Lanying Lin

Lanying Lin (林兰英) ^[1][2][3][4] (February 7, 1918 – March 4, 2003), was a Chinese scientist in the material engineering field. She was born in Putian City, Fujian Province, which is at the southern part of China. She is called the Mother of Aerospace Materials and the Mother of Semiconductor Materials in China. She was born into a prestigious family, which was deeply influenced by the thought that women did not need to get an education. Because her gender, she was not allowed to go to primary school. But she fought against her family and got a chance to get an education. She graduated from Fukien Christian University,^[5] and earned the bachelor's degree in Physics. At the age of 30, she went to Dickinson College and earned another bachelor's degree in Mathematics. In 1955, she received the doctorate degree in Solid-state physics at the University of Pennsylvania, and became the first Chinese in a hundred years who earned the doctorate degree from this university. In 1957, she came back to China and was assigned to be a researcher at the Institute of Physics CAS. She then moved to Institute of Semiconductor CAS and spent all her research life in this institution.

During her lifetime, she made a lot of attributions to her field. With her research mates, she made the first monocrystalline silicon in China, and then made the first mono-crystal furnace which is used to extract silicon in China. She laid the foundation of the development in Microelectronics and Optoelectronics. She was also responsible for developing extensive materials in high-purified vapor phase and liquid phase, and led China be the leader of the world in this field. She was honored as Academician of Chinese Academy of Sciences and became the vice president of China Association for Science and Technology. She had gotten the prize in National S&T Progress Award^[6] two times, and had gotten the first prize in CAS S&T Progress Award four times. In 1998, she was awarded the Henry Fok Achievement Award for her accomplishments. In the political field, she had been selected as a member in Standing Committee of the National People's Congress and a deputy to the National People's Congress.

Early life and education

Family history^[7]

Lanying Lin was born into a big and prestigious family, which could be traced back to the Ming dynasty 600 years ago. Run Ling, the ancestor of Lanying Lin, was an imperial censor during the Ming Dynasty. Imperial censor is an official position that controls and supervises other government officials. During his work time, he faced two powerful people who broke many laws. He helped the emperor conquer the two contenders to power, so the emperor gave him money to build a magnificent house in Putian, which is now called the Old House of Run Ling. The ancestors of Lanying Lin and Lanying Lin herself were all born and raised in this house.^[8] Because of Run Ling, the family of Lanying Lin can be considered to be nobles.

Early life and education in China^[1][2][3]

In ancient China, women were under-appreciated. This opinion was deeply rooted in the mind of Lanying’s family. Compared with her little sisters, she was quite lucky because she was the first baby. All of her sisters were sent to be child brides or killed. She was often mistreated and was not allowed to get an education. Before she was 6 years old, Lanying was required to wash all the clothes and cook for whole family. At age of six, she wanted to go to school because she wanted to escape the traditional pattern for women at her time, which was doing housework and chatting with other women all day. The only way to do was to get an education. However, her mother, who was deeply influenced by gender schema from society and controlled her life, did not allow that. So Lanying locked herself in her room and swore that she would not eat if she was not allowed to go to school. Her mother was moved by her insistence, so she finally got the chance to get an education.

Her first period of education was at Liqing primary school. This school was one of several schools which accepted female students in Putian. Lanying Lin studied very hard at this primary school and often got the best grade in the class. But she was still required to do all the washing and cooking. As soon as she went back home, she started doing housework. At night, after finishing all her housework, she finally began studying and slept after 12 a.m. every day. And at six in the morning, she got up to cook and then went to school. At the age of six, she could only sleep six hours a day and this continued for her whole life.

She then studied at Liqing middle school. However, her mother still did not change her mind---she did not allow Lanying to study in middle school. She said that middle school was provided for males, and as a female, literacy did not matter. Lanying fought with her mother and finally compromised that if she did not need any money to study, her mother would accept. This middle school provided the scholarship for students who got the three best grades in each semester. Because of this, Lanying Lin got the scholarship every semester and finished her studies successfully.

