热电器件的界面稳定性是决定其服役可靠性和寿命的关键因素。对于方钴矿热电器件,为了抑制高温电极与方钴矿材料之间的相互扩散,需要在两者之间加入阻挡层。本工作选用Ti_(88)Al_(12)作为阻挡层,利用一步法热压烧结制备n型Yb_(0.3)Co_4S...热电器件的界面稳定性是决定其服役可靠性和寿命的关键因素。对于方钴矿热电器件,为了抑制高温电极与方钴矿材料之间的相互扩散,需要在两者之间加入阻挡层。本工作选用Ti_(88)Al_(12)作为阻挡层,利用一步法热压烧结制备n型Yb_(0.3)Co_4Sb_(12)/Ti_(88)Al_(12)/Yb_(0.3)Co_4Sb_(12)和p型CeFe3.85Mn0.15Sb12/Ti_(88)Al_(12)/CeFe3.85Mn0.15Sb12样品,研究Ti_(88)Al_(12)阻挡层与热电材料间的界面接触电阻率及微结构在加速老化实验中的演化规律。结果表明:在相同的老化条件下,n型样品的界面接触电阻率增加速度比p型样品慢,其激活能分别为84.1 k J/mol和68.8 k J/mol。对于n型样品,由元素扩散反应生成的金属间化合物中间层的增长及最终AlCo/TiCoSb层的开裂是导致界面接触电阻率增加的主要原因;而p型热电材料与Ti_(88)Al_(12)的热膨胀系数的差异加速了p型样品中界面裂纹的产生。展开更多
Rapeseed(Brassica napus L.)is an important source of edible vegetable oil and feed protein;however,seed pigments affect the quality of rapeseed oil and the feed value of the residue from oil pressing.Here,we used a po...Rapeseed(Brassica napus L.)is an important source of edible vegetable oil and feed protein;however,seed pigments affect the quality of rapeseed oil and the feed value of the residue from oil pressing.Here,we used a population of rapeseed recombinant inbred lines(RILs)derived from the black-seeded male parent cultivar Zhongyou 821 and the yellow-seeded female parent line GH06 to map candidate genes controlling seed pigments in embryos and the seed coat.We detected 94 quantitative trait loci(QTLs)for seed pigments(44 for embryos and 50 for seed coat),distributed over 15 of the 19 rapeseed chromosomes.These included 28 QTLs for anthocyanidin content,explaining 2.41–44.66% of phenotypic variation;24 QTLs for flavonoid content,explaining 2.41–20.26% of phenotypic variation;16 QTLs for total phenol content,accounting for 2.74–23.68% of phenotypic variation;and 26 QTLs for melanin content,accounting for 2.37–24.82% of phenotypic variation,indicating that these traits are under multigenic control.Consensus regions on chromosomes A06,A09 and C08 were associated with multiple seed pigment traits,including 15,19 and 10 QTLs,respectively,most of which were major QTLs explaining>10% of the phenotypic variation.Based on the annotation of the B.napus"Darmor-bzh"reference genome,67 candidate genes were predicted from these consensus QTLs regions,and 12 candidate genes were identified as potentially involved in pigment accumulation by RNA-seq and qRT-PCR analysis.These preliminary results provide insight into the genetic architecture of pigment biosynthesis and lay a foundation for exploring the molecular mechanisms underlying seed coat color in B.napus.展开更多
文摘热电器件的界面稳定性是决定其服役可靠性和寿命的关键因素。对于方钴矿热电器件,为了抑制高温电极与方钴矿材料之间的相互扩散,需要在两者之间加入阻挡层。本工作选用Ti_(88)Al_(12)作为阻挡层,利用一步法热压烧结制备n型Yb_(0.3)Co_4Sb_(12)/Ti_(88)Al_(12)/Yb_(0.3)Co_4Sb_(12)和p型CeFe3.85Mn0.15Sb12/Ti_(88)Al_(12)/CeFe3.85Mn0.15Sb12样品,研究Ti_(88)Al_(12)阻挡层与热电材料间的界面接触电阻率及微结构在加速老化实验中的演化规律。结果表明:在相同的老化条件下,n型样品的界面接触电阻率增加速度比p型样品慢,其激活能分别为84.1 k J/mol和68.8 k J/mol。对于n型样品,由元素扩散反应生成的金属间化合物中间层的增长及最终AlCo/TiCoSb层的开裂是导致界面接触电阻率增加的主要原因;而p型热电材料与Ti_(88)Al_(12)的热膨胀系数的差异加速了p型样品中界面裂纹的产生。
基金supported by the National Natural Science Foundation of China(31830067)the Major S&T Projects on the Cultivation of New Varieties of Genetically Modified Organisms,China(2018ZX08020001)+3 种基金the Fundamental Research Funds for the Central Universities,China(XDJK2020B030)the China Agriculture Research System of MOF and MARA(CARS-12)the Natural Science Foundation of Chongqing,China(cstc2017jcyjAX0321)the Higher Education Discipline Innovation Project,China(B12006)。
文摘Rapeseed(Brassica napus L.)is an important source of edible vegetable oil and feed protein;however,seed pigments affect the quality of rapeseed oil and the feed value of the residue from oil pressing.Here,we used a population of rapeseed recombinant inbred lines(RILs)derived from the black-seeded male parent cultivar Zhongyou 821 and the yellow-seeded female parent line GH06 to map candidate genes controlling seed pigments in embryos and the seed coat.We detected 94 quantitative trait loci(QTLs)for seed pigments(44 for embryos and 50 for seed coat),distributed over 15 of the 19 rapeseed chromosomes.These included 28 QTLs for anthocyanidin content,explaining 2.41–44.66% of phenotypic variation;24 QTLs for flavonoid content,explaining 2.41–20.26% of phenotypic variation;16 QTLs for total phenol content,accounting for 2.74–23.68% of phenotypic variation;and 26 QTLs for melanin content,accounting for 2.37–24.82% of phenotypic variation,indicating that these traits are under multigenic control.Consensus regions on chromosomes A06,A09 and C08 were associated with multiple seed pigment traits,including 15,19 and 10 QTLs,respectively,most of which were major QTLs explaining>10% of the phenotypic variation.Based on the annotation of the B.napus"Darmor-bzh"reference genome,67 candidate genes were predicted from these consensus QTLs regions,and 12 candidate genes were identified as potentially involved in pigment accumulation by RNA-seq and qRT-PCR analysis.These preliminary results provide insight into the genetic architecture of pigment biosynthesis and lay a foundation for exploring the molecular mechanisms underlying seed coat color in B.napus.
