This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
de Brito J, Kurda R. The past and future of sustainable concrete: a critical review and new strategies on cement-based materials. J Clean Prod. 2021;281: 123558.de BritoJKurdaRThe past and future of sustainable concrete: a critical review and new strategies on cement-based materialsJ Clean Prod2021281123558Search in Google Scholar
Kawashima S, Wang K, Ferron RD, Kim JH, Tregger N, Shah S. A review of the effect of nanoclays on the fresh and hardened properties of cement-based materials. Cem Concr Res. 2021;147: 106502.KawashimaSWangKFerronRDKimJHTreggerNShahSA review of the effect of nanoclays on the fresh and hardened properties of cement-based materialsCem Concr Res2021147106502Search in Google Scholar
Faried AS, Mostafa SA, Tayeh BA, Tawfik TA. Mechanical and durability properties of ultra-high performance concrete incorporated with various nano waste materials under different curing conditions. J Build Eng. 2021;43: 102569.FariedASMostafaSATayehBATawfikTAMechanical and durability properties of ultra-high performance concrete incorporated with various nano waste materials under different curing conditionsJ Build Eng202143102569Search in Google Scholar
Alkhatib A, Maslehuddin M, Al-Dulaijan SU. Development of high performance concrete using industrial waste materials and nanosilica. J Mater Res Technol. 2020;9(3): 6696–711.AlkhatibAMaslehuddinMAl-DulaijanSUDevelopment of high performance concrete using industrial waste materials and nanosilicaJ Mater Res Technol2020936696711Search in Google Scholar
Tambara LUD Jr, de Matos PR, Lima GS, Silvestro L, Rocha JC, Campos CEM, et al. Effect of the nanosilica source on the rheology and early-age hydration of calcium sulfoaluminate cement pastes. Constr Build Mater. 2022;327: 126942.TambaraLUDJrde MatosPRLimaGSSilvestroLRochaJCCamposCEMEffect of the nanosilica source on the rheology and early-age hydration of calcium sulfoaluminate cement pastesConstr Build Mater2022327126942Search in Google Scholar
Li S, Shen P, Zhou H, Du S, Zhang Y, Yan J. Synergistic effect of CNTs/SiO2 composite fillers on mechanical properties of cement composites. RSC Adv. 2022;42: 27253–66.LiSShenPZhouHDuSZhangYYanJSynergistic effect of CNTs/SiO2 composite fillers on mechanical properties of cement compositesRSC Adv2022422725366Search in Google Scholar
Singh LP, Karade SR, Bhattacharyya SK, Yousuf MM, Ahalawat S. Beneficial role of nanosilica in cement based materials – a review. Constr Build Mater. 2013;47: 1069–77.SinghLPKaradeSRBhattacharyyaSKYousufMMAhalawatSBeneficial role of nanosilica in cement based materials – a reviewConstr Build Mater201347106977Search in Google Scholar
Muhd Norhasri MS, Hamidah MS, Mohd Fadzil A. Applications of using nano materials in concrete: a review. Constr Build Mater. 2017;133: 91–7.Muhd NorhasriMSHamidahMSMohd FadzilAApplications of using nano materials in concrete: a reviewConstr Build Mater2017133917Search in Google Scholar
Mostafa Sahar A, Tayeh Bassam A, Almeshal I. Investigation the properties of sustainable ultra-high-performance basalt fibre self-compacting concrete incorporating nano agricultural waste under normal and elevated temperatures. Case Stud Constr Mater. 2022;17: e01453.Mostafa SaharATayeh BassamAAlmeshalIInvestigation the properties of sustainable ultra-high-performance basalt fibre self-compacting concrete incorporating nano agricultural waste under normal and elevated temperaturesCase Stud Constr Mater202217e01453Search in Google Scholar
