Titlebook: Nanoseparation Using Density Gradient Ultracentrifugation; Mechanism, Methods a Xiaoming Sun,Liang Luo,Pengsong Li Book 2018 The Author(s)

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overview of the background of the book, purpose of the book, scope of the book, exposed to and discussed six categories about 1) Part I: Introduction, 2) Part II: Impact of Salinity on Sustainable Crop Production Strategies, 3) Part III Protective Mechanisms and Salinity Resilience-relevant Traits,

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Yun Kuang,Ming Jiang,Kai Sunce non-proteinogenic amino acids, antioxidant enzymes, hormones, sugar, vitamins, polyamines, Melatonin, plant extracts, proline and trehalose improved salt stress tolerance. The potential role of Selenium, Salicylic acid (SA) and Plant Growth–Promoting bacteria (PGPB) was discussed. Thus, improving

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Pengsong Lid-grown plants encounter during a single growth season..Instead of targeting signalling or regulatory networks, manipulating metabolic routes for higher osmotic and ionic stress tolerance would be more realistic to mitigate negative impact of salt stress on crop plants. At field conditions coping we

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Particle Sedimentation Behaviors in a Density Gradient,s and built the kinetic equation in a density gradient media. The kinetic equation could apply to zero, one-, and two-dimensional nanomaterials, within its variation form accordingly. We found that the separation parameters could be optimized based on the kinetic equation. A MATLAB program was furth

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Density Gradient Ultracentrifugation of Colloidal Nanostructures,anostructures and media. In this chapter, we will discuss the separation examples according to the dimensional difference of colloidal nanostructures, including 0D, 1D, 2D nanostructures, and assemblies/clusters.