王超
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Paper Publications
- > [1] [21] X. Jian,Z。Zhou *,S。Wu,L。陈,Q。曾庆红,C。Wang *,可控制备Ni纳米粒子用于催化卷曲碳纤维生长,Nanoscale Res。快报。,2014,9(1):370。(IF = 2.833)Wang *,可控制备Ni纳米粒子用于催化卷曲碳纤维生长,Nanoscale Res。快报。,2014,9(1):370。(IF = 2.833)Wang *,可控制备Ni纳米粒子用于催化卷曲碳纤维生长,Nanoscale Res。快报。,2014,9(1):370。(IF = 2.833)
- > [2] [20] X. Jian,Y。Cao,G。Chen,C。Wang *,H。Tang,L。Yin,C。Luan,Y。Liang,J。Jiang,S。Wu,Q .Zeng,F。Wang,C。Zhang,通过动态分解法合成高纯度Cu纳米晶,Nanoscale Res。快报。,2014,9(1):689。(IF = 2.833)
- > [3] [19] L. Yin,G。Chen,C。Wang *,X。Xu,L。Hao,Hubertus T.(Bert)Hintzenc,通过(SiN)(+)取代(AlO)(+)和与Eu共掺杂的CeAl11O18基磷光体的可调谐发光,ECS J. Solid State Sc。,2014,3(8):R131-R138。(IF = 1.787)[20] X. Jian,Y。Cao,G。Chen,C。Wang *,H。Tang,L。Yin,C。Luan,Y。Liang,J。Jiang,S。Wu,Q .Zeng,F。Wang,C。Zhang,通过动态分解法合成高纯度Cu纳米晶,Nanoscale Res。快报。,2014,9(1):689。(IF = 2.833)
- > [4] [18] B. Sun *,L。Zhao *,C。Wang *,X。Yi,Z。Liu,G。Wang,J。Li,E?Shape Plasmonic Nanocavities中的Tunable Fano Resonance,J物理 化学。C,2014,118:25124-25131。(IF = 4.536)
- > [5] [17] C. Wang *,J。Jiang,C。Zhang,Y。Jiang *,S。Li,Z。Wu,两层结构对黑色硅基MSM光电探测器性能的影响。J. Mater。Sci.-母校。El。,2014,25:1542-1546。(IF = 2.019)
- > [6] [16]曹瑜,刘世玉,鲜健*,朱高龙,尹良军,张乐,吴彪,余玉峰,陈彤,高玉琪,唐辉*,王超*,魏卫东,张万里*。高纯CuO纳米槽的合成及其乙醇气敏性能分析。RSC Adv。,2015,5(44):34788-34794。(IF = 3.108)
- > [7] [15] X. Yang,C。Wang,Y。Yang,Y。Zhang,X。Jia,J。Chen,X。Ji *,Anatase TiO2纳米立方体,用于快速耐用的钠离子电池阳极,J.Mater。化学。A,2015,3(16):8800-8807。(IF = 8.867)
- > [8] [14] L. Yin,W。Xie,X。Jian,Y。Feng,H。Tang,C。Luan,Y。Liang,C。Wang *,一种新型Al10O3N8:Eu2 +荧光粉的发光特性通过机械化学活化途径,选择。Mater。,2015,42(4):511-515。(IF = 2.238)
- > [9] [13] X. Jian,G。Chen,C。Wang *,L。Yin,X。高,碳修饰T-ZnO的光致发光性能增强,纳米技术,2015,26(12):125705-1-8。(IF = 3.440)
- > [10] [12]天宇空,王汉宇,刘旭阳,俞俊生,王超*,通过二元溶剂处理提高大块异质结聚合物太阳能电池的效率。IEEE J. Photovolt。,2017,7(1):214-220。(IF = 3.712)
- > [11] [11] Y. Yang,Wei Shi *,R。Zhang,C。Luan,Q。Zeng,C。Wang *,S。Li,Z。Huang,H。廖建军,石墨电极在甘氨酸溶液中的氮掺杂石墨烯电化学剥离及其储能性能。Electrochim。Acta,2016,204:100-107。(IF = 4.798)
- > [12] [10] B. Yuan,B。Wang,LH Huang,XB Lei,LD Zhao,C。Wang *,QY Zhang *。Sn替代Sb对ZrCoSb热电性能的影响。J. Electron。母校。,2017,46(5):3076-3082。(IF = 1.579)
- > [13] [9] SX Wu#,J。Jiang#,YL Liang,P。Yang,Y。Niu,YD Chen,JF Xia,C。Wang *。化学沉淀合成及硫化铜的热电性能。J. Electron。母校。,2017,46(4):2432。(IF = 1.579)
- > [14] [8] Q.Zeng,HQ Tian,J.Jiang,XB Ji,DJ Gao *,C。Wang *。高纯度螺旋碳纳米管,具有增强的电化学性能,适用于超级电容器。RSC Adv。,2017,7:7375-7381。(IF = 3.108)
- > [15] [7] C.Wang#*,YD.Chen#,J.Jiang#,Ping Yang,R.Zhang,Y.Niu,T.Zhou,JF .Xia。化学沉淀法合成SnS的热电性能改善。RSC Adv。,2017,7:16795-16800。(IF = 3.108)
- > [16] [6]苗瑜,杨朝,李晓明,雷天宇,孙浩轩,戴丽萍,于谷,薛宁,周婷,王超*,曾海波*,杰雄*。通过超薄碳壳包裹的各种纳米金属的通用液相激光制造用于深紫外等离子体。Nanoscale,9:8716-8722,2017。(IF = 7.367)
- > [17] [5]蒋晓娇,李艳梅,李涛,张磊宁*,赵艳,刘梦娇,王超*,辛丽,贾碧,高道强*。LiFe(WO4)2微晶的制造,微结构,发光和磁性。J. Mater。Sci.-母校。El。,2017,28:5584-5591。(IF = 2.019)
- > [18] [4]邹国强,王超,侯红帅,王志伟,邱晓青和小乔吉*。用于快速钠离子电池的硫掺杂石墨碳纳米片的可控夹层间距。小,2017,1700762。(IF = 8.6429)
- > [19] [3]黄立红,张勤勇,王玉梅,何冉,景帅,张建军,王超*,任志峰*。Sn掺杂对n型半赫斯特NbCoSb热电性能的影响。物理化学化学物理,DOI:10.1039 / C7CP04801G。(在线,IF = 4.123)
- > [20] [2]王超#*,周周#,江江,耿汇源,张磊宁,辛来,卞碧,高道强。基于Tb3 + / Eu3 +掺杂的多色可调谐发光通过简单的水热路径。ACS Appl。母校。接口,2017,9(31):26184-26190。(IF = 7.504)
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