Luo J, Zhou A, Li N, Wang W, Hu J. Mechanical properties and microscopic characterization of cement stabilized calcareous sand modified by nano SiO2. Case Stud Constr Mater, 2022;17: e01636.LuoJZhouALiNWangWHuJMechanical properties and microscopic characterization of cement stabilized calcareous sand modified by nano SiO2Case Stud Constr Mater202217e01636Search in Google Scholar
Sun J, Shi Z, Dai J, Song X, Hou G. Early hydration properties of Portland cement with lab-synthetic calcined stöber nano-SiO2 particles as modifier. Cem Concr Compos. 2022;132: 104622.SunJShiZDaiJSongXHouGEarly hydration properties of Portland cement with lab-synthetic calcined stöber nano-SiO2 particles as modifierCem Concr Compos2022132104622Search in Google Scholar
Tayeh BA, Akeed MH, Qaidi S, Abu Bakar BH. Influence of microsilica and polypropylene fibers on the fresh and mechanical properties of ultra-high performance geopolymer concrete (UHP-GPC). Case Stud Constr Mater. 2022;17: e01367.TayehBAAkeedMHQaidiSAbu BakarBHInfluence of microsilica and polypropylene fibers on the fresh and mechanical properties of ultra-high performance geopolymer concrete (UHP-GPC)Case Stud Constr Mater202217e01367Search in Google Scholar
Liu B, Zhou H, Meng H, Pan G, Li D. Fresh properties, rheological behavior and structural evolution of cement pastes optimized using highly dispersed in situ controllably grown nano-SiO2. Cem Concr Compos. 2023;135: 104828.LiuBZhouHMengHPanGLiDFresh properties, rheological behavior and structural evolution of cement pastes optimized using highly dispersed in situ controllably grown nano-SiO2Cem Concr Compos2023135104828Search in Google Scholar
Tayeh BA, Hakamy AA, Fattouh MS, Mostafa SA. The effect of using nano agriculture wastes on microstructure and electrochemical performance of ultrahigh-performance fiber reinforced self-compacting concrete under normal and acceleration conditions. Case Stud Constr Mater. 2023;18: e01721.TayehBAHakamyAAFattouhMSMostafaSAThe effect of using nano agriculture wastes on microstructure and electrochemical performance of ultrahigh-performance fiber reinforced self-compacting concrete under normal and acceleration conditionsCase Stud Constr Mater202318e01721Search in Google Scholar
Amin M, Zeyad AM, Tayeh BA, Agwa IS. Effects of nano cotton stalk and palm leaf ashes on ultrahigh-performance concrete properties incorporating recycled concrete aggregates. Constr Build Mater. 2021;302: 124196.AminMZeyadAMTayehBAAgwaISEffects of nano cotton stalk and palm leaf ashes on ultrahigh-performance concrete properties incorporating recycled concrete aggregatesConstr Build Mater2021302124196Search in Google Scholar
Chithra S, Senthil Kumar SRR, Chinnaraju K. The effect of colloidal nanosilica on workability, mechanical and durability properties of high performance concrete with copper slag as partial fine aggregate. Constr Build Mater. 2016;113: 794–804.ChithraSSenthil KumarSRRChinnarajuKThe effect of colloidal nanosilica on workability, mechanical and durability properties of high performance concrete with copper slag as partial fine aggregateConstr Build Mater2016113794804Search in Google Scholar
Senff L, Hotza D, Lucas S, Ferreira VM, Labrincha JA, Effect of nano-SiO2 and nano-TiO2 addition on the rheological behavior and the hardened properties of cement mortars, Mater Sci Eng A. 2012;532: 354–61.SenffLHotzaDLucasSFerreiraVMLabrinchaJAEffect of nano-SiO2 and nano-TiO2 addition on the rheological behavior and the hardened properties of cement mortarsMater Sci Eng A201253235461Search in Google Scholar
