2023
86. Ultrasmall coinage metal nanoclusters as promising theranostic probes for biomedical applications
Yang Ge, Wang Ziping, Du Fanglin, Jiang Fuyi, Yuan Xun*, Ying, Jackie Y.*, J. Am. Chem. Soc. 2023, 145, 11879. (前瞻性论 文; 封面)
85. Embedding oxophilic rare-earth single atom in platinum nanoclusters for efficient hydrogen electro-oxidation
Wang Xiaoning, Tong Yanfu, Feng Wenting, Liu Pengyun, Li Xuejin, Cui Yongpeng, Cai Tonghui, Zhao Lianming, Xue Qingzh ong, Yan Zifeng, Yuan Xun*, Xing Wei*, Nat. Commun. 2023, 14, 3767.
84. Engineering Au44 nanoclusters for NIR-II luminescence imaging-guided photoactivatable cancer immunotherapy
Yang Ge, Pan Xinxin, Feng Wenbi, Yao Qiaofeng, Jiang Fuyi, Du Fanglin, Zhou Xianfeng*, Xie Jianping* and Yuan Xun*, A CS Nano, 2023, accepted.
83. Ligand engineering of Au44 nanoclusters for NIR-II luminescent and photoacoustic imaging-guided cancer photothermal
therapy
Yang Ge, Mu Xueluer, Pan Xinxin, Tang Ying, Yao Qiaofeng, Wang Yaru, Jiang Fuyi, Du Fanglin, Xie Jianping*,
Zhou Xianfeng*, and Yuan Xun*, Chem. Sci. 2023, 14, 4308.
82. Up-shifting the desalination rate limit of capacitive deionization via integrating chloride-capturing Bi nanocluster with
flow-through cell architecture
Wang Lihao†, Liu Zizhen†, Wang Ziping, Ma Qianhui, Guo Zixin, Shen Genzhe, Wang Kai, Xu Xingtao, Liu Yong*, and
Yuan Xun*, Chem. Eng. J. 2023, 460, 141726.
81. Water-soluble Cu30 nanoclusters as a click chemistry catalyst for living cell labeling via azide-alkyne cycloaddition
Yang Ge, Xie Yali, Wang Yaru, Tang Ying, Chng Leng Leng, Jiang Fuyi, Du Fanglin, Zhou Xianfeng*, Ying Y. Jackie*, and
Yuan Xun*, Nano Res. 2023, 16, 1748.
80. Temperature-mediated in-situ formation of antimony nanoclusters inside carbon nanofibers for chloride-driven capacitive
deionization
Liu Zizhen†, Wang Lihao†, Shen Genzhe, Guo Zixin, Qin Chengjin, Ni Xinyi, Cao Jing, Xu Xingtao, Liu Yong*, and
Yuan Xun*, Desalination 2023, 553, 116471.
79. Cu(I) complexes with aggregation-induced emission for enhanced photodynamic antibacterial application
Zuo Zhongxiang†, Pan Xinxin†, Yang Ge, Zhang Yuemin, Liu Xingwen, Zha Jinrun, and Yuan Xun*, Dalton Trans.
2023, 52, 2942.
78. Ligand engineering of luminescent AuAg nanoclusters for targeted mitochondrial and brain imaging
Pan Xinxin†, Zuo Zhongxiang†, Wang Ziping, Yang Ge, Zhu Haiguang, Li Yang, and Yuan Xun*, Mater. Chem. Front.
2023, 7, 1146.
2022
77. Gold nanocluster with AIE: A novel photodynamic antibacterial and deodorant molecule
Zhu Haiguang†, Wang Shanshan†, Wang Yaru, Song Chuanwen, Yao Qiaofeng, Yuan Xun*, and Xie Jianping*, Biomaterials 2022, 288, 121695.
76. Conjugating AIE-featured AuAg nanoclusters with highly luminescent carbon dots for improved visible-light-driven antibacter ial activity
Naiwei Liu, Yichun Wang, Ziping Wang, Qiuxia He, Yong Liu, Xinyue Dou, Zhengmao Yin, Yang Li, Haiguang Zhu* and Xun Yuan* . Nanoscale, 2022,14, 8183
75. Atomic-Precision Pt6 Nanoclusters for Enhanced Hydrogen Electro-oxidation.
X. Wang, L. Zhao, X. Li, Y. Liu, Y. Wang, Q. Yao, J. Xie, Q. Xue, Z. Yan, X. Yuan*, W. Xing*. Nat. Commun. 2022, 13, 1596.
