabled solar membrane distillation for off-grid water purificationProceedings of the National Academy of Sciences114276936694110.1073/pnas.1701835114Search in Google Scholar
Govorov AO, Zhang W, Skeini T, Richardson H, Lee J, Kotov NA (2006) Gold nanoparticle ensembles as heaters and actuators: melting and collective plasmon resonances. Nanoscale Research Letters1(1), 84.GovorovAOZhangWSkeiniTRichardsonHLeeJKotovNA2006Gold nanoparticle ensembles as heaters and actuators: melting and collective plasmon resonancesNanoscale Research Letters118410.1007/s11671-006-9015-7Search in Google Scholar
Gradeck M, Ouattara A, Maillet D, Gardin P, Lebouché M (2011) Heat transfer associated to a hot surface quenched by a jet of oil-in-water emulsion. Experimental Thermal and Fluid Science35(5), 841–847.GradeckMOuattaraAMailletDGardinPLebouchéM2011Heat transfer associated to a hot surface quenched by a jet of oil-in-water emulsionExperimental Thermal and Fluid Science35584184710.1016/j.expthermflusci.2010.07.002Search in Google Scholar
Hartwig JW (2016) A detailed historical review of propellant management devices for low gravity propellant acquisition. In 52nd AIAA/SAE/ASEE Joint Propulsion Conference, Salt Lake City, UT, July 25–27, 2016 (p. 4772).HartwigJW2016A detailed historical review of propellant management devices for low gravity propellant acquisitionIn52nd AIAA/SAE/ASEE Joint Propulsion ConferenceSalt Lake City, UTJuly 25–27, 2016477210.2514/6.2016-4772Search in Google Scholar
Hogan NJ, Urban AS, Ayala-Orozco C, Pimpinelli A, Nordlander P, Halas NJ (2014) Nanoparticles heat through light localization. Nano Letters14(8), 4640–4645.HoganNJUrbanASAyala-OrozcoCPimpinelliANordlanderPHalasNJ2014Nanoparticles heat through light localizationNano Letters1484640464510.1021/nl5016975Search in Google Scholar
Itaru M, Kunihide M (1978) Heat transfer characteristics of evaporation of a liquid droplet on heated surfaces. International Journal of Heat and Mass Transfer21(5), 605–613.ItaruMKunihideM1978Heat transfer characteristics of evaporation of a liquid droplet on heated surfacesInternational Journal of Heat and Mass Transfer21560561310.1016/0017-9310(78)90057-1Search in Google Scholar
Johnson J (2002) Jsc-19935 shuttle ops v08-waste collection system, Houston, TX.JohnsonJ2002Jsc-19935 shuttle ops v08-waste collection systemHouston, TXSearch in Google Scholar
Lee SM, Park H, Yoo KH (2010) Synergistic cancer therapeutic effects of locally delivered drug and heat using multifunctional nanoparticles. Advanced Materials22(36), 4049–4053.LeeSMParkHYooKH2010Synergistic cancer therapeutic effects of locally delivered drug and heat using multifunctional nanoparticlesAdvanced Materials22364049405310.1002/adma.201001040Search in Google Scholar
Leidenfrost JG (1756) On the fixation of water in diverse fire. Transl. C. Wares, 1966. International Journal of Heat and Mass Transfer9, 1153–1166.LeidenfrostJG1756On the fixation of water in diverse fire. Transl. C. Wares, 1966International Journal of Heat and Mass Transfer91153116610.1016/0017-9310(66)90111-6Search in Google Scholar
Levri JA, Vaccari DA, Drysdale AE (2000) Theory and Application of the Equivalent System Mass Metric (No. 2000-01-2395). SAE Technical Paper.LevriJAVaccariDADrysdaleAE2000Theory and Application of the Equivalent System Mass Metric(No. 2000-01-2395).SAE Technical Paper10.4271/2000-01-2395Search in Google Scholar
Lima E, Guerra R, Lara V, Guzmán A (2013) Gold nanoparticles as efficient antimicrobial agents for Escherichia coli and Salmonella typhi. Chemistry Central Journal7(1), 11.LimaEGuerraRLaraVGuzmánA2013Gold nanoparticles as efficient antimicrobial agents for Escherichia coli and Salmonella typhiChemistry Central Journal711110.1186/1752-153X-7-11Search in Google Scholar
Maquet L, Brandenbourger M, Sobac B, Biance AL, Colinet P, Dorbolo S (2015) Leidenfrost drops: effect of gravity. EPL (Europhysics Letters)110(2), 24001.MaquetLBrandenbourgerMSobacBBianceALColinetPDorboloS2015Leidenfrost drops: effect of gravityEPL (Europhysics Letters)11022400110.1209/0295-5075/110/24001Search in Google Scholar
Neumann O, Urban AS, Day J, Lal S, Nordlander P, Halas NJ. (2012). Solar vapor generation enabled by nanoparticles. ACS Nano7(1), 42–49.NeumannOUrbanASDayJLalSNordlanderPHalasNJ2012Solar vapor generation enabled by nanoparticlesACS Nano71424910.1021/nn304948hSearch in Google Scholar
