安兴达 副教授-尊龙凯时

教育经历：

2017/08 – 2022/05  美国波士顿大学 化学系 哲学博士

2012/08 – 2016/06  中国科学技术大学 材料科学与工程系 理学学士

工作经历：

2022/08至今 苏州大学 功能纳米与软物质研究院 副教授

所在课题组：

何乐教授课题组

尊龙凯时的联系方式：

江苏省苏州市工业园区仁爱路199号，910-3323

邮箱：xdan@suda.edu.cn

办公电话：0512-65880226

研究领域：

1. 表面等离激元光物理化学机制

2. 等离激元光催化

个人荣誉：

nano research energy学术新星奖（2024）

nesin best researcher award (2024)

苏州大学优秀青年学者（2022）

sugata ray memorial award (2021)

代表性研究成果：

自2017年以来一直从事表面等离激元光物理化学机制研究及在光催化等领域的应用探索。目前已在nat. commun., jacs, pnas, chem, angew. chem., adv. mater. 等高水平期刊发表学术论文30余篇；主持国自然青年项目一项，参与国自然国合项目一项。

近年代表性论文：

1. l. shuang, z. wu, z. zhu, k. feng, y. zhou, x. hu, x. huang, b. zhang, x. dong, y. ma, k. nie, j. shen, z. wang, j. he, j. wang, y. ji, b. yan, q. zhang, a. genest, x. zhang, c. li*, b. wu, x. an*, g. rupprechter, l. he*. quantifying the distinct role of plasmon enhancement mechanisms in prototypical antenna-reactor photocatalysts. nat. commun. 2025, accepted.

2. z. wu, j. shen, z. li, s. liu, y. zhou, k. feng, b. zhang, s. zhao, d. xue, j. he, k. yu, j. zhang, g. dawson, q. zhang, l. huang, c. li*, x. an*, l. chi, x. zhang*, l. he*. anisotropic plasmon resonance in ti₃c₂t_x mxene enables site-selective plasmonic catalysis. acs nano, 2025, 19, 1832.

3. l. zhang, c. li, t. witoon, x. an*, l. he*. nano-thermometry in photothermal catalysis. chin. j. struct. chem., 2024, 100456.

4. x. hu, z. zhu, y. zhou, s. liu, c. wu, j. wang, y. shen, t. yan, l. zhang, j. chen, k. feng, a. genest, g. rupprechter, x. an*, c. li*, l. he*. enhanced photochemical effects of plasmonic cluster catalysts through aggregated nanostructures. green chem., 2024, 26, 6994 (back cover).

5. j. li^#, l. zhang^#, x. an^#, k. feng, x. wang, j. he, y. huang, j. liu, l. zhang, b. yan, c. li, l. he. tuning adsorbate-mediated strong metal-support interaction by oxygen vacancy: a case study in ru/tio₂. angew. chem. int. ed., 2024, e202407025.

6. m. cai^#, c. li^#, x. an^#, b. zhong, y. zhou, k. feng, s. wang, c. zhang, m. xiao, z. wu, j. he, c. wu, j. shen, z. zhu, k. feng, j. zhong and l. he*, supra-photothermal co2 methanation over greenhouse-like plasmonic superstructures of ultrasmall cobalt nanoparticles. adv. mater., 2024, 36, 2308859.

7. j. wang, z. zhu, k. feng, s. liu, y. zhou, i. urooj, j. he, z. wu, j. shen, x. hu, z. chen, x. dong, m. sohail, y. ma, j. chen, c. li*, x. an*, l. he*. anisotropic plasmon resonance enables spatially controlled photothermal and photochemical effects in hot carrier-driven catalysis. chin. j. chem., 2024, 42, 1877. (back cover)

8. y. xiao, k. feng, g. dawson, v. p. tolstoy, x. an*, c. li*, l. he*. a feasible interlayer strategy for simultaneous light and heat management in photothermal catalysis. iscience, 2024, 27, 109792.

9. l. zhang^#, x. an^#, k. feng^#, j. li, j. liu, j. chen, c. li*, x. zhang*, l. he*. non-photochemical origin of selectivity difference between light and dark catalytic conditions. acs appl. mater. interfaces, 2024, 16, 21987. (^#equal contribution)

10. z. zhu, r. tang, c. li*, x. an*, l. he*. promises of plasmonic antenna‐reactor systems in gas‐phase co2 photocatalysis. adv. sci., 2023: 2302568.

11. b. zhong, m. cai, s. liu, j. he, j. wang, k. feng, v. p. tolstoy, l. jiang, c. li*, x. an*, l. he*. modulation of the structure‐function relationship of the “nano‐greenhouse effect” towards optimized supra‐photothermal catalysis. chem. asian j., 2024, 19, e202301077.

12. x. an, j. c. kays, i. v. lightcap, t. ouyang, a. m. dennis, and b. m. reinhard*. wavelength-dependent bifunctional plasmonic photocatalysis in au/chalcopyrite hybrid nanostructures. acs nano, 2022, 16, 6813.

13. x. an, a. majumder, j. mcneely, j. yang, t. puri, z. he, t. liang, j. k. snyder, j. e. straub, and b. m. reinhard.* interfacial hydration determines orientational and functional dimorphism of sterol-derived raman tags in lipid-coated nanoparticles. proc. natl. acad. sci. u.s.a., 2021, 118,e2105913118.

14. x. an, n. naowarojna, p. liu, and b. m. reinhard*. hybrid plasmonic photoreactors as visible light-mediated bactericides. acs appl. mater. interfaces, 2019, 12, 106.

15. x. an, d. stelter, t. keyes, and b. m. reinhard*. plasmonic photocatalysis of urea oxidation and visible-light fuel cells. chem, 2019, 5, 2228.

责任编辑：杨娟