74. Ligand engineering of Au nanoclusters with multifunctional metalloporphyrins for photocatalytic H2O2 production.
Q. Xue, Z. Wang, S. Han, Y. Liu, X. Dou, Y. Li, H. Zhu*, X. Yuan*. J. Mater. Chem. A., 2022.
73. Engineering luminescent metal nanoclusters for sensing applications.
S. Qian, Z. Wang, Z. Zuo, X. Wang, Q. Wang, X. Yuan*. Coordin. Chem. Rev., 2022, 451, 214268. (综述)
72. Layered double hydroxide coated electrospun carbon nanofibers as the chloride capturing electrode for ultrafast electrochemic al deionization.
Y. Liu†, X. Du†, Z. Wang, L. Wang, Z. Liu, W. Shi, R. Zheng, X. Dou, H. Zhu, X. Yuan*. J. Coll. Inter. Sci, 2022, 609, 289-2 96. (†共同一作)
71. In Situ Synthesis of Bismuth Nanoclusters within Carbon Nano-Bundles from Metal–Organic Framework for Chloride-Driven
Electrochemical Deionization.
Y. Liu, L. Wang, Q. Yao, X. Gao, X. Du, X. Dou, H. Zhu, X. Yuan*, J. Xie*, Adv. Funct. Mater. 2022, 32, 12, 2110087.
2021
70. MoS2 nanoflakes-coated electrospun carbon nanofibers for “rocking-chair” capacitive deionization.
Y. Liu†, X. Du†, Z. Wang, L. Zhang, Q. Chen, L. Wang, Z. Liu, X. Dou, H. Zhu, X. Yuan*. Desalination,
2021, 250, 115376. (†共同一作)
69. Marrying luminescent Au nanoclusters to TiO2 for visible-light-driven antibacterial application.
H. Zhu†, N. Liu†, Z. Wang, Q. Xue, Q. Wang, X. Wang, Y. Liu, Z. Yin, X. Yuan*. Nanoscale, 2021, 13,
18996-19003. (†共同一作)
68. Shining Photocatalysis by Gold-based Nanomaterials.
H. Zhu, X. Yuan*, Q. Yao*, J. Xie*. Nano Energy, 2021, 88, 106306. (综述)
67. The beauty of binary phases: a facile strategy for synthesis, processing, functionalization, and applica
tion of ultrasmall metal nanoclusters.
Z. Wang, X. Pan, S. Qian, G. Yang, F. Du, X. Yuan*. Coordin. Chem. Rev., 2021, 438, 213900. (综述)
66. Mechanistic insights into the two-phase synthesis of heteroleptic Au nanoclusters.
X. Wang†, S. Wang†, S. Qian, N. Liu, X. Dou, X. Yuan*. Nanoscale, 2021, 13, 6, 3512c3518. (†
共同一作)
65. Decorating Pt@cyclodextrin nanoclusters on C3N4/MXene for boosting the photocatalytic H2O2
production.
H. Zhu†, Q. Xue†, G. Zhu, Y. Liu, X. Dou, X. Yuan*. J. Mater. Chem. A, 2021, 9, 11, 6872-6880. (†共同一作)
64. Dynamic metal exchange between a metalloid silver cluster and silver(I) thiolate.
L. Tang, X. Kang, X. Wang, X. Zhang, X. Yuan, S. Wang*. Inorg. Chem., 2021, 60, 5, 3037–
3045.
63. MnO2 decorated porous carbon derived from Enteromorpha prolifera as flow-through electrode
for dual-mode capacitive deionization
Y. Liu, B. Geng, Y. Zhang, X. Gao, X. Du, X. Dou, H. Zhu, X. Yuan* Desalination, 2021, 504,
114977.
62. Catalytically potent and selective clusterzymes for modulation of neuroinflammation through single-
atom substitutions
H. Liu, Y. Li, S. Sun, Q. Xin, S. Liu, X. Mu, X. Yuan, K. Chen, H. Wang, K. Varga, W. Mi,
J. Yang&X. Zhang* Nat. Commun., 2021, 12, 114.
61. Recent advances of biomass derived electrode materials for capacitive deionization.
Y. Liu, X. Gao, L. Zhang, X. Du, X. Dou, X. Shen, H. Zhu*, X. Yuan* Curr. Nanosci., 2021,
Accepted.
