杨昊 讲师-尊龙凯时

讲师   苏州大学优秀青年学者

学术经历

2022.01-至今，  苏州大学功能纳米与软物质研究院，  讲师

2019.03-2021.12， 苏州大学功能纳米与软物质研究院， 博士后

2017.02-2019.02，美国加州理工学院(caltech)，联合培养博士&访问学者

2011.09-2018.12， 南京工业大学化学与分子工程学院， 博士

2007.09-2011.06， 安庆师范大学化学化工学院，学士

尊龙凯时的联系方式

江苏省苏州市工业园区仁爱路199号，912-411

e-mail：

所在课题组：程涛教授课题组

主要研究方向

1.    电催化二氧化碳还原反应机理理论模拟与新型金属催化剂理性设计；

2.    原位光谱(xps、xas等)理论解析与预测。

主持项目

1.    国家自然科学基金青年基金项目(22103054)，主持，在研；

2.    中国博士后面上项目一等资助(2019m660128)，主持，已结题；

3.    江苏省博士后科研计划(2021k184b)，主持，在研。

代表性论文

1.     h. yang^#, f. r. negreiros^#, q. sun, m. xie, l. sementa, m. stener, y. ye, a. fortunelli^*, w. a. goddard iii^*, t. cheng^*. predictions of chemical shifts for reactive intermediates in co2 reduction under operando conditions. acs appl. mater. interfaces 2021, 13, 31554.

2.      h. yang, t. cheng^*, w. a. goddard iii^*. london dispersion corrections to density functional theory for transition metals based on fitting to experimental temperature-programmed desorption of benzene monolayers. j. phys. chem. lett. 2021, 12, 73.

3.      h. yang, t. cheng^*, w. a. goddard iii^*, x. m. ren^*. design of a one-dimensional stacked spin peierls system with room temperature switching from qm predictions. j. phys. chem. lett. 2019, 10, 6432.

4.      j. wang^#, h. yang^#, f. li, l. li, j. wu, s. liu, t. cheng, y. xu^*, q. shao, x. huang^*, single-site pt doped ruo2 hollow nanospheres with interstitial c for high-performance acidic overall water splitting, sci. adv. 2022, 10.1126/sciadv.abl9271.

5.      m. wang^#, h. yang^#, j. shi, y. chen, y. zhou, l. wang, s. di, x. zhao, j. zhong, t. cheng, w. zhou, y. li^*. alloying nickel with molybdenum significantly accelerates alkaline hydrogen electrocatalysis. angew. chem. int. ed. 2021, 60, 5771.

6.      p. wang^#, h. yang^#, y. xu^#, x. huang^*, j. wang, m. zhong, t. cheng, q. shao^*. synergized cu/pb core/shell electrocatalyst for high-efficiency co2 reduction to c2 liquids. acsnano 2021, 15, 1039.

7.      j. wang^#, h. yang^#, q. liu, q. liu, x. li, x. lv, t. cheng^*, h. b. wu^*. fastening br- ions at copper-molecule interface enables highly efficient electroreduction of co2 to ethanol. acs energy lett. 2021, 6, 437.

8.      q. yuan, y. li^*, p. yu, b. ma, l. xu, q. sun, h. yang^*, m. xie^*, t. cheng^*. reaction mechanism on ni-c2-ns single-atom catalysis for the efficient co2 reduction reaction j. exp. nanosci. 2021, 16, 256.

9.      t. wang,^# y. wu,^# y. han, p. xu, y. pang, x. feng, h. yang^*, w. ji^*, t. cheng. hofmann-type metal-organic framework nanosheets for oxygen evolution. acs appl. nano mater. 2021, 4, 14161.

10.   y. ye^#, h. yang^#, j. qian^#, h. su, k.-j. lee, t. cheng, h. xiao, j. yano^*, w. a. goddard iii^*, e. j. crumlin^*. dramatic differences in carbon dioxide adsorption and initial steps of reduction between silver and copper. nat. comm. 2019, 10, 1875.

责任编辑：杨娟