@incollection{, 11D33D61DB83772E98A0A7E023499811 , author={{Sergio Roberto AndradeDantas} and {FulvioVittorino} and {KaiLoh} and {Polytechnic School of São Paulo University}}, journal={{Global Journal of Researches in Engineering}}, journal={{GJRE}}2249-45960975-586110.34257/gjre, address={Cambridge, United States}, publisher={Global Journals Organisation}192113 } @incollection{b0, , title={{Solar spectral optical properties of pigments -Part II: Survey of common colorants}} , author={{ RLevinson } and { PBerdahl } and { HAkbari }} , journal={{Sol. Energy Mater. Sol. Cells}} 89 , year={2005} } @incollection{b1, , title={{On the development, optical properties and thermal performance of cool colored coatings for the urban environment}} , author={{ MSynnefa } and { KSantamouris } and { Apostolakis }} , journal={{Sol. Energy}} 81 , year={2007} } @incollection{b2, , title={{NIR-reflecting properties of new paints for energy-efficient buildings}} , author={{ ESCozza } and { MAlloisio } and { AComite } and { GDiTanna } and { SVicini }} , journal={{Sol. Energy}} 116 , year={2015} } @incollection{b3, , title={{Analysis of retro-reflective surfaces for urban heat island mitigation: A new analytical model}} , author={{ FRossi } and { ALPisello } and { ANicolini } and { MFilipponi } and { MPalombo }} , journal={{Appl. Energy}} 114 , year={2014} } @incollection{b4, , title={{Retro reflective facades for urban heat island mitigation: Experimental investigation and energy evaluations}} , author={{ FRossi }} , journal={{Appl. Energy}} 145 , year={2015} } @incollection{b5, , title={{Summer and winter effect of innovative cool roof tiles on the dynamic thermal behavior of buildings}} , author={{ LPisello } and { FRossi } and { FCotana }} , journal={{Energies}} 7 , year={2014} } @incollection{b6, , title={{Cool and green roofs. An energy and comfort comparison between passive cooling and mitigation urban heat island techniques for residential buildings in the Mediterranean region}} , author={{ MZinzi } and { SAgnoli }} , journal={{Energy Build}} 55 , year={2012} } @incollection{b7, , title={{Measured temperature reductions and energy savings from a cool tile roof on a central California home}} , author={{ PJRosado } and { DFaulkner } and { DPSullivan } and { RLevinson }} , journal={{Energy Build}} 80 , year={2014} } @incollection{b8, , title={{Cooling the cities -A review of reflective and green roof mitigation technologies to fight heat island and improve comfort in urban environments}} , author={{ MSantamouris }} , journal={{Sol. Energy}} 103 , year={2014} } @incollection{b9, , title={{The initial conditions in terms of its reflectance to solar radiation}} , author={{ SR ADantas } and { FVittorino } and { KLoh }} , journal={{Ambiente Construído}} 17 , year={2017} } @book{b10, , title={{Reflectance study and its influence on the thermal behavior of corresponding reflective and conventional coloring inks. Dissertation (Master's in science)}} , author={{ PIkematsu }} , year={2007} 134 São Paulo University , note={in Portuguese} } @book{b11, , title={{Photocatalytic and self-cleaning activity Mater}} , author={{ MVDiamanti } and { BCurto } and { MOrmellese } and { MPPedeferri }} , year={2013} 46 } @incollection{b12, , title={{The performance of a self-cleaning cool cementitious surface}} , author={{ PWerle } and { MLSouza } and { KLoh } and { RAndo } and { VMJohn }} , journal={{Energy Build}} 114 , year={2016} } @incollection{b13, , title={{Titanium dioxide photocatalysis}} , author={{ TNFujishima } and { DARao } and { Tryk }} , journal={{J. Photochem. Photobiol. C Photochem. Rev}} 1 , year={2000} } @book{b14, , title={{Photo-Catalytic Construction Materials and Reduction in Air Pollutants}} , author={{ MDGurol }} , year={2006} } @book{b15, , title={{Code 001 for their financial support; and the Cristal Pigmentos do Brasil and the Ibratin Industria e Comércio Ltda for provision of the necessary materials}} } @incollection{b16, , title={{Methods