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Opportunities and Challenges of Plant Bioactive Compounds for Food and Agricultural-Related Areas

Phyton-International Journal of Experimental Botany 2022年第6期91卷 1105-1127页

作者： Maicon S.N.dos Santos João H.C.Wancura Carolina E.D.Oro Rogério M.Dallago Marcus V.Tres Laboratory of Agroindustrial Processes Engineering Federal University of Santa MariaCachoeira do Sul96508-010Brazil Department of Teaching Research and DevelopmentSul Rio-Grandense Federal InstituteCharqueadas96745-000Brazil Department of Food Engineering Regional Integrated University of Upper Uruguay and MissionsErechim99709-910Brazil

The growing development of biological products highlights the social and environmental responsibility that several industrial companies are facing in recent *** this context,the advancement of bioprocessing as an alternative for exploring the potential of ecologically based products,especially in biofuels,food,and agro-industrial business,exposes the rational efficiency of the application of renewable sources in different industrial *** strongly associated with food production concentrate large amounts of wastes rich in bioactive compounds.A range of highly effective technologies has been highly explored to recover large concentrations of prominent compounds present in these *** advances in this scenario assurance value addition to these by-products,in addition to highlighting their various technological applications,considering the biorefinery and ecologically based production ***,this review article described a detailed and systematic approach to the importance of using bioactive compounds and exploring the main sources of these ***,some recent and innovative research that has achieved encouraging results was ***,the study included the main extraction technologies that have been investigated as a strategy of prospecting the application of bioactive compounds and optimizing the processes for obtaining natural compounds from plant ***,future outlooks were presented to contribute to the innovative opportunities and applicability of highly promising technologies and manipulations of bioactive compounds from a range of perspectives.

关键词： Biological security renewable biological resources sustainable production

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The potential of integrated bio-and chemical-engineering—for a more sustainable world

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Green Chemical Engineering 2020年第1期1卷 9-15页

作者： Lene Lange Yuhong Huang BioEconomy Research&AdvisoryCopenhagen2500ValbyDenmark Beijing Key Laboratory of Ionic Liquids Clean Process CAS Key Laboratory of Green Process and EngineeringState Key Laboratory of Multiphase Complex SystemsInstitute of Process EngineeringChinese Academy of SciencesBeijing100190China Innovation Academy for Green Manufacture Chinese Academy of SciencesBeijing100190China

*** Developing bioprocessing and a wide and growing portfolio of biobased products have been designed and positioned to substitute for chemical synthesis and fossil-based products;all aimed at a more sustainable and responsible use of the global *** has come to initiate a new bio-based era,where integrating the use of biological and chemical engineering delivers even more resource efficient and sustainable contributions to mitigate and solve societal challenges,climate change,biodiversity,nutrition and *** this paper we will give a palette of concrete examples on where synergy can be harvested,by combining the approaches and the methodologies of both bio-and chemical-engineering(Fig.1).

关键词： integrating chemical potential

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Biotransformation,multifunctional recycling mechanism of nanostructures,and evaluation of the safety of nanoscale materials

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Particuology 2023年第11期82卷 76-86页

作者： Debjyoti Talukdar Parveen Kumar Benu Chaudhary Deepak Sharma Nishant Yadav Obaid Afzal Abdulmalik Saleh Alfawaz Altamimi Waleed Hassan Almalki Sami IAlzarea Imran Kazmi Ashutosh Pareek Gaurav Gupta Madan Mohan Gupta Department of Medical research Armenian Russian International University“Mkhitar Gosh”YerevanArmenia Shri Ram College of Pharmacy KarnalHaryanaIndia Guru Gobind Singh College of Pharmacy YamunanagarHaryanaIndia Department of Pharmaceutical Technology SOMSAdamas UniversityBarasat-Barracpore RoadKolkataWest BengalIndia B.S.Anangpuria Institute of Pharmacy FaridabadHaryanaIndia Department of Pharmaceutical Chemistry College of PharmacyPrince Sattam Bin Abdulaziz UniversityAl Kharj11942Saudi Arabia Department of Pharmacology College of PharmacyUmm Al-Qura UniversityMakkahSaudi Arabia Department of Pharmacology College of PharmacyJouf UniversitySakakaAl-JoufSaudi Arabia Department of Biochemistry Faculty of ScienceKing Abdulaziz UniversityJeddahSaudi Arabia Department of Pharmacy Banasthali VidyapithBanasthali-RajasthanIndia School of Pharmacy Suresh Gyan Vihar UniversityJagatpura302017Mahal RoadJaipurIndia Department of Pharmacology Saveetha Dental CollegeSaveetha Institute of Medical and Technical SciencesSaveetha UniversityChennaiIndia Uttaranchal Institute of Pharmaceutical Sciences Uttaranchal UniversityDehradunIndia School of Pharmacy Faculty of Medical SciencesThe University of the West IndiesSt.AugustineTrinidad and Tobago

Current evidence of concept analyses recommending nanotechnology for biomedical uses abounds in recent research. The area of biotechnology interfaces with nanostructures, reconfigures their composition, and alters their characteristics;which influences the dispersion of the particles, the biotransformation they cause, and their potential toxic effect. It is vital to link the idea of the lifecycle of nanostructures to the biological impacts and use methodologies to identify, estimate, and track the gradual bioprocessing of nanostructures in vivo, from a body-wide level to a nanoscopic size. This is necessary because understanding how nanostructures processing, degradation, persistence, and recycling predict potential exposure risks. The safe implementation of nanotechnology-based products in biomedical applications necessitates an extensive understanding of the recycling and transformations of nanomaterials in a living organism. Long-term fate in the body is crucial, as it governs potential environmental risks to human health. Strategies may be used to manage the long-term outcome of nanostructures in an organism since, in addition to composition, their design also affects how long they last and how easily they degrade. The lifespan of nanoparticles, a flexible and biocompatible category of nanostructures that have made it into clinical trials, is the subject of this article. Strategies may be used to manage the long-term outcome of nanoparticles in an organism since, in addition to composition, their design also affects how long they last and how easily they degrade. This review explained the safety of nanoscale materials, biotransformation, and the multifunctional recycling mechanism of nanostructures.

关键词： Nanostructure Nanoparticle Biotransformation Toxiceffect Environmental risk

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