60. Controlled synthesis of bismuth oxychloride-carbon nanofiber hybrid materials as highly efficient
electrodes for rocking-chair capacitive deionization.
Y. Liu†, X. Gao†, Z. Wang, K. Wang, X. Dou, H. Zhu, X. Yuan* and L. Pan. Chem. Eng. J.
2021, 403, 126326.(†共同一作)
59. Molecular reactivity of thiolate-protected noble metal nanoclusters: synthesis, self-assembly, and
applications
Q. Yao, Z. Wu, Z. Liu, Y. Lin, X. Yuan* and J. Xie* Chem. Sci. 2021, 12, 99-127.
58. Injectable Ag Nanoclusters-Based Hydrogel for Wound Healing via Eliminating Bacterial Infection
and Promoting Tissue Regeneration
X. Wang, Z. Wang, S. Fang, Y. Hou, X. Du, Y. Xie, Q. Xue, X. Zhou, and X. Yuan* Chem. Eng.
J., 2021, 127589.
2020
57. Highly luminescent AuAg nanoclusters with aggregation-induced emission for high-performance
white LED application.
Z. Yin†, Z. Wang†, X. Dai, N. Liu, S. Wang, G. Li, F. Du, and X. Yuan* ACS Sustainable
Chem. Eng., 2020, 8, 40, 15336–15343.(†共同一作)
56. From understanding the roles of tetraoctylammonium bromide in the Two-Phase Brust-Schiffrin
Method to tuning the size of gold nanoclusters.
X. Dou†, X. Wang†, S. Qian, N. Liu, X. Yuan* Nanoscale, 2020, 12, 19855-19860.(†共同一作)
55. Mn2O3 nanoflower decorated electrospun carbon nanofibers for efficient hybrid capacitive
deionization.
Y. Liu, X. Gao, L. Zhang, X. Shen, X. Du, X. Dou, X. Yuan*. Desalination, 2020, 495, 15,
114665.
Author links open overlay panel
Author links open overlay pane
54. Rocking-chair capacitive deionization with flow-through electrodes.
Y. Liu, X. Gao, K. Wang, X. Dou, H. Zhu, X. Yuan* and L. Pan. J. Mater. Chem. A, 2020, 8, 8476-8484.
53. Effect of subtle changes of isomeric ligands on the synthesis of atomically precise water-soluble gold nanoclusters.
X. Zhang, Z. Wang, S. Qian, N. Liu, L. Sui* and X. Yuan*. Nanoscale, 2020, 12, 6449-6455.
52. The in situ synthesis of silver nanoclusters inside a bacterial cellulose hydrogel for antibacterial applications.
Y. Liu†, S. Wang†, Z. Wang, Q. Yao, S. Fang, X. Zhou, X. Yuan* and J. Xie*. J. Mater. Chem. B, 2020, 8, 4846-4850.(†共同一作)
51. Miscible Solvent-Assisted Two-Phase Synthesis of Monolayer Ligand-Protected Metal Nanoclusters with Various Sizs.
X. Yuan, L. Chng, J. Yang, and J. Ying*. Adv. Mater. 2020, 32(9), 1906063.
50. MoC nanoparticle-embedded carbon nanofiber aerogels as flow-through electrodes for highly efficient pseudocapacitive deionization.
Y. Liu, Y. Zhang, Y. Zhang, Q. Zhang, X. Gao, X. Dou, H. Zhu, X. Yuan*, and Likun Pan. J. Mater. Chem. A. 2020, 8, 1443-1450 .
49. Embedding ultrasmall Ag nanoclusters in Luria-Bertani extract via light irradiation for enhanced antibacterial activity.
