D
Dandan Wang
Researcher at Jilin Normal University
Publications - 138
Citations - 4896
Dandan Wang is an academic researcher from Jilin Normal University. The author has contributed to research in topics: Photocatalysis & Photoluminescence. The author has an hindex of 32, co-authored 117 publications receiving 3539 citations. Previous affiliations of Dandan Wang include Center for Excellence in Education & Chinese Academy of Sciences.
Papers
More filters
Journal ArticleDOI
Correlated d 0 ferromagnetism and photoluminescence in undoped ZnO nanowires
Guozhong Xing,Dandan Wang,Jiabao Yi,Lili Yang,Ming Gao,Mi He,Jinghai Yang,Jun Ding,Tze Chien Sum,Tom Wu +9 more
TL;DR: In this article, the authors reported the correlated d(0) ferromagnetism and photoluminescence in undoped single-crystalline ZnO nanowires synthesized by using a vapor transport method.
Journal ArticleDOI
Measurement of the e + e − → π + π − cross section between 600 and 900 MeV using initial state radiation
M. Ablikim,M. N. Achasov,Xiaocong Ai,O. Albayrak,M. Albrecht,D. J. Ambrose,A. Amoroso,F. F. An,Q. An,J. Z. Bai,R. Baldini Ferroli,Y. Ban,D. W. Bennett,J. V. Bennett,M. Bertani,D. Bettoni,Jianming Bian,F. Bianchi,E. Boger,I. Boyko,R. A. Briere,Huacheng Cai,X. Cai,Orhan Cakir,A. Calcaterra,G. F. Cao,Serkant Ali Cetin,J. F. Chang,G. Chelkov,Guo-Ming Chen,H. S. Chen,H. S. Chen,J. C. Chen,M. L. Chen,Sai-Juan Chen,X. C. Chen,X. R. Chen,Yi Chen,H. P. Cheng,X. K. Chu,G. Cibinetto,H. L. Dai,J. P. Dai,A. Dbeyssi,D. Dedovich,Z. Y. Deng,A. Denig,I. Denysenko,M. Destefanis,F. De Mori,Y. Ding,C. Dong,J. Dong,L. Y. Dong,M. Y. Dong,S. X. Du,P. F. Duan,E. E. Eren,J. Z. Fan,J. Fang,S. S. Fang,X. Fang,Yaquan Fang,L. Fava,F. Feldbauer,Giulietto Felici,C. Q. Feng,E. Fioravanti,M. Fritsch,C. D. Fu,Q. Gao,X. Y. Gao,Yang Gao,Z. Gao,I. Garzia,K. Goetzen,W. X. Gong,W. Gradl,M. Greco,M. H. Gu,Y. T. Gu,Y. H. Guan,A. Q. Guo,L. B. Guo,Y. Guo,Y. P. Guo,Z. Haddadi,A. Hafner,S. Han,X. Q. Hao,F. A. Harris,K. L. He,X. Q. He,T. Held,Y. K. Heng,Z. L. Hou,C. Hu,H. M. Hu,J. F. Hu,T. Hu,Y. Hu,Guangming Huang,Guangshun Huang,J. S. Huang,X. T. Huang,Yucheng Huang,T. Hussain,Q. P. Ji,Q. P. Ji,X. B. Ji,X. L. Ji,L. W. Jiang,X. S. Jiang,X. Y. Jiang,J. B. Jiao,Z. Jiao,D. P. Jin,S. Jin,Tord Johansson,A. Julin,N. Kalantar-Nayestanaki,X. L. Kang,X. S. Kang,M. Kavatsyuk,Bibo Ke,P. Kiese,R. Kliemt,B. Kloss,O. B. Kolcu,B. Kopf,M. Kornicer,W. Kühn,Andrzej Kupsc,J. S. Lange,M. Lara,P. Larin,C. Leng,Cui Li,Cheng Li,D. M. Li,F. Li,F. Y. Li,G. Li,H. B. Li,J. C. Li,Jin Li,Ke Li,Lei Li,P. R. Li,Tao Li,Wei Li,W. G. Li,Xingguo Li,X. M. Li,X. N. Li,X. Q. Li,Z. B. Li,H. Liang,Y. F. Liang,Y. T. Liang,G. R. Liao,D. X. Lin,B. J. Liu,C. X. Liu,Fu-Hu Liu,Fang Liu,Feng Liu,H. B. Liu,Huihui Liu,H. M. Liu,J. H. Liu,J. B. Liu,J. P. Liu,J. Y. Liu,Kai Liu,K. Y. Liu,L. D. Liu,Peilian Liu,Q. Liu,S. B. Liu,X. Liu,Y. B. Liu,Z. A. Liu,Zhiqing Liu,H. Loehner,Xuanhong Lou,H. J. Lu,J. G. Lu,Y. P. Lu,Y. P. Lu,C. L. Luo,M. X. Luo,Tao Luo,X. L. Luo,Xiao-Rui Lyu,F. C. Ma,H. L. Ma,L. L. Ma,Q. M. Ma,T. Ma,X. N. Ma,X. Y. Ma,F. E. Maas,M. Maggiora,Y. J. Mao,Z. P. Mao,S. Marcello,J. G. Messchendorp,J. Min,R. E. Mitchell,X. H. Mo,Y. J. Mo,C. Morales Morales,K. Moriya,N. Yu. Muchnoi,H. Muramatsu,Y. Nefedov,F. Nerling,I. B. Nikolaev,Z. Ning,S. Nisar,S. L. Niu,X. Y. Niu,S. L. Olsen,Q. Ouyang,S. Pacetti,P. Patteri,M. Pelizaeus,Haiping Peng,Krisztian Peters,Joachim Pettersson,Jialun Ping,R. G. Ping,R. Poling,V. Prasad,M. Qi,S. Qian,Cong-Feng