After finishing the work in middle school, she went to Putian high school. At this time, her mother finally accepted her studies because of her brilliant work in middle school and was happy with her accomplishments.However, she stayed in this school for only 1 year because of society’s situation. At that period, Japan started some small wars with China and killed many Chinese. A lot of students in this school were angry about that and held many parades to boycott Japan. But a lot of Japanese soldiers and spies stayed in China, so the parades were suppressed and some students were killed. Because of this, the study could not continue. So Lanying Lin transferred after one year in high school to a women’s school called Hami Lton School, which was founded by an American. One of her teachers came from American and could not speak Chinese very well, so many of her classmates could not understand his courses. Lanying helped the teacher as an assistant. So every time the teacher taught something in English, Lanying Lin would help to teach in Chinese. Because of this, she was called ‘little teacher’ by her classmates.

She continued her study at the Fukien Christian University, which was a top university at that time in China. She graduated at the age of 22 from this university and earned the bachelor's degree in Physics. Because she was the best one in her class and this university wanted to hire some women, she got the chance to stay in this university and work for 8 years.^[9] For the first four years, she worked as an assistant to teach some fundamental courses such as mechanism. She taught so well that many students who were not in this class wanted to listen to her courses. After that she wrote a book named Course for Experiments in Optics and got the certification as a professor. Fukien Christian University had many exchange programs with New York University at that time and many teachers who worked more than 2 years could get the chance to study abroad. However, because she was not a Christian, the person in charge of this program didn’t give her the chance. So she applied for Dickinson College and got a full scholarship by the help of her workmate named Lairong Li.^[10]

Education experience in America

In 1949 at the age of 31, she graduated from Dickinson College with another bachelor's degree in math after studying for one year. She received the Golden Key Award. This was a key to all the academic seminars in America and was given to students who worked excellently for four years. Her math professor gave her a chance to continue her studies in the University of Chicago in math department. However, she studied solid state physics at the University of Pennsylvania. She thought that compared with math, physics was more applicable and more useful for China at that period. She graduated from the University of Pennsylvania in 1955 at the age of 37 with the doctorate in solid state physics, becoming the first Chinese to earn a doctorate degree from this university.

Early work experience in America

Lanying wanted to come back to China after graduation. However, the political situation was not good. At that time, America needed a lot of scientists and wanted to keep international students. Many Chinese students were not allowed to go back home. Because of this situation, she decided to work in America for some time and learn more things and use them to develop her homeland in the future. By the recommendation of her professor in University of Pennsylvania, she decided to work as a senior engineer at the Sylvania Company which mainly worked for semiconductors. At that time, the company had failed many times in making mono-crystalline silicon. Lanying found out the problems and helped the company successfully making the silicon.

Later life in China

After 1 year of working in America, when China made a treaty with America in Geneva Conference in 1956 regarding the international students, Lanying finally could come back to her homeland.^[11] At January 6, 1957, she boarded on the ship and began the trip to China after 8 years staying away from her homeland. Before boarded on the ship, the FBI came to her and withheld her salary for the whole year, 6800 dollars, in order to persuade her to stay in America. She gave up this money and went on the ship.

Because of the money she gave up, her family stayed poor because her salary was only 207 RMB, which was equal to 20 dollars a month. And her research and work place was very poor. However, she never gave up. After coming back to China, she began working as soon as possible. In 1957, her workplace-Institute of Semiconductor CAS—finished making the first mono-crystalline germanium in China. By virtue of the working experience in Sylvania Company, she knew all the processes in making the mono-crystalline silicon. However she could not get any equipment because of embargoes from other countries. So she changed the process and made the first mono-crystalline silicon in China in 1958. China became the third country to make mono-crystalline silicon by itself. In 1962, she designed the mono-crystal furnace. This furnace had been merchandized to many countries. In the same year, she made the first mono-crystalline gallium arsenide in China. Lanying Lin’s gallium arsenide reached the highest mobility at that time in the whole world.

However, the Cultural Revolution came. From 1966-1976, billions of people in China suffered from it. All educators and scientists were suppressed.^[12] Lanying Lin was not allowed to do any research and had to stay in her room under the monitoring of others. Lanying Lin’s father, a great educator, died when he was assaulted by many young people.

