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[交流] 澳大利亚昆士兰科技大学招收能源方向博士生-

澳洲昆士兰科技大学王红霞 (hongxia wang) 导师招收博士研究生

简介
昆士兰科技大学（queensland university of technology）坐落于澳大利亚昆士兰州布里斯班市区。历史悠久，声誉卓著。目前排名全澳前10。
组内科研经费充足，导师王红霞为澳洲arc future fellow的获得者（相当于国内杰青）。
具体详情请参考课题组链接 http://hongxiawanggroup.org/

入学要求
获得或者即将获得国内硕士学位，英语达到入学条件（雅思平均6.5分，单科不低于6分；或者托福90分，单科不低于20分)。

提供全额奖学金（每年约27000澳币），奖学金不需要参与学校竞争，只需要你通过红霞导师的认可即可。

生活方面
qut坐落于澳洲的布里斯班，是一个阳光城市，四季如春，每年最低气温不低于零上5摄氏度，很适合生活。

主要研究方向
欢迎具有化学、物理、材料背景的学生申请，
希望你具有太阳能电池（钙钛矿太阳能电池）或者电化学能源存储方面的研究经验，至少有一篇sci论文发表。
有意者可以发简历到

以下是我们组在2018年一年发表的部分文章，供参考。

[1]       l. wang, z. wei, m. mao, h. wang, y. li, and j. ma, “metal oxide/graphene composite anode materials for sodium-ion batteries,” energy storage materials, vol. 16, pp. 434-454, 2019.

[2]       y. zhao, n. jiang, x. zhang, j. guo, y. li, l. gao, et al., “low-cost, large-scale, one-pot synthesis of c/ni 3 (no 3 ) 2 (oh) 4 composites for high performance supercapacitor,” materials chemistry and physics, vol. 217, pp. 291-299, 2018.

[3]       z. zhang, j. zhao, m. xu, h. wang, y. gong, and j. xu, “facile synthesis of sb2s3/mos2 heterostructure as anode material for sodium-ion batteries,” nanotechnology, vol. 29, pp. 1-7, 2018.

[4]       z. zhang, j. zhao, h. wang, y. gong, and j. l. xu, “facile synthesis of sb/cnt nanocomposite as anode material for sodium-ion batteries,” functional materials letters, vol. 11, pp. 1850004-  1850004, 2018.

[5]       z. zhang, x. huang, h. wang, s. h. teo, and t. ma, “free-standing nico2s4@vs2 nanoneedle array composite electrode for high performance asymmetric supercapacitor application,” journal of alloys and compounds, vol. 771, pp. 274-280, 2018.

[6]       s. zhang, n. d. pham, t. tesfamichael, j. bell, and h. wang, “thermal effect on czts solar cells in different process of zno/ito window layer fabrication,” sustainable materials and technologies, vol. 18, pp. article number-e00078, 2018.

[7]       s. zhang, h. d. hadi, y. wang, b. liang, v. t. tiong, f. ali, et al., “a precursor stacking strategy to boost open-circuit voltage of cu2znsns4 thin-film solar cells,” ieee journal of photovoltaics, 2018.

[8]       f. yu, z. liu, r. zhou, d. tan, h. wang, and f. wang, “pseudocapacitance contribution in boron-doped graphite sheets for anion storage enables high-performance sodium-ion capacitors,” materials horizons, vol. 5, pp. 529-535, 2018.

[9]       f. yu, z. chang, x. yuan, f. wang, y. zhu, l. fu, et al., “ultrathin nico2s4@graphene with a core╟shell structure as a high performance positive electrode for hybrid supercapacitors,” journal of materials chemistry a, vol. 2018, pp. 5856-5861, 2018.

[10]       d. yao, c. zhang, n. d. pham, y. zhang, v. t. tiong, a. du, et al., “hindered formation of photo-inactive δ-fapbi3 phase and hysteresis-free mixed-cation planar heterojunction perovskite solar cells with enhanced efficiency via potassium incorporation,” the journal of physical chemistry letters, vol. 9, pp. 2113-2120, 2018.

[11]       y. yang, n. d. pham, d. yao, h. zhu, p. yarlagadda, and h. wang, “inorganic p-type semiconductors and carbon materials based hole transport materials for perovskite solar cells,” chinese chemical letters, vol. 29, pp. 1242-1250, 2018.