Niikura K, Iyo N, Matsuo Y, Mitomo H, Ijiro K (2013) Sub-100 nm gold nanoparticle vesicles as a drug delivery carrier enabling rapid drug release upon light irradiation. ACS Applied Materials & Interfaces5(9), 3900–3907.NiikuraKIyoNMatsuoYMitomoHIjiroK2013Sub-100 nm gold nanoparticle vesicles as a drug delivery carrier enabling rapid drug release upon light irradiationACS Applied Materials & Interfaces593900390710.1021/am400590mSearch in Google Scholar
Orzechowski T, Wciślik S. (2014) Analysis of D2-law in case of Leidenfrost drop evaporation. Experimental Thermal and Fluid Science59, 230–237.OrzechowskiTWciślikS2014Analysis of D2-law in case of Leidenfrost drop evaporationExperimental Thermal and Fluid Science5923023710.1016/j.expthermflusci.2014.04.015Search in Google Scholar
Pattani VP, Tunnell JW (2012) Nanoparticle-mediated photothermal therapy: a comparative study of heating for different particle types. Lasers in Surgery and Medicine44(8), 675–684.PattaniVPTunnellJW2012Nanoparticle-mediated photothermal therapy: a comparative study of heating for different particle typesLasers in Surgery and Medicine44867568410.1002/lsm.22072Search in Google Scholar
Pruitt JM, Carter L, Bagdigian RM, Kayatin MJ (2015, July) Upgrades to the ISS water recovery system. In 45th International Conference on Environmental Systems, Bellevue, Washington, July 12–16, 2015.PruittJMCarterLBagdigianRMKayatinMJ2015JulyUpgrades to the ISS water recovery systemIn45th International Conference on Environmental SystemsBellevue, WashingtonJuly 12–16, 2015Search in Google Scholar
Ramadhyani S, Moffatt DF, Incropera FP (1985) Conjugate heat transfer from small isothermal heat sources embedded in a large substrate. International Journal of Heat and Mass Transfer28(10), 1945–1952.RamadhyaniSMoffattDFIncroperaFP1985Conjugate heat transfer from small isothermal heat sources embedded in a large substrateInternational Journal of Heat and Mass Transfer28101945195210.1016/0017-9310(85)90216-9Search in Google Scholar
Rasheed, R. M. (2019). Non-contact Distillation (Masters thesis, Portland State University).RasheedR. M.2019Non-contact DistillationMasters thesis,Portland State UniversitySearch in Google Scholar
Rasheed RM, Weislogel MM (2019a) The unrealized potential of superhydrophobic substrates in advanced life support systems. In 49th International Conference on Environmental Systems, Boston, Massachusetts, July 7–11, 2019, #224.RasheedRMWeislogelMM2019aThe unrealized potential of superhydrophobic substrates in advanced life support systemsIn49th International Conference on Environmental SystemsBoston, MassachusettsJuly 7–11, 2019#224Search in Google Scholar
Rasheed RM, Weislogel MM (2019b) On-demand non-contact distillation: low-g demonstrations of a Leidenfrost wastewater processor. In 49th International Conference on Environmental Systems, Boston, Massachusetts, July 7–11, 2019, #222.RasheedRMWeislogelMM2019bOn-demand non-contact distillation: low-g demonstrations of a Leidenfrost wastewater processorIn49th International Conference on Environmental SystemsBoston, MassachusettsJuly 7–11, 2019#222.Search in Google Scholar
Ravishankar Rai V & Jamuna Bai A (2011) Nanoparticles and their potential application as antimicrobials. A Méndez-Vilas A, editor. Mysore: Formatex.Ravishankar RaiVJamuna BaiA2011Nanoparticles and their potential application as antimicrobialsA Méndez-VilasAeditor.MysoreFormatexSearch in Google Scholar
Rein M (2002) Interactions between drops and hot surfaces. In Drop-Surface Interactions (pp. 185–217). Vienna: Springer.ReinM2002Interactions between drops and hot surfacesInDrop-Surface Interactions185217ViennaSpringer10.1007/978-3-7091-2594-6_6Search in Google Scholar
Richardson HH, Carlson MT, Tandler PJ, Hernandez P, Govorov AO (2009) Experimental and theoretical studies of light-to-heat conversion and collective heating effects in metal nanoparticle solutions. Nano Letters9(3), 1139–1146.RichardsonHHCarlsonMTTandlerPJHernandezPGovorovAO2009Experimental and theoretical studies of light-to-heat conversion and collective heating effects in metal nanoparticle solutionsNano Letters931139114610.1021/nl8036905266949719193041Search in Google Scholar