Z. Wang, Y. Fang, X. Zhou, Z. Li, H. Zhu, F. Du, X. Yuan* Q. Yao*, and J. Xie*. Nano Research. 2020, 13, 203–208.
2019
48. Real-time Monitoring of the Dynamic Intra-cluster Diffusion of Single Gold Atoms into Silver Nanoclusters.
K. Zheng, V. Fung, X. Yuan*, D. Jiang, J. Xie*. J. Am. Chem. Soc. 2019, 141, 48, 18977-18983. (前封面)
47. Water-soluble metal nanoclusters: recent advances in molecular-level exploration and biomedical applications.
X. Dou, X. Chen, H. Zhu, Y. Liu, D. Chen, X. Yuan*, Q. Yao*, and J. Xie*. Dalton T. 2019, 48, 10385-10392. (封面)
46. Silver doping induced luminescence enhancement and red shift of gold nanoclusters with aggregation-induced emission.
Z. Wang, Z. Zhu, C. Zhao, Q. Yao, X. Li, H. Liu, F. Du, X. Yuan*, and J. Xie*. Chem. Asian J. 2019, 14(6), 765-769. (被Wiley Advanced Science News 做亮点报道)
45. Antimicrobial strategies for urinary catheters.
Z. Zhu, Z. Wang, S. Li, and X. Yuan*, J. Biomed. Mater. Res. A. 2019, 107(2), 445-467.
2018
44. Toward total synthesis of thiolate-protected metal nanoclusters.
Q. Yao, T. Chen, X. Yuan, and J. Xie*, Acc. Chem. Res. 2018, 51(6), 1338-1348. (ESI高被引论文)
43. Engineering functional metal materials at the atomic level.
Q. Yao, X. Yuan, T. Chen, D. T. Leong, and J. Xie*. Adv. Mater. 2018, 30(47), 1802751.
2017
42. Engineering gold-based radiosensitizers for cancer radiotherapy.
N. Goswami, Z. Luo, X. Yuan*, D. T. Leong, and J. Xie*, Mater. Horiz. 2017, 4(5), 817-831. (ESI高被引论文)
41. Effect of ligand structure on the size control of mono- and bi-thiolate-protected silver nanoclusters.
K. Zheng, X. Yuan*, and J. Xie*, Chem. Commun. 2017, 53(70), 9697-9700.
Before QUST
40. Understanding seed-mediated growth of gold nanoclusters at molecular level.
Q. Yao, X. Yuan, V. Fung, Y. Yu, D. T. Leong, D. Jiang, and J. Xie. Nat. Commun. 2017, 8, 927. (ESI高被引论文)
39. Balancing the rate of cluster growth and etching for gram-scale synthesis of thiolate-protected Au25 nanoclusters with atomic precision.
X. Yuan, B. Zhang, Z. Luo, Q. Yao, D. T. Leong, N. Yan, and J. Xie. Angew. Chem. Int. Ed. 2014, 53(18), 4623-4627. (ESI高被引论文)
38. Synthesis of highly fluorescent metal (Ag, Au, Pt, and Cu) nanoclusters by electrostatically induced reversible phase transfer.
X. Yuan, Z. Luo, Q. Zhang, X. Zhang, Y. Zheng, J. Y. Lee, and J. Xie. ACS. Nano. 2011, 5(11), 8800-8808. (ESI高被引论文)
37. Highly luminescent silver nanoclusters with tunable emissions: Cyclic reduction decomposition synthesis and antimicrobial property.
X. Yuan, M. I. Setyawati, A. S. Tan, C. N. Ong, D. T. Leong, and J. Xie. NPG. Asia. Mater. 2013, 5, e39, doi:10.1038/am.2013.3. (ESI高被引论文)
36. Insight into the effect of surface ligands on the optical properties of thiolated Au25 nanoclusters.
X. Yuan, N. Goswami, W. L. Chen, Q. Yao, and J. Xie. Chem. Commun. 2016, 52(30), 5234-5237. (ESI高被引论文)
35. Enhancing stability through ligand-shell engineering: A case study with Au25(SR)18 nanoclusters.
X. Yuan, N. Goswami, I. Mathews, Y. Yu, and J. Xie. Nano. Res. 2015, 8(11), 3488-3495.
34. Boiling water synthesis of ultrastable thiolated silver nanoclusters with aggregation-induced emission.
K. Zheng, X. Yuan, K. Kuah, Z. Luo, Q. Yao, Q. Zhang, and J. Xie. Chem. Commun. 2015, 51(82), 15165-15168.
33. Recent advances in the synthesis and applications of ultrasmall bimetallic nanoclusters. X. Yuan, X. Dou, K. Zheng, and J. Xie. Part. Part. Syst. Charact. 2015, 32(6), 613-629.
