[1] Planck M[J]. The Theory of Thermal Radiation(1914).

[2] Polder D, Van Hove M[J]. Phys. Rev. B, 4, 3303(1971).

[3] Cuevas J C, García-Vidal F J[J]. ACS Photonics, 5, 3896(2018).

[4] Basu S, Zhang Z M, Fu C J[J]. Int. J. Energy Res., 33, 1203(2009).

[5] Schuller J A, Taubner T, Brongersma M L[J]. Nat. Photonics, 3, 658(2009).

[6] Zhao B, Chen K, Buddhiraju S, Bhatt G, Lipson M, Fan S[J]. Nano Energy, 41, 344(2017).

[7] Hossain M M, Gu M[J]. Adv. Sci., 3, 1500360(2016).

[8] Eriksson T S, Granqvist C G[J]. Appl. Opt., 21, 4381(1982).

[9] [J].

[10] Joulain K, Mulet J P, Marquier F, Carminati R, Greffet J J[J]. Surf. Sci. Rep., 57, 59(2005).

[11] Otey C R, Zhu L, Sandhu S, Fan S[J]. J. Quant. Spectrosc. Radiat. Transfer, 132, 3(2014).

[12] Xu H, Aizpurua J, Käll M, Apell P[J]. Phys. Rev. E, 62, 4318(2000).

[13] Chen W, Zhang S, Kang M, Liu W, Ou Z, Li Y, Zhang Y, Guan Z, Xu H[J]. Light Sci. Appl., 7, 56(2018).

[14] Xu H X, Bjerneld E J, Kall M, Borjesson L[J]. Phys. Rev. Lett., 83, 4357(1999).

[15] Chen W, Zhang S, Deng Q, Xu H[J]. Nat. Commun., 9, 801(2018).

[16] Sun J, Hu H, Zheng D, Zhang D, Deng Q, Zhang S, Xu H[J]. ACS Nano, 12, 10393(2018).

[17] Hargreaves C M[J]. Phys. Lett. A, 30, 491(1969).

[18] Domoto G A, Boehm R F, Tien C L[J]. J. Heat Transfer, 92, 412(1970).

[19] Hu L, Narayanaswamy A, Chen X Y, Chen G[J]. Appl. Phys. Lett., 92, 133106(2008).

[20] Ottens R S, Quetschke V, Wise S, Alemi A A, Lundock R, Mueller G, Reitze D H, Tanner D B, Whiting B F[J]. Phys. Rev. Lett., 107, 014301(2011).

[21] Kralik T, Hanzelka P, Zobac M, Musilova V, Fort T, Horak M[J]. Phys. Rev. Lett., 109, 224302(2012).

[22] Williams C C, Wickramasinghe H K[J]. Microelectron. Eng., 5, 509(1986).

[23] Dransfeld K, Xu J[J]. J. Microsc., 152, 35(1988).

[24] Shen S, Narayanaswamy A, Chen G[J]. Nano Lett., 9, 2909(2009).

[25] de Wilde Y, Formanek F, Carminati R, Gralak B, Lemoine P A, Joulain K, Mulet J P, Chen Y, Greffet J J[J]. Nature, 444, 740(2006).

[26] Kittel A, Müller-Hirsch W, Parisi J, Biehs S A, Reddig D, Holthaus M[J]. Phys. Rev. Lett., 95, 224301(2005).

[27] Kim K, Song B, Fernández-Hurtado V, Lee W, Jeong W, Cui L, Thompson D, Feist J, Reid M T H, Garcia-Vidal F J, Cuevas J C, Meyhofer E, Reddy P[J]. Nature, 528, 387(2015).

[28] Ilic O, Jablan M, Joannopoulos J D, Celanovic I, Buljan H, Soljačić M[J]. Phys. Rev. B, 85, 155422(2012).

[29] Principi A, Lundeberg M B, Hesp N C H, Tielrooij K-J, Koppens F H L, Polini M[J]. Phys. Rev. Lett., 118, 126804(2017).

[30] Woessner A, Lundeberg M B, Gao Y, Principi A, Alonso-González P, Carrega M, Watanabe K, Taniguchi T, Vignale G, Polini M, Hone J, Hillenbrand R, Koppens F H L[J]. Nat. Mater., 14, 421(2015).

[31] Dai S, Ma Q, Liu M K, Andersen T, Fei Z, Goldflam M D, Wagner M, Watanabe K, Taniguchi T, Thiemens M, Keilmann F, , Zhu S E, Jarillo-Herrero P, Fogler M M, Basov D N[J]. Nat. Nanotechnol., 10, 682(2015).

[32] Tielrooij K-J, Hesp N C H, Principi A, Lundeberg M B, Pogna E A A, Banszerus L, Mics Z, Massicotte M, Schmidt P, Davydovskaya D, Purdie D G, Goykhman I, Soavi G, Lombardo A, Watanabe K, Taniguchi T, Bonn M, Turchinovich D, Stampfer C, Ferrari A C, Cerullo G, Polini M, Koppens F H L[J]. Nat. Nanotechnol., 13, 41(2018).

[33] Yu R, Manjavacas A, [J]. Nat. Commun., 8, 2(2017).

[34] Brar V W, Sherrott M C, Jang M S, Kim S, Kim L, Choi M, Sweatlock L A, Atwater H A[J]. Nat. Commun., 6, 7032(2015).

[35] Laroche M, Marquier F, Carminati R, Greffet J J[J]. Opt. Commun., 250, 316(2005).

[36] Fernández-Hurtado V, Fernández-Domínguez A I, Feist J, García-Vidal F J, Cuevas J C[J]. Phys. Rev. B, 97, 045408(2018).