Although Lanying was sorrowful about her father’s death, she began working at the age of 60 after the Culture Revolution. She found that the dislocation density of existing gallium arsenide was very large due to gravity and not good enough to use, so she decided to make the experiment in artificial satellites. This was a dangerous experiment because the melting point of gallium arsenide is 1238 Celsius degrees. However, she finished successfully and became the first person in the world who had made this experiment successfully. Because of this work in gallium arsenide, the government in China named a gallium arsenide company(Chinese: 中科稼英^[13]) after her in 2001. This company has been in business for over than 10 years.

At age of 78, in 1996, she was diagnosed with cancer. She had been working on building the semiconductor base in the southern part of China. When she was diagnosed, she asked, “Can someone give me another ten years? In ten years, I can definitely finish what I am doing and I can die with no regrets!” She wanted ten years to offset the ten years wasted in the Culture Revolution. At 1:00 p.m. on March 4, 2003, Lanying died.

Opinions about gender issues^[2]

Throughout Lanying’s life, she faced a lot more difficulties because she was a female. So after she came back from America, she joined the All-China Women's Federation.^[14] She held a lot of conferences and talked about the gender issues. As a woman, she never believed gender schema and always fought for herself. She believed that in the science field, women and men are equal, and that the reason why women are fewer in this field is because women are more easily distracted by other things such as gossip, so women have to memorize more unrelated things and cannot focus on work.

Personal relationships

Family members

There were more than 20 people in Lanying’s family. But in her life, her mother and father influenced her most. Jianhua Lin, Lanying’s father, was a great educator. When Lanying was young, he stayed far from home and studied at the university. Although he did not stay with Lanying, he often wrote letters to Lanying and bought some books for her. So it was Jianhua that led Lanying into studying. Lanying’s mother was Shuixian Zhou. She was a very tough woman because she had to hold the whole family. Because of her personality, Lanying learned from her and became persistent. Although Shuixian was deeply influenced by the gender schema, she helped Lanying to be a persistent person, so Lanying could conquer many difficulties in her life. Lanying had two brothers. After she came back from America, she helped raise two nieces because she had no child.

Qichang Guan and Cheng Lin^[2]

Lanying did not marry, but she loved two men. The first one was Qichang Guan. Lanying and Qichang were in different classes of the same middle school. After graduation from middle school, Qichang went to another city with his parents, so they separated. But they continued their relationship by mail. Lanying and Qichang had different dreams about future. Qichang told Lanying that he wanted to marry her in the future and they could work as teachers in a middle school. However, Lanying was more ambitious. So when time went by, they stopped writing to each other. At the age of 17, Qichang died due to leukemia.

Another man she loved was Cheng Lin. They met each other at Fukien Christian University. They had the same interests and both were ambitious. After graduation, they both stayed at this university and worked as teachers. However, because Lanying wanted to learn more things and decided to go to America, they separated. Cheng Lin got married after she went to America. Their story has been written as a novel named The Second Handshake.^[15][16]

Attributions and honors^[3]

• 1957: Made the first mono-crystalline germanium (N-style and P-style) in China and laid the foundation for the development of transistor radios.
• 1958: Made the mono-crystalline gallium antimonide
• 1958: November, Made the first mono-crystalline silicon
• 1959: Made the mono-crystalline cadmium sulfide
• 1960: Made the extensive materials for silicon
• 1962: Made the first mono-crystal furnace named TDK in China
• 1962: Made the first mono-crystalline silicon with no malposition in China
• 1962: Made the first mono-crystalline indium antimonide with the highest purification
• 1962: Made the first mono-crystalline gallium arsenide
• 1963: Made the first semiconductor laser in China
• 1963: Made high-purified silicon and received the second prize of The Achievements of National Science and Technology Award
• 1964: Designed the process of making silicon with low malposition and received the second prize of The Achievements of National Science and Technology Award
• 1974: Made the first mono-crystalline gallium arsenide with no malposition
• 1978: Received the CAS Important Achievements of Science and Technology Award
• 1981: Made the integrated circuit and received the CAS Important Achievements of Science and Technology Award
• 1986: Made the SOS-CMOS integrated circuit and received the third prize of The Achievements of National Science and Technology Award
• 1989: Research on GaInAsSb/InP extensive material and received the second prize of The Achievements of National Science and Technology Award
• 1989: Successfully made the experiment for melting the gallium arsenide in artificial satellites and received the third prize of The Achievements of National Science and Technology Award
• 1990-1991: Received the third prize of The Achievements of National Science and Technology Award four times
• 1991: Made a satellite by using 5 different circuits of SOS-CMOS integrated circuit
• 1992: Made the mono-crystalline indium phosphide
• 1998: Made the effective gallium arsenide solar cells by liquefying the extensive materials
• 1990-2000: Led the research on SiC, GaN material and raised the new growth technology in high temperature materials