32. Ultrasmall Ag+-rich nanoclusters as highly efficient nanoreservoirs for bacterial killing.
X. Yuan, M. I. S. Setyawati, D. T. Leong, and J. Xie. Nano. Res. 2014, 7(3), 301-307.
31. Lighting up bimetallic Au@Ag nanoclusters via aggregation-induced emission.
X. Dou, X. Yuan, Y. Yu, Z. Luo, Q. Yao, D. Leong, and J. Xie. Nanoscale 2014, 6(1), 157-161. (ESI高被引论文)
30. Traveling through the desalting column spontaneously transforms thiolated Ag nanoclusters from nonluminescent to highly luminescent.
X. Yuan, Q. Yao, Y. Yu, Z. Luo, X. Dou, and J. Xie. J. Phys. Chem. Lett. 2013, 4(11), 1811-1815.
29. Glutathione-protected silver nanoclusters as cysteine-selective fluorometric and colorimetric probe.
X. Yuan, Y. Tay, X. Dou, Z. Luo, D. T. Leong, and J. Xie. Anal. Chem. 2013, 85(3), 1913-1919. (ESI高被引论文)
28. Luminescent noble metal nanoclusters as an emerging optical probe for sensor development.
X. Yuan, Z. Luo, Y. Yu, Q. Yao, and J. Xie. Chem. Asian. J. 2013, 8(5), 858-871. (ESI高被引论文)
27. Fast synthesis of thiolated Au25 nanoclusters via protection-deprotection method.
X. Yuan, Y. Yu, Q. Yao, Q. Zhang, and J. Xie. J. Phys. Chem. Lett. 2012, 3(17), 2310-2314.
26. Highly luminescent Ag+ nanoclusters for Hg2+ ion detection.
X. Yuan, T. J. Yeow, Q. Zhang, J. Y. Lee, and J. Xie. Nanoscale 2012, 4(6), 1968-1971.
25. Preparation and application of mesoporous Fe/Carbon composites as a drug carrier.
X. Yuan, W. Xing, S. P. Zhuo, Z. H. Han, G. Q. Wang, et al. Micropor. Mesopor. Mat. 2009,117(3), 678-684.
24. Adsorption of bulky molecules of nonyphenol ethoxylate on ordered mesoporous carbons.
X. Yuan, W. Xing, S. P. Zhuo, W. J. Si, X. L. Gao, et al. J. Colloid. Interf. Sci. 2008, 322(2), 558-565.
23. Aqueous dye asorption on ordered mesoporous carbons.
X. Yuan, S. P. Zhuo, W. Xing, H. Y. Cui, X. D. Dai, et al. J. Colloid Interf. Sci. 2007, 310(1), 83-89.
22. Synthesis of ordered mesoporous carbon and its application in aqueous macromolecular adsorption.
X. Yuan, Y. Y. Liu, S. P. Zhuo, W. Xing, Y. Q. Sun, et al. Acta. Chim. Sin. 2007, 65(17), 1814-1820.
21. Introducing amphiphilicity to noble metal nanoclusters via phase-transfer driven ion-pairing reaction.
Q. Yao, X. Yuan, Y. Yu, Y. Yu, J. Xie, and J. Y. Lee. J. Am. Chem. Soc. 2015, 137(5), 2128-2136. (ESI高被引论文)
20. From aggregation-induced emission of Au(I)-thiolate complexes to ultra-bright Au(0)@Au(I)- thiolate core-shell nanoclusters.
Z. Luo, X. Yuan, Y. Yu, Q. Zhang, D. T. Leong, J. Y. Lee, and J. Xie. J. Am. Chem. Soc. 2012, 134(40), 16662-16670. (ESI高被引论文)
19. The influence of lysosomal sability of silver nanomaterials on their toxicity to human cells.
M. I. Setyawati, X. Yuan, J. Xie, and D. T. Leong. Biomaterials 2014, 35(25), 6707-6715.
18. Facile synthesis of water-soluble Au25–xAgx nanoclusters protected by Mono- and Bi-thiolate ligands.
X. Dou, X. Yuan, Q. Yao, Z. Luo, K. Zheng, and J. Xie. Chem. Commun. 2014, 50(56), 7459-7462.
17. Recent advances in the synthesis, characterization, and biomedical applications of ultrasmall thiolated silver nanoclusters.