[12]       w. xu, t. wang, h. wang, s. zhu, y. liang, z. cui, et al., “free-standing amorphous nanoporous nickel cobalt phosphide prepared by electrochemically delloying process as a high performance energy storage electrode material,” energy storage materials, 2018.

[13]       t. wang, h. c. chen, f. yu, x. s. zhao, and h. wang, “boosting the cycling stability of transition metal compounds-based supercapacitors,” energy storage materials, 2018.

[14]       v. t. tiong, n. d. pham, t. wang, t. zhu, x. zhao, y. zhang, et al., “octadecylamine-functionalized single-walled carbon nanotubes for facilitating the formation of a monolithic perovskite layer and stable solar cells,” advanced functional materials, pp. 1705545-1705545, 2018.

[15]       l. sun, j. liu, z. liu, t. wang, h. wang, and y. li, “sulfur-doped mesoporous carbon via thermal reduction of cs2 by mg for high-performance supercapacitor electrodes and li-ion battery anodes,” rsc advances, vol. 8, pp. 19964-19970, 2018.

[16]       m. roknuzzaman, k. ostrikov, k. chandula wasalathilake, c. yan, h. wang, and t. tesfamichael, “insight into lead-free organic-inorganic hybrid perovskites for photovoltaics and optoelectronics: a first-principles study,” organic electronics, vol. 59, pp. 99-106, 2018.

[17]       h. d. pham, h. hu, f.-l. wong, c.-s. lee, w.-c. chen, k. feron, et al., “acene-based organic semiconductors for organic light-emitting diodes and perovskite solar cells,” journal of materials chemistry c, 2018.

[18]       s. Öz, j. burschka, e. jung, r. bhattacharjee, t. fischer, a. mettenbörger, et al., “protic ionic liquid assisted solution processing of lead halide perovskites with water, alcohols and acetonitrile,” nano energy, vol. 51, pp. 632-638, 2018.

[19]       j. ma, z. wei, l. wang, m. zhuo, w. ni, h. wang, et al., “layered tin sulfide and selenide anode materials for li- and na-ion batteries,” journal of materials chemistry a, vol. 6, pp. 12185-12214, 2018.

[20]       a. jaggessar, a. mathew, h. wang, t. tesfamichael, c. yan, and p. k. yarlagadda, “mechanical, bactericidal and osteogenic behaviours of hydrothermally synthesised tio 2 nanowire arrays,” journal of the mechanical behavior of biomedical materials, vol. 80, pp. 311-319, 2018.

[21]       z. huang, x. qin, x. gu, g. li, y. mu, n. wang, et al., “mn3o4 quantum dots supported on nitrogen-doped partially exfoliated multi-wall carbon nanotubes as oxygen reduction electrocatalysts for high-performance zn-air batteries,” acs applied materials & interfaces, 2018.

[22]       x. huang, z. zhang, h. li, h. wang, and t. ma, “in-situ growth of nanowire wo 2.72 on carbon cloth as a binder-free electrode for flexible asymmetric supercapacitors with high performance,” journal of energy chemistry, 2018.

[23]       j. guo, y. zhao, n. jiang, a. liu, l. gao, y. li, et al., “one-pot synthesis of 2d ti3c2/ni2co3(oh)2 composite as electrode material with superior capacity and high stability for hybrid supercapacitor,” electrochimica acta, vol. 292, pp. 168-179, 2018.

[24]       j. guo, y. zhao, n. jiang, a. liu, l. gao, y. li, et al., “in-situ grown ni(oh)2 nanosheets on ni foam for hybrid supercapacitors with high electrochemical performance,” journal of the electrochemical society, vol. 165, pp. a882-a890, 2018.

[25]       y. gong, j. zhao, h. wang, and j. xu, “cuco2s4/reduced graphene oxide nanocomposites synthesized by one-step solvothermal method as anode materials for sodium ion batteries,” electrochimica acta, 2018.

[26]       f. ali, n. d. pham, j. bradford, n. khoshsirat, k. ostrikov, j. bell, et al., “tuning of oxygen vacancy in sputter-deposited snox films for enhancing the performance of perovskite solar cells,” chemsuschem, vol. 11, pp. 3096-3103, 2018.

[ Last edited by MrWilliam on 2020-10-14 at 04:37 ]

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