Sazhin SS, Krutitskii PA, Gusev IG, Heikal MR (2010) Transient heating of an evaporating droplet. International Journal of Heat and Mass Transfer53(13–14), 2826–2836.SazhinSSKrutitskiiPAGusevIGHeikalMR2010Transient heating of an evaporating dropletInternational Journal of Heat and Mass Transfer5313–142826283610.1016/j.ijheatmasstransfer.2010.02.015Search in Google Scholar
Stamey TA, Mihara G (1980) Observations on the growth of urethral and vaginal bacteria in sterile urine. The Journal of Urology124(4), 461–463.StameyTAMiharaG1980Observations on the growth of urethral and vaginal bacteria in sterile urineThe Journal of Urology124446146310.1016/S0022-5347(17)55496-8Search in Google Scholar
Tarozzi L, Muscio A, Tartarini P (2007) Experimental tests of dropwise cooling on infrared-transparent media. Experimental Thermal and Fluid Science31(8), 857–865.TarozziLMuscioATartariniP2007Experimental tests of dropwise cooling on infrared-transparent mediaExperimental Thermal and Fluid Science31885786510.1016/j.expthermflusci.2006.09.005Search in Google Scholar
Thomas E, Muirhead D (2009) Impact of wastewater fouling on contact angle. Biofouling25(5), 445–454.ThomasEMuirheadD2009Impact of wastewater fouling on contact angleBiofouling25544545410.1080/0892701090287510519340653Search in Google Scholar
Thomas EA, Weislogel MM, Klaus DM (2010) Design considerations for sustainable spacecraft water management systems. Advances in Space Research46(6), 761–767.ThomasEAWeislogelMMKlausDM2010Design considerations for sustainable spacecraft water management systemsAdvances in Space Research46676176710.1016/j.asr.2010.04.005Search in Google Scholar
Vakarelski IU, Patankar NA, Marston JO, Chan DY, Thoroddsen ST (2012) Stabilization of Leidenfrost vapour layer by textured superhydrophobic surfaces. Nature489(7415), 274.VakarelskiIUPatankarNAMarstonJOChanDYThoroddsenST2012Stabilization of Leidenfrost vapour layer by textured superhydrophobic surfacesNature489741527410.1038/nature1141822972299Search in Google Scholar
Weislogel MM, Thomas EA, Graf JC (2009) A novel device addressing design challenges for passive fluid phase separations aboard spacecraft. Microgravity Science and Technology21(3), 257.WeislogelMMThomasEAGrafJC2009A novel device addressing design challenges for passive fluid phase separations aboard spacecraftMicrogravity Science and Technology21325710.1007/s12217-008-9091-7Search in Google Scholar
Weislogel MM, Thomas EA, Graf JC (2011) U.S. Patent No. 7,905,946. Washington, DC: U.S. Patent and Trademark Office.WeislogelMMThomasEAGrafJC2011U.S. Patent No. 7,905,946Washington, DCU.S. Patent and Trademark OfficeSearch in Google Scholar
Wollman A, Weislogel M, Wiles B, Pettit D, Snyder T (2016) More investigations in capillary fluidics using a drop tower. Experiments in Fluids57(4), 57.WollmanAWeislogelMWilesBPettitDSnyderT2016More investigations in capillary fluidics using a drop towerExperiments in Fluids5745710.1007/s00348-016-2138-4Search in Google Scholar
Wong WC, Dudinsky LA, Garcia VM, Ott CM, Castro VA (2010) Efficacy of various chemical disinfectants on biofilms formed in spacecraft potable water system components. Biofouling26(5), 583–586.WongWCDudinskyLAGarciaVMOttCMCastroVA2010Efficacy of various chemical disinfectants on biofilms formed in spacecraft potable water system componentsBiofouling26558358610.1080/08927014.2010.49577220544435Search in Google Scholar
Wu G, Sirignano WA (2011) Transient convective burning of interactive fuel droplets in double-layer arrays. Combustion and Flame158(12), 2395–2407.WuGSirignanoWA2011Transient convective burning of interactive fuel droplets in double-layer arraysCombustion and Flame158122395240710.1016/j.combustflame.2011.04.011Search in Google Scholar
Zhang Y, Gu C, Schwartzberg AM, Chen S, Zhang JZ (2006) Optical trapping and light-induced agglomeration of gold nanoparticle aggregates. Physical Review B73(16), 165405.ZhangYGuCSchwartzbergAMChenSZhangJZ2006Optical trapping and light-induced agglomeration of gold nanoparticle aggregatesPhysical Review B731616540510.1103/PhysRevB.73.165405Search in Google Scholar
Zhang Z, Wang J, Chen C (2013) Near-infrared light-mediated nanoplatforms for cancer thermo-chemotherapy and optical imaging. Advanced Materials25(28), 3869–3880.ZhangZWangJChenC2013Near-infrared light-mediated nanoplatforms for cancer thermo-chemotherapy and optical imagingAdvanced Materials25283869388010.1002/adma.20130189024048973Search in Google Scholar