[37] Thompson D, Zhu L, Mittapally R, Sadat S, Xing Z, McArdle P, Qazilbash M M, Reddy P, Meyhofer E[J]. Nature, 561, 216(2018).

[38] Zeyghami M, Goswami D Y, Stefanakos E[J]. Sol. Energy Mater. Sol. Cells, 178, 115(2018).

[39] Harrison A W, Walton M R[J]. Sol. Energy, 20, 185(1978).

[40] Addeo A, Nicolais L, Romeo G, Bartoli B, Coluzzi B, Silvestrini V[J]. Sol. Energy, 24, 93(1980).

[41] Catalanotti S, Cuomo V, Piro G, Ruggi D, Silvestrini V, Troise G[J]. Sol. Energy, 17, 83(1975).

[42] Suryawanshi C N, Lin C-T[J]. ACS Appl. Mater. Interfaces, 1, 1334(2009).

[43] Bartoli B, Catalanotti S, Coluzzi B, Cuomo V, Silvestrini V, Troise G[J]. Appl. Energy, 3, 267(1977).

[44] Orel B, Gunde M K, Krainer A[J]. Sol. Energy, 50, 477(1993).

[45] Ono M, Chen K, Li W, Fan S[J]. Opt. Express, 26, A777(2018).

[46] Rephaeli E, Raman A, Fan S[J]. Nano Lett., 13, 1457(2013).

[47] Raman A P, Anoma M A, Zhu L, Rephaeli E, Fan S[J]. Nature, 515, 540(2014).

[48] Hossain M M, Jia B, Gu M[J]. Adv. Opt. Mater., 3, 1047(2015).

[49] Kou J-l, Jurado Z, Chen Z, Fan S, Minnich A J[J]. ACS Photonics, 4, 626(2017).

[50] Zhai Y, Ma Y, David S N, Zhao D, Lou R, Tan G, Yang R, Yin X[J]. Science, 355, 1062(2017).

[51] Mandal J, Fu Y, Overvig A C, Jia M, Sun K, Shi N N, Zhou H, Xiao X, Yu N, Yang Y[J]. Science, 362, 315(2018).

[52] International Energy Agency[J]. The Future of Cooling,Opportunities for Energy-Efficient Air Conditioning(2018).

[53] Kavita A V[J]. Benefits of Water-Cooled Systems vs. Air-Cooled Systems for Air-Conditioning Applications(2018).

[54] Goldstein E A, Raman A P, Fan S[J]. Nat. Energy, 2, 17143(2017).

[55] Ezekwe C I[J]. Energy Convers. Manage., 30, 403(1990).

[56] Zhao D, Aili A, Zhai Y, Lu J, Kidd D, Tan G, Yin X, Yang R[J]. Joule, 3, 111(2019).

[57] Tong J K, Huang X, Boriskina S V, Loomis J, Xu Y, Chen G[J]. ACS Photonics, 2, 769(2015).

[58] Hsu P C, Song A Y, Catrysse P B, Liu C, Peng Y, Xie J, Fan S, Cui Y[J]. Science, 353, 1019(2016).

[59] Cai L, Song A Y, Li W, Hsu P-C, Lin D, Catrysse P B, Liu Y, Peng Y, Chen J, Wang H, Xu J, Yang A, Fan S, Cui Y[J]. Adv. Mater., 30, 1802152(2018).

[60] Peng Y, Chen J, Song A Y, Catrysse P B, Hsu P C, Cai L, Liu B, Zhu Y, Zhou G, Wu D S, Lee H R, Fan S, Cui Y[J]. Nat. Sustainability, 1, 105(2018).

[61] Lee G J, Kim Y J, Kim H M, Yoo Y J, Song Y M[J]. Adv. Opt. Mater., 6, 1800707(2018).

[62] Wiki [J]. https://en.wikipedia.org/wiki/Water_supply_and_sanitation_in_Israel

[63] Shannon M A, Bohn P W, Elimelech M, Georgiadis J G, Mariñas B J, Mayes A M[J]. Nature, 452, 301(2008).

[64] Elimelech M, Phillip W A[J]. Science, 333, 712(2011).

[65] Monteith J L[J]. Q. J. R. Meteorol. Soc., 83, 322(1957).

[66] Beysens D, Milimouk I, Nikolayev V, Muselli M, Marcillat J[J]. J. Hydrol., 276, 1(2003).

[67] Maestre-Valero J F, Martínez-Alvarez V, Baille A, Martín-Górriz B, Gallego-Elvira B[J]. J. Hydrol., 410, 84(2011).

[68] Guadarrama-Cetina J, Mongruel A, Medici M G, Baquero E, Parker A R, Milimouk-Melnytchuk I, González-Viñas W, Beysens D[J]. Eur. Phys. J. E, 37, 109(2014).

[69] Benlattar M, Laatioui S, Oualim E M, Mazroui M, Mouhsen A, Harmouchi M[J]. Results in Physics, 7, 1959(2017).

[70] Zhou M, Song H, Xu X, Shahsafi A, Xia Z, Ma Z, Kats M, Zhu J, Ooi B S, Gan Q, Yu Z[J]. Proc. SPIE, 11121, 1112107(2019).

[71] Zhu L, Raman A, Wang K X, Anoma M A, Fan S[J]. Optica, 1, 32(2014).

[72] Zhu L, Raman A P, Fan S[J]. Proc. Natl. Acad. Sci. U.S.A., 112, 12282(2015).

[73] Li W, Shi Y, Chen K, Zhu L, Fan S[J]. ACS Photonics, 4, 774(2017).

[74] Gentle A R, Smith G B[J]. Sol. Energy Mater. Sol. Cells, 150, 39(2016).