Social activities^[3]

• 1959: Went to the Soviet Academy of Science and worked for 1 month
• 1963: Went to Moscow, Soviet and took part in the International Semiconductor Conference
• 1963: Went to Czechoslovakia Prague and took part in the International Semiconductor material Conference
• 1971: Visited Thailand with the vice-chairman of the Chinese people’s political consultative Committee Ying Zheng
• 1972: Met with woman scientist JianXiong Wu with Prime Minister Enlai Zhou
• 1978: Visited France and Germany with workmates in CAS and went to Japan to join the International Conference on Thin Film Materials
• 1980: Went to North Korea to make presentations and met with president of North Korea Kim Il-sung
• 1985: Visited America with delegation of National People's Congress
• 1986: August, Went to federal Germany and took part in scientific seminars about aerospace materials
• 1987: Joined the International Conference of Women Parliamentarians
• 1987: Visited America with the delegation of the National Association for Science and Technology and joined American Association for the Advancement of Science (AAAS)
• 1988: September 27–30, Joined the conference hold in Chicago named “World Material—Space Processing Conference”
• 1988: October 3–7, Joined the conference named “Women’s Influence on the Development of the Third World Science” which was held by the Third World Academy of Science (TWAS) at Lee Jast, Italy
• 1989: August 20–26, Joined the Aerospace Material Conference hold by National Aeronautics and Space Administration (NASA)
• 1989: October, Joined the Thirteenth International Conference on Amorphous Semiconductor in America with Guanglin Kong
• 1990: Visited Sweden, then visited Moscow State University
• 1994: October, Made the report about the growth of gallium arsenide in aerospace at the Hong Kong University of Science and Technology
• 1995: Joined the The Thirty-first United Nation’s World Conference on Women with the delegation of Chinese government
• 1996: Joined the Conference of Committee for Space Research in Bremen, Germany

Political Activities^[3]

• 1962: Became vice-chairman of All-China Youth Federation
• 1964: December, Became the deputy to the Third National People's Congress and a member of the Standing Committee of the National People's Congress
• 1975: January, Became the deputy to the Fourth National People’s Congress
• 1978: February, Became the deputy to the Fifth National People’s Congress
• 1978: September—1983, became a member of the All-China Women’s Federation (ACWF)
• 1978: Became a committee member of Chinese Institute of Electronics (CIE)
• 1979: July, Became the managing director of Chinese Institute of Electronics (CIE)
• 1980: April, Became the second vice-president of China Association for Science and Technology (CAST)
• 1981: May, Became the managing director of technology department of Chinese Academy of Science (CAS)
• 1982: September, Became the delegate of Twelfth the National People’s Conference hold by the Communist Party of China (CCP)
• 1983: May, Became the deputy to the Sixth National People’s Congress
• 1986: Became the third vice-president of China Association for Science and Technology (CAST)
• 1988: March, Became the deputy to the Seventh National People’s Congress and a member of the Standing Committee of the National People’s Congress
• 1988: Became the honorary director of Chinese Institute of Electronics (CIE)
• 1991: Became the fourth vice-president of China Association for Science and Technology (CAST)
• 1993: March, Became the deputy to the Eighth National People’s Congress and a member of the Standing Committee of the National People’s Congress
• 1996: Became the director of National Key Laboratory of Microgravity

Selected publications^[17]

