03499nam 2200913z- 450 991055738050332120231214133002.0(CKB)5400000000042094(oapen)https://directory.doabooks.org/handle/20.500.12854/69357(EXLCZ)99540000000004209420202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierBiocatalytic Synthesis of Bioactive CompoundsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (142 p.)3-03943-571-X 3-03943-572-8 Biocatalysis, the application of enzymes as catalysts for chemical synthesis, has become an increasingly valuable tool for the synthetic chemist. Enzymatic transformations carried out by enzymes or whole-cell catalysts are used for the production of a wide variety of compounds ranging from bulk to fine chemicals. The primary consideration for the incorporation of biotransformation in a synthetic sequence is regio- and stereocontrol that can be achieved with enzyme-catalyzed reactions. Biotransformations are thus becoming accepted as a method for generating optically pure compounds as well as for developing efficient routes to target compounds. This Special Issue aims to address the main applications of biocatalysts, isolated enzymes, and whole microorganisms in the synthesis of bioactive compounds and their precursors.Research & information: generalbicsscBiology, life sciencesbicssc8-hydroxydaidzeinstablesolubleanti-inflammationamylosucraseDeinococcus geothermaliscoumarinbiotransformationfilamentous fungiselective hydroxylationbrominationchlorinationpharmaceuticalsactive agent synthesisbiocatalysishaloperoxidasehalogenaseglycosyltransferaseGlycine max (L.) Merr.HPLC/MSisoflavone aglycone-rich extractisoflavone α-glucosidealkene cleavagearyl alkenesbasidiomycotacarotene degradationdye-decolorizing peroxidase (DyP)manganeseKomagataella pfaffiiPleurotus sapidusmonoterpeneslimoneneglycerolmevalonate pathwayreaction engineeringbioprocessbiocatalysttwo-liquid phase fermentationin situ product removallipaseunsaturated fatty acidoxidative cleavageoxidationadaptationUV/NTG mutagenesispsychrotrophsterpenesResearch & information: generalBiology, life sciencesAleu Josefinaedt1325417Aleu JosefinaothBOOK9910557380503321Biocatalytic Synthesis of Bioactive Compounds3036873UNINA03518nam 2200781z- 450 991055740380332120231214133703.0(CKB)5400000000043638(oapen)https://directory.doabooks.org/handle/20.500.12854/69056(EXLCZ)99540000000004363820202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierGreen Concrete for a Better Sustainable EnvironmentBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (144 p.)3-03936-234-8 3-03936-235-6 This book, Green Concrete for a Better Sustainable Environment, aims to cover recent advances in the development of green concrete solutions and discuss the best ways to leverage opportunities in this domain. Concrete can be described as green concrete if it has one of the following features; it uses waste material as at least one of its components, its production process does not lead to environmental destruction, or it has high performance and life cycle sustainability. At present, natural resources are running out. Cement and concrete made from industrial and construction waste can be regarded as valuable resources for civil infrastructure construction. Green concrete will not only contribute to a circular economy, but can also help to reduce the amount of embodied energy and CO2 emissions associated with cement manufacturing and aggregate quarrying. Using green concrete can also mitigate the environmental threats associated with industrial waste materials. This book covers the theoretical, experimental, applied and modelling research studies on the materials, products and structures related to sustainable cement-based composites.History of engineering & technologybicsscrecycled aggregate concreteshrinkage and creepattached mortarprediction modelconstruction and demolition wastesresource utilizationrecycled concrete hollow blockmasonry wallsseismic performancesteel frameinfilled shear wallssemi-rigid connectionseismic behaviorMSWI bottom ashconcretesulfate attackcapillary transportcrystallizationhusk mortar wallboardexperimentlateral strengthstrainfailure loadfull replacement ratiosection steel and RACbond behaviorSRRC (Steel Reinforced Recycled Concrete)bond strengthbond slipnumerical simulationsaltNaClasphalt concretefreeze-thaw cycleswinter roadindustrial wastesustainable concreterecycled expanded glassHistory of engineering & technologyTang Patrickedt1328359Tang PatrickothBOOK9910557403803321Green Concrete for a Better Sustainable Environment3038521UNINA