Niu X, Feng G, Han Y, Liu Q, Xue G, Cui J, et al. Synergistic effect of surfactant and chlorine salt on dispersion of nano-SiO2 and performance of cement-based grout containing a large amount of bentonite. Cem Concr Compos. 2022;131: 104587.NiuXFengGHanYLiuQXueGCuiJSynergistic effect of surfactant and chlorine salt on dispersion of nano-SiO2 and performance of cement-based grout containing a large amount of bentoniteCem Concr Compos2022131104587Search in Google Scholar
García-Taengua E, Sonebi M, Hossain KMA, Lachemi M, Khatib J. Effects of the addition of nanosilica on the rheology, hydration and development of the compressive strength of cement mortars. Compos Part B. 2015;81: 120–9.García-TaenguaESonebiMHossainKMALachemiMKhatibJEffects of the addition of nanosilica on the rheology, hydration and development of the compressive strength of cement mortarsCompos Part B2015811209Search in Google Scholar
Tambara LUD Jr, de Matos PR, Lima GS, Silverstro L, Rocha JC, Compos CEM, et al. Effect of the nanosilica source on the rheology and early-age hydration of calcium sulfoaluminate cement pastes. Constr Build Mater. 2022;327: 126942.TambaraLUDJrde MatosPRLimaGSSilverstroLRochaJCComposCEMEffect of the nanosilica source on the rheology and early-age hydration of calcium sulfoaluminate cement pastesConstr Build Mater2022327126942Search in Google Scholar
Zhang T, Ma BG, Wu SY, Jin Z, Wang J. Mechanical properties and hydration process of steel slag-cement binder containing nano-SiO2. Constr Build Mater. 2022;314: 125660.ZhangTMaBGWuSYJinZWangJMechanical properties and hydration process of steel slag-cement binder containing nano-SiO2Constr Build Mater2022314125660Search in Google Scholar
Felekoğlu B. A method for improving the early strength of pumice concrete blocks by using alkyl alkoxy silane (AAS). Constr Build Mater. 2012;28: 305–10.FelekoğluBA method for improving the early strength of pumice concrete blocks by using alkyl alkoxy silane (AAS)Constr Build Mater20122830510Search in Google Scholar
Khandelwal S, Rhee KY. Evaluation of pozzolanic activity, heterogeneous nucleation, and microstructure of cement composites with modified bentonite clays. Constr Build Mater. 2022;323: 126617.KhandelwalSRheeKYEvaluation of pozzolanic activity, heterogeneous nucleation, and microstructure of cement composites with modified bentonite claysConstr Build Mater2022323126617Search in Google Scholar
Dalas F, Nonat A, Pourchet S, Mosquet M, Rinaldi D, Sabio S. Tailoring the anionic function and the side chains of comb-like superplasticizers to improve their adsorption. Cem Concr Res. 2015;67: 21–30.DalasFNonatAPourchetSMosquetMRinaldiDSabioSTailoring the anionic function and the side chains of comb-like superplasticizers to improve their adsorptionCem Concr Res2015672130Search in Google Scholar
Shu X, Ran Q, Liu J, Zhao H, Zhang Q, Wang X, et al. Tailoring the solution conformation of polycarboxylate superplasticizer toward the improvement of dispersing performance in cement paste. Constr Build Mater. 2016;116: 289–98.ShuXRanQLiuJZhaoHZhangQWangXTailoring the solution conformation of polycarboxylate superplasticizer toward the improvement of dispersing performance in cement pasteConstr Build Mater201611628998Search in Google Scholar
Pantazopoulos IA, Markou IN, Christodoulou DN, Droudakis A, Atmatzidis DK, Antiohos S, et al. Development of microfine cement-based grouts by pulverizing ordinary cements. Cem Concr Compos., 2012;34: 593–603.PantazopoulosIAMarkouINChristodoulouDNDroudakisAAtmatzidisDKAntiohosSDevelopment of microfine cement-based grouts by pulverizing ordinary cementsCem Concr Compos201234593603Search in Google Scholar
Land G, Stephen D. The influence of nanosilica on the hydration of ordinary Portland cement. J Mater Sci. 2012;47: 1011–18.LandGStephenDThe influence of nanosilica on the hydration of ordinary Portland cementJ Mater Sci201247101118Search in Google Scholar
