2025
Innovative Biological Technique Utilizing Microalgae to Improve the Stability of Gypsum
Huang L, Cheng J, Mao Y, Guo Z, Lan Y, Zhang B, Ren L, Ruiz-Agudo C, Guo W, Qu Z, Wang F. Innovative Biological Technique Utilizing Microalgae to Improve the Stability of Gypsum. ACS Sustainable Chemistry & Engineering 2025, 13: 14122-14132. DOI: 10.1021/acssuschemeng.5c05896.Peer-Reviewed Original ResearchConstruction industryStability of gypsumCarbon dioxide emissionsSetting timeGypsumDioxide emissionsCarbon emissionsRetarding effectRheological propertiesConstructionYield stressAlgae powderProduction processIndustryAlgaeMicroalgaePowderBiology techniquesEmissionBiocharInnovationFunctional groupsPyrolytic products
2022
Rheology of marine sponges reveals anisotropic mechanics and tuned dynamics
Kraus E, Mellenthin L, Siwiecki S, Song D, Yan J, Janmey P, Sweeney A. Rheology of marine sponges reveals anisotropic mechanics and tuned dynamics. Journal Of The Royal Society Interface 2022, 19: 20220476. PMID: 36259170, PMCID: PMC9579767, DOI: 10.1098/rsif.2022.0476.Peer-Reviewed Original ResearchConceptsErect spongesSponge cellsSiliceous spiculesMarine spongesErect formsNegative normal stressFilter small particlesSponge morphologyMechanical signalsExtracellular matrixNormal stressCompression stiffeningCell proliferationShear softeningUniaxial deformationShear strainMechanical responsePhysiological implicationsAnisotropic elasticityRheological propertiesPhysiological shearSpongeSpeciesAnisotropic mechanismsShear
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