罗光红

罗光红 兼职教授

Email: zhuxiaseng@163.com

教育经历：

2000.8-2005.6：The George Washington University化学系学习，获得理学博士

(PhD)学位。主攻物理化学和激光分析应用。

1993.9-1996.7：大连理工大学高分子材料专业学习，获得理学硕士学位

1989.9-1993.7：大连理工大学高分子化工专业学习，获得工学学士学位

工作经历：

2024.09至今：鲁东大学集成电路学院，中国烟台，兼职教授

2021.12至今：烟台显华高分子材料有限公司，中国烟台，总经理/共同发起人

2005.06-2022.04：美国西部数据(Western Digital Inc.)公司, 美国硅谷，主任研发

工程师到高级研发经理

1997.09-1998.09：中国企业报，中国北京，兼职编辑/记者

1996.07-2000.08：北京矿冶研究总院，中国北京，工程师及科技企业管理科员

目前研究领域：

宽禁带半导体的CMP工艺及耗材

半导体用湿电子化学品

半导体用聚酰亚胺材料

研究生培养：

招收半导体耗材，湿电子化学品及化学机械抛光(CMP)工艺方向硕士研究生，欢迎考生积极报考！

代表性成果：

29个美国/国际专利授权，1个中国专利授权，10余篇国际期刊论文，3篇中文期刊论文。

学术论文：

[1] G. Luo, I. Marginean and A. Vertes, "Internal Energy of Ions Generated by Matrix-Assisted Laser Desorption/Ionization," Anal. Chem., 2002, 74, 6185-6190.

[2] G. Luo, Y. Chen, H. Daniels, R. Dubrow and A. Vertes, "Internal Energy Transfer in Laser Desorption/Ionization from Silicon Nanowires," J. Phys. Chem. B, 2006, 110, 13381-13386.

[3] G. Luo, Y. Chen, G. Siuzdak and A. Vertes, "Surface Modification and Laser Pulse Length Effects on Internal Energy Transfer in DIOS," J. Phys. Chem. B, 2005, 109, 24450-24456.

[4] G. Luo, I. Marginean, L. Ye and A. Vertes, "Competing Ion Decomposition Channels in Matrix-Assisted Laser Desorption Ionization," J. Phys. Chem. B, 2008, 112, 6952-6956.

[5] G. Luo, I. Marginean and A. Vertes, "Internal Energy of Molecular Thermometer Ions in MALDI," Proceedings of the 50^th ASMS conference, 2002, 6.

[6] G. Luo, I. Marginean, L. Ye and A. Vertes, "Laser Pulse Dependance of Internal Energy Transfer in MALDI," Proceedings of the 51th ASMS conference, 2003, 6.

[7] G. Luo, G. Siuzdak and A. Vertes, "Comparison of Internal Energy Transfer in DIOS and in MALDI," Proceedings of the 52th ASMS conference, 2004, 5.

[8] Y. Chen, G. Luo, J. Diao, O. Chornoguz, M. Reeves and A. Vertes, “Laser desorption/ionization from nanostructured surfaces: nanowires, nanoparticle films and silicon microcolumn arrays,” J. Phys: Conf. Ser., 2007, 59, 548-554.

[9] A. Vertes, G. Luo, L. Ye, Y. Chen, I. Marginean, "Laser Pulse Length Dependence of Internal Energy Transfer in UV-MALDI-MS," Appl. Phys. A, 2004, 79, 823-825.

[10] E.P. Go, J.V. Apon, G. Luo, A. Saghatelian, R.H. Daniels, V. Sahi, R. Dubrow, B.F. Cravatt, A. Vertes, G. Siuzdak, "Desorption/Ionization on Silicon Nanowires," Anal. Chem., 2005, 77,1641-1646.

[11] J. J. Diao; J. B. Hutchison; G. Luo; M. E. Reeves, " Theoretical analysis of vertical colloidal deposition," J. Chem. Phys. 2005,122, 184710(1-5).

[12] 罗光红，徐宏德, 蹇锡高，“一种新型绝缘材料——杂萘联苯聚醚砜酮”，《绝缘材料》，1997。

[13] 罗光红，徐宏德, 蹇锡高，“新型PPESK溶解度参数的测定及其溶解性能”，《绝缘材料》，1997。

[14] 罗光红，徐宏德, 罗富春，蹇锡高，“新型杂萘联苯聚醚砜酮绝缘材料”，《矿冶》，1997。

部分发明专利：

1. 一种SiC晶圆制造方法，已授权（ZL 2023 1 0119400.3）；

2. 一种用于半导体铜制程Cu-CMP后清洗液及制备方法，已公开（202410201474）；

3. 一种胶粘剂组合物及其制备方法和应用，已公开（202310487544）；

4. “Method and system for providing a read transducer having symmetric antiferromagnetically coupled shields”，US Patent #10074387, Granted in 2018;

5. “Method to fabricate tunneling magnetic recording heads with extended pinned layer”，US Patent #9318130, Granted in 2016;

6. “Method for providing a magnetoresistive element having small critical dimensions”，US Patent #9196270, Granted in 2015;

7. “Method for providing a magnetic recording transducer using a chemical buffer”，US Patent #9196283, Granted in 2015;

8. “Method and system for providing a read transducer having a dual free layer”，US Patent #9147404, Granted in 2015;

9. “Dual damascene process for producing a PMR write pole”，US Patent #9099118, Granted in 2015;

10. “Process for CMP with large feature size variation”，US Patent #8846534, Granted in 2014;

11. “Method and system for manufacturing tapered waveguide structures in an energy assisted magnetic recording head”，US Patent #8790527, Granted in 2014;

12. “Method and system for providing a perpendicular magnetic recording head”，US Patent #8830628, Granted in 2014;

13. “Perpendicular magnetic recording head having reduced shield notching”，US Patent #8797680, Granted in 2014;

14. “Method and system for providing a magnetic recording transducer using a line hard mask and a wet-etchable mask”，US Patent #8790524, Granted in 2014;

15. “Method for fabricating a read sensor for a read transducer”，US Patent #8607438, Granted in 2013;

16. “Process for fabricating a magnetic pole and shields”，US Patent #8578594, Granted in 2013;

17. “Method and system for providing a magnetic recording pole having a dual sidewall angle”，US Patent #8563146, Granted in 2013;

18. “Method and system for providing a curved surface in a magnetic recording head”，US Patent #8404129, Granted in 2013;

19. “Method and system for providing a perpendicular magnetic recording head”，US Patent #8404128, Granted in 2013;

20. “Method for fabricating a pole of a magnetic transducer”，US Patent #8375564, Granted in 2013;