• Dislocations and Precipitates in Semi-Insulating Gallium Arsenide Revealed by Ultrasonic Abrahams-Buiocchi Etching^[18]
• Stoichiometric Defects in Semi-Insulating GaAs^[19]
• Interface Roughness Scattering in GaAs-AlGaAs Modulation-Doped Heterostructures^[20]
• Growth of GaAs Single Crystals at High Gravity^[21]
• Improvement of Stoichiometry in Semi-Insulating Gallium Arsenide Grown under Microgravity^[22]
• Magnetospectroscopy of Bound Phonons in High Purity GaAs^[23]
• Influence of DX centers in the AlxGa12xAs barrier on the low-temperature density and mobility of the two-dimensional electron gas in GaAs/AlGaAs modulation-doped heterostructure^[24]
• Influence of the semi-insulating GaAs Schottky pad on the Schottky barrier in the active layer^[25]
• Backgating and Light Sensitivity in GaAs Metal-Semiconductor Field Effect Transistors^[26]
• Photon Energy Dependence of SW Effect in α-Si:H Films^[27]
• Neutron Irradiation-Infrared Based Measurement Method for Interstitial Oxygen in Heavily Boron-Doped Silicon^[28]
• Properties and Applications of GaAs Single Crystal Grown under Microgravity Conditions^[29]
• Preliminary Results of GaAs Single Crystal Growth under High Gravity Conditions^[30]
• Spatial Distributions of Impurities and Defects in Te-and Si-doped GaAs Grown in a Reduced Gravity Environment^[31]
• Microdefects and electrical uniformity of InP annealed in phosphorus and iron phosphide ambiances^[32]
• Formation, structure and fluorescence of CdS clusters in a mesoporous zeolite^[33]
• Fabrication of novel double-hetero-epitaxial SOI structure Si/γ-Al₂O₃/Si^[34]
• Photostimulated luminescence of silver clusters in zeolite-Y^[35]
• Characterization of defects and whole wafer uniformity of annealed undoped semi-insulating InP wafers^[36]
• Very low-pressure VLP-CVD growth of high quality γ-Al₂O₃films on silicon by multi-step process^[37]
• Some new observation on the formation and optical properties of CdS clusters in zeolite-Y^[38]
• Absorption spectra of Se₈-ring clusters in zeolite 5A^[39]
• Growth of GaSb and GaAsSb in the single phase region by MOVPE^[40]
• Growth and properties of high purity LPE-GaAs^[41]
• New color centers and photostimulated luminescence of BaFCl:Eu^2+[42]
• Channeling analysis of self-implanted and recrystallized silicon on sapphire^[43]
• Semi-insulating GaAs grown in outer space^[44]
• Neutron irradiation induced photoluminescence from silicon crystal grown in ambient hydrogen^[45]
• The influence of thickness on properties of GaN buffer layer and heavily Si-doped GaN grown by metalorganic vapor-phase epitaxy^[46]
• The dependence of growth rate of GaN buffer layer on growth parameters by metalorganic vapor-phase epitaxy^[47]
• Self-organization of the InGaAs/GaAs quantum dots superlattice^[48]
• Thermoluminescence of CdS clusters in zeolite-Y^[49]

