Recent advances in producing hollow carbon spheres for use in sodium−sulfur and potassium−sulfur batteries

Sodium-sulfur(Na-S)and potassium-sulfur(K-S)batteries for use at room temperature have received widespread attention because of the abundance and low cost of their raw materials and their high energy density.However,their development is restricted by the shuttling of polysulfides,large volume expansion and poor conductivity.To overcome these obstacles,an effective approach is to use carbon-based materials with abundant space for the sulfur that has sulfiphilic sites to immobilize it,and a high electrical conductivity.Hollow carbon spheres(HCSs)with a controllable structure and composition are promising for this purpose.We consider recent progress in optimizing the electrochemical performance of Na-/K-S batteries by using these materials.First,the advantages of HCSs,their synthesis methods,and strategies for preparing HCSs/sulfur composite materials are reviewed.Second,the use of HCSs in Na-/K-S batteries,along with mechanisms underlying the resulting performance improvement,are discussed.Finally,prospects for the further development of HCSs for metal−S batteries are presented.

蒙古红鲌形态特征及其两种同工酶的电泳分析

【目的】从形态特征和生化遗传两个角度丰富蒙古红鲌(Erythroculter mongolicus)种质资源的研究内容,筛选出蒙古红鲌的特征生化遗传参数,为其种质标准制定、种质资源保护及良种选育提供理论依据。【方法】采用传统形态学方法测定蒙古红鲌的可数和可量性状,并结合聚丙烯酰胺凝胶电泳(PAGE)检测蒙古红鲌心脏、眼睛晶状体、肌肉、肾脏及肝脏等5种组织中乳酸脱氢酶(LDH)和苹果酸脱氢酶(MDH)的表达情况。【结果】蒙古红鲌的主要形态特征:头部背面平坦,口端位,下颌略比上颌长;腹棱自腹鳍基部至肛门;身体上半部浅棕色、下部银白色,胸腹鳍浅黄色,尾鳍下叶鲜红色;鳍式为背鳍D.ⅲ-7和臀鳍A.ⅲ-19～22;齿式为2·4·5(4)/5(4)·4·2或2·4·4/5·3·2:左侧第一鳃弓外侧鳃耙数为18～20。从蒙古红鲌心脏、眼睛晶状体、肌肉、肾脏和肝脏组织中均能检测到LDH和MDH,但不同组织中的酶带数目和活性各不同,呈明显的组织特异性,其中,LDH酶带条数分别为6、6、6、7和8条,MDH酶带条数分别为3、3、5、5和4条。各样本蒙古红鲌眼睛晶状体的LDH酶带数及其活性基本相同,均呈单态,表达稳定,且分离效果好。【结论】LDH和MDH在蒙古红鲌体内分布较广泛,且具有组织特异性,其中眼睛晶状体LDH表达丰富且活性稳定,可作为鉴定蒙古红鲌种质的特征生化遗传参数。

人工养殖黄河鲤形态特征、染色体核型及肌肉乳酸脱氢酶的电泳分析

【目的】从形态特征、染色体核型和生化遗传3个层面评估人工养殖黄河鲤(Cyprinus carpio haematopterus)种质资源状况,为探讨种质鉴定在黄河鲤资源保护和良种选育中的应用提供参考依据。【方法】采用形态学方法测定30尾人工养殖黄河鲤样品的可量性状和可数性状,通过聚丙烯酰胺凝胶垂直板电泳检测其肌肉乳酸脱氢酶(LDH)的表达情况,并借助肾细胞滴片—空气干燥法对人工养殖黄河鲤的染色体数目及其核型进行分析。【结果】人工养殖黄河鲤体形呈梭形,头小而腹部圆,口端位,呈马蹄形,须2对;体侧鳞片呈金黄色,腹部色淡而白,臀鳍、尾柄及尾鳍下叶为橙红色,胸鳍和腹鳍呈桔黄色;鳍式为背鳍D.ⅲ-16~20、臀鳍A.ⅲ-5;齿式为1·1·3/3·1·1;左侧第一鳃弓外侧鳃耙数为19~25条。人工养殖黄河鲤肌肉LDH酶带条数分为2条和5条两种类型。人工养殖黄河鲤染色体数目2n=100,染色体相对长度范围在1.20%~2.96%,其染色体核型公式为18m+38sm+22st+22t,臂数(NF)=156。【结论】人工养殖黄河鲤肌肉LDH出现与种质标准SC 1041—2001《黄河鲤》中不同的条带类型,推测黄河鲤人工养殖群体已出现种质混杂现象。因此,在黄河鲤品种改良或增殖放流前必须对其种质状况进行系统鉴定和评价,原良种场在制种保种过程中应加强不同类养殖群体的隔离或防止混杂,以确保黄河鲤种质纯正。