Qiao,L. Q. Qin,N. Qin,X. S. Qin,Z. H. Qin,J. F. Qiu,K. H. Rashid,C. F. Redmer,M. Ripka,G. Rong,Ch. Rosner,Xiangdong Ruan,V. Santoro,A. Sarantsev,M. Savrie,K. Schoenning,S. Schumann,W. Shan,M. Shao,C. P. Shen,P. X. Shen,X. Y. Shen,H. Y. Sheng,W. M. Song,M. R. Shepherd,X. Y. Song,S. Sosio,S. Spataro,G. X. Sun,J. F. Sun,S. S. Sun,Y. J. Sun,Y. Z. Sun,Z. J. Sun,Z. T. Sun,C. J. Tang,X. Tang,I. Tapan,E. H. Thorndike,M. Tiemens,M. Ullrich,I. Uman,G. S. Varner,B. Wang,Dandan Wang,D. Y. Wang,Ke Wang,L. L. Wang,L. S. Wang,M. Z. Wang,P. L. Wang,P. L. Wang,Sen Wang,W. P. Wang,X. F. Wang,Yao Wang,Y. F. Wang,Y. Q. Wang,Zujian Wang,Z. G. Wang,Z. H. Wang,Z. Y. Wang,T. Weber,D. H. Wei,Jian Wei,P. Weidenkaff,S. P. Wen,Ulrich Wiedner,M. Wolke,L. H. Wu,Z. Wu,L. G. Xia,Y. X. Xia,D. Xiao,H. Xiao,Z. J. Xiao,Y. G. Xie,Q. L. Xiu,G. F. Xu,Liqing Xu,Q. J. Xu,X. P. Xu,Li Yan,W. B. Yan,W. C. Yan,Y. H. Yan,H. J. Yang,H. X. Yang,L. Yang,Yang Yang,Y. X. Yang,M. H. Ye,M. H. Ye,J. H. Yin,B. X. Yu,C. X. Yu,J. S. Yu,C. Z. Yuan,W. L. Yuan,Y. Yuan,A. Yuncu,A. A. Zafar,A. Zallo,Y. Zeng,B. X. Zhang,B. Y. Zhang,Chi Zhang,C. C. Zhang,D. H. Zhang,H. H. Zhang,Hongming Zhang,J. J. Zhang,J. L. Zhang,J. Q. Zhang,Jiawen Zhang,J. Y. Zhang,J. Z. Zhang,K. Zhang,Liqing Zhang,X. Y. Zhang,Y. Zhang,Y. N. Zhang,Y. H. Zhang,Yunlong Zhang,Yu Zhang,Zhiqing Zhang,Z. P. Zhang,Zhenyu Zhang,Gang Zhao,J. W. Zhao,Jie Zhao,Jimin Zhao,Lei Zhao,Ling Zhao,M. G. Zhao,Q. Zhao,Q. W. Zhao,S. J. Zhao,T. C. Zhao,Y. B. Zhao,Z. G. Zhao,Alexey Zhemchugov,B. Zheng,Jianping Zheng,W. J. Zheng,Y. H. Zheng,B. Zhong,L. P. Zhou,Xiang Zhou,X. K. Zhou,X. R. Zhou,X. Y. Zhou,K. J. Zhu,K. J. Zhu,S. Zhu,S. H. Zhu,Xiaofeng Zhu,Y. C. Zhu,Y. S. Zhu,Z. A. Zhu,J. Zhuang,L. Zotti,B. S. Zou,J. H. Zou +400 more
TL;DR: In this article, the e(+) e(-) -> pi(+) pi(-) cross section in the energy range between 600 and 900 MeV was extracted by exploiting the method of initial state radiation.
Journal ArticleDOI
Defect-induced magnetism in undoped wide band gap oxides: Zinc vacancies in ZnO as an example
Guozhong Xing,Yunhao Lu,Yufeng Tian,Jiabao Yi,Chjan C. Lim,Yongfeng Li,G. P. Li,Dandan Wang,B. Yao,Jun Ding,Yuan Ping Feng,Tom Wu +11 more
TL;DR: In this article, the authors carried out a comparative study on ZnO thin films prepared using both sol-gel and molecular beam epitaxy (MBE) methods, and they found that the solgel derived samples showed much stronger room temperature ferromagnetism with a magnetic signal persisting up to ∼740 K, and this ferromagnetic order coexists with a high density of defects in the form of zinc vacancies.
Journal ArticleDOI
Electrode dependence of resistive switching in Mn-doped ZnO: Filamentary versus interfacial mechanisms
TL;DR: In this paper, a comparative study on resistive switching in Mn-doped ZnO thin films was carried out, and the results suggest that selecting electrodes dictates the resistive switch mechanism presumably by affecting the migration dynamics of oxygen vacancies.
Journal ArticleDOI
Robust room-temperature ferromagnetism with giant anisotropy in Nd-doped ZnO nanowire arrays.
Dandan Wang,Qian Chen,Guozhong Xing,Guozhong Xing,Jiabao Yi,Jiabao Yi,Saidur Rahman Bakaul,Jun Ding,Jinlan Wang,Tom Wu +9 more
TL;DR: These Nd-doped ZnO nanowire arrays which exhibit stable room temperature ferromagnetism with a large saturation magnetic moment as well as a high coercivity are synthesized, indicating giant magnetic anisotropy in these magnetic oxide nanowires.