References

1. 1 2 Zheng, Guoxian (2005). Academician Lanying Lin. Beijing: Writer Press. ISBN 7-5063-3267-1. 
2. 1 2 3 4 Guo, Kemi (1998). Chinese Female Academician. Beijing: Kunlun Press. ISBN 7-80040-313-0. 
3. 1 2 3 4 5 He, Panguo (2014). Biography of Lanying Lin. Scientific Press. ISBN 9787030401250. 
4. ↑ "Lanying Lin". Baidu Baike. 
5. ↑ "Fukien Christian University". Baidu Baike. 
6. ↑ "National S&T Progress Award". Baidu Baike. 
7. ↑ "Run Lin". Baidu Baike. 
8. ↑ Lin, Wenxiu. "Old House of Run Lin and Lanying Lin". Fujian Normal University. 
9. ↑ "Lanying Lin and Fukien Christian University". Fujian Christian university Website. Retrieved 2015-10-11. 
10. ↑ "Lairong Li". Baidu Baike. 
11. ↑ Tan, Jiang (2009-08-06). "Pioneer Lanyin Ling in Semiconductor field in China". People Internet. 
12. ↑ "Great Culture Revolution". Baidu Baike. 
13. ↑ "Beijing Zhongkejiaying Company". LED Internet. 
14. ↑ Chen, Chen (1996). "Outstanding Woman in Science: Lanying Lin". Sciences of Xiameng. 
15. ↑ Zhang, Yang (2013-01-01). The Second Handshake (Comeback). Sichuang People Press. ISBN 9787220086380. 
16. ↑ "The Second Handshake". Baidu Baike. 
17. ↑ Lin, Lanying (1992). Selected Papers of Lanying Lin. Fujian: Fujian Scientific Press. ISBN 7533505913. 
18. ↑ Chen, Nuofu; He, Hongjia; Wang, Yutian; Pan, Kun; Lin, Lanying (1996-10-01). "Dislocations and precipitates in semi-insulating gallium arsenide revealed by ultrasonic Abrahams-Buiocchi etching". Journal of Crystal Growth. 167 (3–4): 766–768. doi:10.1016/0022-0248(96)00462-9. 
19. ↑ Chen, NuoFu; He, Hongjia; Wang, Yutian; Lin, Lanying (1997-04-01). "Stoichiometric defects in semi-insulating GaAs". Journal of Crystal Growth. 173 (3–4): 325–329. doi:10.1016/S0022-0248(96)00823-8. 
20. ↑ Yang, Bin; Cheng, Yong-hai; Wang, Zhan-guo; Liang, Ji-ben; Liao, Qi-wei; Lin, Lan-ying; Zhu, Zhan-ping; Xu, Bo; Li, Wei (1994-12-26). "Interface roughness scattering in GaAs–AlGaAs modulation‐doped heterostructures". Applied Physics Letters. 65 (26): 3329–3331. doi:10.1063/1.112382. ISSN 0003-6951. 
21. ↑ Zhou, Bojun; Cao, Funian; Lin, Lanying; Ma, Wenju; Zheng, Yun; Tao, Feng; Xue, Minglun (1994-01-01). Regel, Liya L.; Wilcox, William R., eds. Growth of GaAs Single Crystals at High Gravity. Springer US. pp. 53–60. doi:10.1007/978-1-4615-2520-2_5. ISBN 978-1-4613-6073-5. 
22. ↑ Lin, Lanying; Zhong, Xingru; Chen, NuoFu (1998-07-15). "Improvement of stoichiometry in semi-insulating gallium arsenide grown under microgravity". Journal of Crystal Growth. 191 (3): 586–588. doi:10.1016/S0022-0248(98)00372-8. 
23. ↑ Chen, NuoFu; Wang, Yutian; He, Hongjia; Lin, Lanying (1996-09-15). "Effects of point defects on lattice parameters of semiconductors". Physical Review B. 54 (12): 8516–8521. doi:10.1103/PhysRevB.54.8516. 
24. ↑ Yang, Bin; Wang, Zhan-guo; Cheng, Yong-hai; Liang, Ji-ben; Lin, Lan-ying; Zhu, Zhan-ping; Xu, Bo; Li, Wei (1995-03-13). "Influence of DX centers in the AlxGa1−xAs barrier on the low‐temperature density and mobility of the two‐dimensional electron gas in GaAs/AlGaAs modulation‐doped heterostructure". Applied Physics Letters. 66 (11): 1406–1408. doi:10.1063/1.113216. ISSN 0003-6951. 