Geng C, Mei Z, Yao X, Wang C, Lu D, Chen W. Effect of the crystalline state of SiO2 on the compressive strength of cement paste at HTHP. Constr Build Mater. 2023;362: 129787.GengCMeiZYaoXWangCLuDChenWEffect of the crystalline state of SiO2 on the compressive strength of cement paste at HTHPConstr Build Mater2023362129787Search in Google Scholar
Li Q, He C, Zhou H, Xie Z, Li D. Effects of polycarboxylate superplasticizer-modified graphene oxide on hydration characteristics and mechanical behavior of cement. Constr Build Mater. 2021;272: 121904.LiQHeCZhouHXieZLiDEffects of polycarboxylate superplasticizer-modified graphene oxide on hydration characteristics and mechanical behavior of cementConstr Build Mater2021272121904Search in Google Scholar
Chen B, Shao H, Li B, Li Z. Influence of silane on hydration characteristics and mechanical properties of cement paste. Cem Concr Compos. 2020;113: 103743.ChenBShaoHLiBLiZInfluence of silane on hydration characteristics and mechanical properties of cement pasteCem Concr Compos2020113103743Search in Google Scholar
Li W, Hong J, Zhu X, Yang D, Bai Y, Liu J, et al. Retardation mechanism of anionic asphalt emulsion on the hydration of Portland cement. Constr Build Mater. 2018;163: 714–23.LiWHongJZhuXYangDBaiYLiuJRetardation mechanism of anionic asphalt emulsion on the hydration of Portland cementConstr Build Mater201816371423Search in Google Scholar
Sha Shengnan, Wang Min, Shi Caijun, et al. Influence of the structures of polycarboxylate superplasticizer on its performance in cement-based materials – a review. Constr Build Mater. 2020;233: 117257.ShaShengnanWangMinShiCaijunInfluence of the structures of polycarboxylate superplasticizer on its performance in cement-based materials – a reviewConstr Build Mater2020233117257Search in Google Scholar
Zhao ZD, Chen JC, Wang J, Zhuang S, Chen H, Zhao H, et al. Effect mechanisms of toner and nano-SiO2 on early strength of cement grouting materials for repair of reinforced concrete. Buildings, 2022;12(9): 1320.ZhaoZDChenJCWangJZhuangSChenHZhaoHEffect mechanisms of toner and nano-SiO2 on early strength of cement grouting materials for repair of reinforced concreteBuildings20221291320Search in Google Scholar
Berra M, Carassiti F, Mangialardi T, Paolini AE, Sebastiani M. Effects of nanosilica addition on workability and compressive strength of Portland cement pastes. Constr Build Mater. 2012;35: 666–75.BerraMCarassitiFMangialardiTPaoliniAESebastianiMEffects of nanosilica addition on workability and compressive strength of Portland cement pastesConstr Build Mater20123566675Search in Google Scholar
Bani Ardalan R, Jamshidi N, Arabameri H, Joshaghani A, Mehrinejad M, Sharafi P. Enhancing the permeability and abrasion resistance of concrete using colloidal nano-SiO2 oxide and spraying nanosilicon practices. Constr Build Mater. 2017;146: 128–35.Bani ArdalanRJamshidiNArabameriHJoshaghaniAMehrinejadMSharafiPEnhancing the permeability and abrasion resistance of concrete using colloidal nano-SiO2 oxide and spraying nanosilicon practicesConstr Build Mater201714612835Search in Google Scholar
Madani H, Bagheri A, Parhizkar T. The pozzolanic reactivity of monodispersed nanosilica hydrosols and their influence on the hydration characteristics of Portland cement. Cem Concr Res. 2012;42: 1563–70.MadaniHBagheriAParhizkarTThe pozzolanic reactivity of monodispersed nanosilica hydrosols and their influence on the hydration characteristics of Portland cementCem Concr Res201242156370Search in Google Scholar