K. Zheng, X. Yuan, N. Goswami, Q. Zhang, and J. Xie. RSC. Adv. 2014, 4(105), 60581-60596.
16. Capacitive performance of mesoporous carbons derived from the citrates in ionic liquid.
J. Zhou, X. Yuan, W. Xing, W. J. Si, and S. P. Zhuo. Carbon 2010, 48(10), 2765-2772.
15. Mesoporous carbons derived from citrates for use in electrochemical capacitors.
J. Zhou, X. Yuan, W. Xing, W. J. Si, and S. P. Zhuo. New. Carbon. Mater. 2010, 25(5), 370-375.
14. Preparation of polyaniline-coated mesoporous carbon and its enhanced electrochemical properties.
W. Xing, X. Yuan, S. P. Zhuo, and C. C. Huang. Polym. Advan. Technol. 2009, 20(12), 1179-1182.
13. Counterion‐assisted shaping of nanocluster supracrystals.
Q. Yao, Y. Yu, X. Yuan, Y. Yu, D. Zhao, J. Xie, and J. Y. Lee. Angew. Chem. Int. Ed. 2015, 54(1), 184-189.
12. Assembly of nanoions via the elec trostatic interactions: Observation of the ionic-like behavior of charged noble metal nanoclusters.
Q. Yao, Z. Luo, X.Yuan, Y. Yu, C. Zhang, J. Xie, and J. Y. Lee.Sci. Rep. 2014, 4, 3848.
11. Two-phase synthesis of small thiolate-protected Au15 and Au18 nanoclusters.
Q. Yao, Y. Yu, X. Yuan, Y. Yu, J. Xie, and J. Y. Lee. Small 2013, 9(16), 2696-2701.
10. Heating or cooling: Temperature effects on the synthesis of atomically precise gold nanoclusters.
T. Chen, Q. Yao, X. Yuan, R. R. Nasaruddin, and J. Xie. J. Phys. Chem. C. 2017, 121(20), 10743-10751.
9. The support effect on the size and catalytic activity of thiolated Au25 nanoclusters as precatalyst.
J. Fang, J. Li, B. Zhang, X. Yuan, H. Asakura, T. Tanaka, K. Teramura, J. Xie, and N. Yan. Nanoscale 2015, 7(14), 6325-6333. (ESI高被引论文)
8. Novel Theranostic DNA nanoscaffolds for the simultaneous detection and killing of escherichia coli and Staphylococcus aureus.
M. I. Setyawati, R. V. Kutty, C. Y. Tay, X. Yuan, J. Xie, and D. T. Leong. ACS. Appl. Mater. Inter. 2014, 6 (24), 21822-21831.
7. Solvent controls the formation of Au29(SR)20 nanoclusters in the CO-reduction method.
Y. Yu, Q. Yao, K. Cheng, X. Yuan, Z. Luo, and J. Xie. Part. Part. Syst. Charact. 2014, 31(6), 652-656.
6. Precursor engineering and controlled conversionfor the synthesis of monodisperse thiolate-protected metal nanoclusters.
Y. Yu, Q. Yao, Z. Luo, X. Yuan, J. Y. Lee, and J. Xie. Nanoscale 2013, 5(11), 4606-4620.
5. Hierarchical porous carbons with high performance for supercapacitor electrodes.
W. Xing, C. C. Huang, S. P. Zhuo, X. Yuan, G. Q. Wang, et al. Carbon 2009, 47(7), 1715-1722. (ESI高被引论文)
4. Adsorption Behavior of NPE on ordered mesoporous carbons.
W. Xing, S. P. Zhuo, X. L. Gao, and X. Yuan. Acta. Chim. Sin. 2009, 67(2), 1771-1778.
3. Preparation of magnetic ordered mesoporous carbon and its drug adsorption behavior.
W. Xing, S. P. Zhuo, W. Si, and X. Yuan. Acta Chim. Sin. 2009, 67(8), 761-766.
2. Ultrasmall glutathione-protected gold nanoclusters as next generation radiotherapy sensitizers with high tumor uptake and high renal clearance.
X. D. Zhang, Z. Luo, J. Chen, S. Song, X. Yuan, X. Shen, et al. Sci. Rep. 2015, 5, 8669. (ESI高被引论文)
1. Morphological control in synthesis of cobalt basic carbonate nanorods assembly.
W. Xing, S. P. Zhuo, H. Cui, H. Zhou, W. Si, X. Yuan, X. Gao, and Z. Yan. Mater. Lett. 2008, 62(8), 1396-1399.