25. ↑ Wu, J.; Wang, Z. G.; Lin, L. Y.; Han, C. B.; Zhang, M.; Bai, S. W. (1996-04-29). "Influence of the semi‐insulating GaAs Schottky pad on the Schottky barrier in the active layer". Applied Physics Letters. 68 (18): 2550–2552. doi:10.1063/1.116180. ISSN 0003-6951. 
26. ↑ Li, Rui-Gang; Wang, Zhan-Guo; Liang, Ji-Ben; Ren, Guang-Bao; Fan, Ti-Wen; Lin, Lan-Ying (1995-05-01). "Backgating and light sensitivity in GaAs metal-semiconductor field effect transistors". Journal of Crystal Growth. 150, Part 2: 1270–1274. doi:10.1016/0022-0248(95)80143-Z. 
27. ↑ Tian, J.F.; Jiang, D.S.; Zeng, B.R.; Huang, Lin; Kong, G.L.; Lin, L.Y. "Photon energy dependence of SW effect in a-Si:H films". Solid State Communications. 57 (7): 543–544. doi:10.1016/0038-1098(86)90627-7. 
28. ↑ Wang, Qi-Yuan; Ma, Zhen-Yu; Cai, Tian-Hai; Yu, Yuan-Huan; Lin, Lan-Ying (1999-01-01). "Neutron irradiation-infrared based measurement method for interstitial oxygen in heavily boron-doped silicon". Semiconductor Science and Technology. 14 (1): 74–76. doi:10.1088/0268-1242/14/1/010. 
29. ↑ Lin, L.Y.; Zhong, X.R.; Wang, Z.G.; Li, C.J.; Shi, Z.W.; Zhang, M. "Properties and applications of GaAs single crystal grown under microgravity conditions". Advances in Space Research. 13 (7): 203–208. doi:10.1016/0273-1177(93)90373-j. 
30. ↑ Zhong, X. R.; Zhou, B. J.; Yan, Q. M.; Cao, F. N.; Li, C. J.; Lin, L. Y.; Ma, W. J.; Zheng, Y.; Tao, F. (1992-04-02). "Preliminary results of GaAs single crystal growth under high gravity conditions". Journal of Crystal Growth. 119 (1–2): 74–78. doi:10.1016/0022-0248(92)90206-X. 
31. ↑ Wang, Z.G.; Li, C.J.; Wan, S.K.; Lin, L.Y. "Spatial distributions of impurities and defects in Te- and Si-doped GaAs grown in a reduced gravity environment". Journal of Crystal Growth. 103 (1-4): 38–45. doi:10.1016/0022-0248(90)90167-j. 
32. ↑ Zhiyuan, Dong; Youwen, Zhao; Yiping, Zeng; Manlong, Duan; Wenrong, Sun; Jinghua, Jiao; Lanying, Lin (2003-11-01). "Microdefects and electrical uniformity of InP annealed in phosphorus and iron phosphide ambiances". Journal of Crystal Growth. 259 (1–2): 1–7. doi:10.1016/j.jcrysgro.2003.07.009. 
33. ↑ Chen, Wei; Xu, Yan; Lin, Zhaojun; Wang, Zhanguo; Lin, Lanying (1998-01-01). "Formation, structure and fluorescence of CdS clusters in a mesoporous zeolite". Solid State Communications. 105 (2): 129–134. doi:10.1016/S0038-1098(97)10075-8. 
34. ↑ Tan, Liwen; Wang, Qiyuan; Wang, Jun; Yu, Yuanhuan; Liu, Zhongli; Lin, Lanying (2003-01-01). "Fabrication of novel double-hetero-epitaxial SOI structure Si/γ-Al2O3/Si". Journal of Crystal Growth. 247 (3–4): 255–260. doi:10.1016/S0022-0248(02)01989-9. 
35. ↑ Chen, Wei; Wang, Zhanguo; Lin, Lanying; Lin, Jianhua; Su, Mianzeng (1997-08-04). "Photostimulated luminescence of silver clusters in zeolite-Y". Physics Letters A. 232 (5): 391–394. doi:10.1016/S0375-9601(97)00400-3. 
36. ↑ Zhao, Youwen; Sun, Niefeng; Dong, Hongwei; Jiao, Jinghua; Zhao, Jianqun; Sun, Tongnian; Lin, Lanying (2002-04-30). "Characterization of defects and whole wafer uniformity of annealed undoped semi-insulating InP wafers". Materials Science and Engineering: B. 91–92: 521–524. doi:10.1016/S0921-5107(01)01061-3. 
