Liaoning Academy

Nov 20, 2024 | onlinelibrary.wiley.com | Wei Liu |Liaoning Academy |Yun Jiang |Yanling Lv

1 INTRODUCTION Low temperature is an important factor that restricts the growth, productivity, and quality of many species (Zhu, 2016). Melon (Cucumis melo) is sensitive to cold stress since it is native to tropical areas (Nuñez-Palenius et al., 2008). Oriental melon is very popular in China and is mainly produced in the north of China.

Jun 26, 2024 | pubs.rsc.org | Lina Li |Shuang Liu |Tao Yang |Liaoning Academy

Novel NiCoP nanoarray modified by NiFeCo layered double hydroxide quantum dots as highly efficient bifunctional electrocatalysts in anion exchange membrane water electrolysis† Enhancing the activity of non-precious metal electrocatalysts is crucial for advancing anion exchange membrane (AEM) electrolyzer technology.

May 28, 2024 | academic.oup.com | Liaoning Academy

Chestnut plants (Castanea) are important nut fruit trees worldwide. However, little is known regarding the genetic relationship and evolutionary history of different species within the genus. How modern chestnut plants have developed local adaptation to various climates remains a mystery.

Apr 24, 2024 | link.springer.com | Liaoning Academy

AbstractThe development of novel piezoelectric catalysts against harsh conditions is indeed crucial for improving the piezo-catalytic degradation efficiency of colored organic dyes in wastewater. In this work, 6H-SiC nanoparticles (NPs) are utilized to piezo-catalytic degrade rhodamine B (RhB) and methylene blue (MB) under ultrasonic vibration for the first time. The degradation efficiency of RhB and MB reaches 98.8% and 98.7% within 80 min.

Apr 15, 2024 | link.springer.com | Liaoning Academy

AbstractNanocrystalline materials exhibit unique properties due to their extremely high grain boundary (GB) density. However, this high-density characteristic induces grain coarsening at elevated temperatures, thereby limiting the widespread application of nanocrystalline materials. Recent experimental observations revealed that GB segregation and second-phase pinning effectively hinder GB migration, thereby improving the stability of nanocrystalline materials.