of creating solarreflective non white surfaces and their application to residential roofing materials}} , author={{ RLevinson }} , journal={{Sol. Energy Mater. Sol. Cells}} 91 , year={2007} } @incollection{b17, , title={{Potential benefits of cool roofs on commercial buildings: Conserving energy, saving money, and reducing emission of green house gases and air pollutants}} , author={{ RLevinson } and { HAkbari }} , journal={{Energy Effic}} 3 , year={2010} } @incollection{b18, , title={{Long term self-cleaning and photocatalytic performance of anatase added mortars exposed to the urban environment}} , author={{ MVDiamanti }} , journal={{Constr. Build. Mater}} 96 , year={2015} } @incollection{b19, , title={{White Cement for Architectural Concrete, Possessing Photocatalytic Properties}} , author={{ LCassar } and { CPepe } and { GTognon } and { GLGuerrini } and { RAmadelli }} , journal={{Congr. Chem. Cem}} , year={2003} , note={11th Int} } @incollection{b20, , title={{NO removal efficiency of photocatalytic paving blocks prepared with recycled materials}} , author={{ SPoon } and { ECheung }} , journal={{Constr. Build. Mater}} 21 , year={2007} } @incollection{b21, , title={{Characterization of photocatalytic and superhydrophilic properties of mortars containing titanium dioxide}} , author={{ MVDiamanti } and { MOrmellese } and { MPedeferri }} , journal={{Cem. Concr. Res}} 38 , year={2008} } @incollection{b22, , title={{Photocatalytic construction and building materials: From fundamentals to applications}} , author={{ JChen } and { CSun Poon }} , journal={{Build. Environ}} 44 , year={2009} } @incollection{b23, , title={{photocatalysis in cementitious systems: Insights into self-cleaning and depollution TiO 2 effectiveness of TiO 2 additions to mortar to maintain of colored mortars containing TiO 2}} , author={{ CFolli } and { TBPade } and { THansen } and { DEMarco } and { Mac Phee }} , journal={{Constr. Build}} } @incollection{b24, , title={{Immobilized TiO 2 photocatalyst during long-term use: Decrease of its activity}} , author={{ KV SRao } and { MSubrahmanyam } and { PBoule }} , journal={{Appl. Catal. B Environ}} 49 , year={2004. 2012} , note={Cem. Concr. Res.} } @incollection{b25, , title={{Influence of the nano dispersion procedure on fresh and hardened rendering mortar properties}} , author={{ SR ADantas } and { RSerafini } and { RC } and { ORomano } and { FVittorino } and { KLoh }} , journal={{Constr. Build. Mater}} 215 , year={2019} } @incollection{b26, , title={{Standard Test Method for Measuring Solar Reflectance of Horizontal and Low-Sloped Surfaces in the Field}} ASTM E1918-16 , journal={{ASTM Int}} , year={2016} } @book{b27, , title={{Method for measuring solar optical properties of materials, procedure E}} ANSI/ASHRAE 74 , year={1988} } @incollection{b28, , title={{Standard Practice for Calculation of Color Tolerances and Color Differences from Instrumentally Measured Color Coordinates}} ASTM D2244-16 , journal={{ASTM Int}} 12 , year={2016} } @book{b29, , title={{The efficacy of TiO? addition to mortars in maintaining the initial conditions in terms of their reflectance to solar radiation. 2016. 137 f. Dissertation (Professional Master's Degree) -Housing Course: Planning, Management and Project}} , author={{ SR ADantas }} , year={2016} , address={São Paulo} Technological Research Institute of the State of São Paulo -IPT , note={In Portuguese} } @incollection{b30, , title={{Incorporation of titanium dioxide nanoparticles in mortars -Influence of microstructure in the hardened state properties and photocatalytic activity}} , author={{ SSLucas } and { VMFerreira } and { JL BDe Aguiar }} , journal={{Cem. Concr. Res}} 43 , year={2013} } @incollection{b31, , title={{Photocatalytic degradation of particulate pollutants and self-cleaning performance of -containing silicate coating and mortar}} , author={{ PKrishnan } and { MHZhang } and { LYu } and { HFeng }} , journal={{Constr. Build. Mater}} 44 , year={2013} }