37. ↑ Tan, Liwen; Zan, Yude; Wang, Jun; Wang, Qiyuan; Yu, Yuanhuan; Wang, Shurui; Liu, Zhongli; Lin, Lanying (2002-03-01). "Very low-pressure VLP-CVD growth of high quality γ-Al2O3 films on silicon by multi-step process". Journal of Crystal Growth. 236 (1–3): 261–266. doi:10.1016/S0022-0248(01)02159-5. 
38. ↑ Chen, Wei; Lin, Zhaojun; Wang, Zhanguo; Lin, Lanying (1996-10-01). "Some new observation on the formation and optical properties of CdS clusters in zeolite-Y". Solid State Communications. 100 (2): 101–104. doi:10.1016/0038-1098(96)00276-1. 
39. ↑ Lin, Zhaojun; Wang, Zhanguo; Chen, Wei; Lin, Lanying; Li, Guohua; Liu, Zhenxian; Han, Hexiang; Wang, Zhaoping (1997-06-15). "Absorption spectra of Se8-ring clusters in zeolite 5A". Materials Science and Engineering: B. 47 (2): 91–95. doi:10.1016/S0921-5107(97)00016-0. 
40. ↑ Lu, Da-cheng; Liu, Xianglin; Wang, Du; Lin, Lanying (1992-11-01). "Growth of GaSb and GaAsSb in the single phase region by MOVPE". Journal of Crystal Growth. 124 (1–4): 383–388. doi:10.1016/0022-0248(92)90488-5. 
41. ↑ Lanying, Lin; Zhaoqiang, Fang; Bojun, Zhou; Suzhen, Zhu; Xianbi, Xiang; Rangyuan, Wu. "Growth and properties of high purity LPE-GaAs". Journal of Crystal Growth. 56 (3): 533–540. doi:10.1016/0022-0248(82)90036-7. 
42. ↑ Chen, Wei; Wang, Zhanguo; Lin, Lanying; Su, Mianzeng (1998-01-01). "New color centers and photostimulated luminescence of BaFCl:Eu2+". Journal of Physics and Chemistry of Solids. 59 (1): 49–53. doi:10.1016/S0022-3697(97)00129-7. 
43. ↑ Renyong, Fan; Yuanhuan, Yu; Shiduan, Yin; Lanying, Lin. "Channeling analysis of self-implanted and recrystallized silicon on sapphire". Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. 15 (1-6): 350–351. doi:10.1016/0168-583x(86)90319-8. 
44. ↑ Chen, NuoFu; Zhong, Xingru; Lin, Lanying; Xie, Xie; Zhang, Mian (2000-06-01). "Semi-insulating GaAs grown in outer space". Materials Science and Engineering: B. 75 (2–3): 134–138. doi:10.1016/S0921-5107(00)00348-2. 
45. ↑ Lei, Zhong; Zhanguo, Wang; Shouke, Wan; Lanying, Lin. "Neutron irradiation induced photoluminescence from silicon crystal grown in ambient hydrogen". Solid State Communications. 74 (11): 1225–1228. doi:10.1016/0038-1098(90)90311-x. 
46. ↑ Liu, Xianglin; Wang, Lianshan; Lu, Da-Cheng; Wang, Du; Wang, Xiaohui; Lin, Lanying (1998-06-15). "The influence of thickness on properties of GaN buffer layer and heavily Si-doped GaN grown by metalorganic vapor-phase epitaxy". Journal of Crystal Growth. 189–190: 287–290. doi:10.1016/S0022-0248(98)00264-4. 
47. ↑ Liu, Xianglin; Lu, Da-Cheng; Wang, Lianshan; Wang, Xiaohui; Wang, Du; Lin, Lanying (1998-09-15). "The dependence of growth rate of GaN buffer layer on growth parameters by metalorganic vapor-phase epitaxy". Journal of Crystal Growth. 193 (1–2): 23–27. doi:10.1016/S0022-0248(98)00476-X. 
48. ↑ Zhuang, Qiandong; Li, Hanxuan; Pan, Liang; Li, Jinmin; Kong, Meiying; Lin, Lanying (1999-05-01). "Self-organization of the InGaAs/GaAs quantum dots superlattice". Journal of Crystal Growth. 201–202: 1161–1163. doi:10.1016/S0022-0248(99)00010-X. 
49. ↑ Chen, Wei; Wang, Zhanguo; Lin, Lanying (1997-03-01). "Thermoluminescence of CdS clusters in zeolite-Y". Journal of Luminescence. 71 (2): 151–156. doi:10.1016/S0022-2313(96)00129-9.