梁宝岩: 男，吉林省梅河口市人，中原工学院材料电子与储能学院教师。

研究领域:

主要研究领域为超硬材料和光催化。在超硬材料方面，通过多种方法对金刚石颗粒进行表面处理，主要工作包括镀覆和刻蚀。在光催化领域，重点探索和研发了氧化亚锡基新型光催化剂。在SCI或EI期刊上发表50余篇学术论文。

教育和工作经历:

2024/04-至今，中原工学院，材料电子与储能学院，教授

2015/04-2024/04，中原工学院，材料与化工学院，副教授

2010/10-2015/04，中原工学院，材料与化工学院，讲师

2007/09-2010/10，燕山大学，材料学，博士

2003/09-2006/04，长春工业大学，材料学，硕士

1999/09-2003/07，长春工业大学，材料成型及控制工程，学士

主持科研项目:

1.河南省重点高校项目(22A430041)，2022/01-2024/09，结项。

2.河南省科技攻关项目(212102210465)，2020/01-2021/12，结项。

3.河南省重点高校项目(17A430034)，2017/01-2018/12，结项。

4.河南省产学研项目(172107000018)，2017/01-2018/12，结项。

5.郑州市国际合作项目(153PGJHZ209)，2016/01-2017/12，结项。

发表论文:

[1] Liang B , Dai Z , Zhang Q , et al. Coating of diamond by thermal explosion reaction[J]. Diamond and Related Materials, 2021, 119:108572.

[2] Liang B ,  Dai Z ,  Zhang W , et al. Rapid synthesis of MoAlB ceramic via thermal explosion[J]. Journal of Materials Research and Technology, 2021, 14.

[3]Liang B, Dai Z, Zhang W, et al. Carbon reduction of Ti3AlC2 phase for TiC nanosheet production[J]. Journal of Asian Ceramic Societies, 2021: 1-13.

[4]Liang B, Dai Z, Zhang W, et al. Thermal stability and decomposition paths of MoAlB ceramic[J]. Journal of Asian Ceramic Societies, 2021, 9(2): 719-727.

[5] Liang B , Dai Z , Zhang Q , et al. Coating of diamond by thermal explosion reaction[J]. Diamond and Related Materials, 2021, 119:108572.

[6] Liang B ,  Dai Z ,  Zhang W , et al. Rapid synthesis of MoAlB ceramic via thermal explosion[J]. Journal of Materials Research and Technology, 2021, 14.

[7]Liang B, Dai Z, Zhang W, et al. Carbon reduction of Ti3AlC2 phase for TiC nanosheet production[J]. Journal of Asian Ceramic Societies, 2021: 1-13.

[8]Liang B, Dai Z, Zhang W, et al. Thermal stability and decomposition paths of MoAlB ceramic[J]. Journal of Asian Ceramic Societies, 2021, 9(2): 719-727.

[9] Liang B, Zhang L, Wang W, et al. Nanodiamond core/onion-like carbon shell materials with excellent visible light photocatalytic activity[J]. Materials Research Express, 2019, 6(4): 045609.

[10]Liang B, Zhang W. Sn21Cl16(OH)14O6: a promising novel photocatalyst for methyl orange degradation[J]. Materials Research Express, 2019, 6(11): 115066.

[11]Liang B. Mechanical-induced spontaneous formation of SnO2/Sn6O4(OH)4 photocatalysts at room temperature[J]. Materials Letters, 2019, 252: 155-157.

[12]Liang B, Han D, Zhang W, et al. Surface-decorated SnO nanoflowers with P25 for enhanced visible light photocatalytic degradation of MO[J]. Journal of the Australian Ceramic Society, 2019, 55(3): 825-829.

[13]Liang B, Sun C, Han D, et al. ZnO-modified SnO flower-like microstructures with enhanced photocatalytic performance[J]. International Journal of Materials Research, 2019, 110(7): 685-689.