POSITRON ANNIHILATION STUDY ON SURFACE STRUCTURE OF BIOLOGICAL SAMPLES IMPLANTED BY IONS WITH LOW ENERGY

doi:10.1088/1009-1963/10/2/312

Abstract

Abstract The organic materials of biological samples, such as lima bean and peanut, were implanted respectively by nitrogen ions with an energy of 100 keV and vanadium ions with an energy of 200 keV. The positron annihilation lifetime spectra of implanted and non-implanted samples were compared with each other especially in $\tau_3$ and I₃. The experimental results showed that before implantation there were many small holes with diameters of 0.48 and 0.7 nm respectively in lima bean and peanut. After ion implantation, the size of holes would be changed because of organism cross linking and scission. The effective penetration range of implantation of ions with low energy into biological samples is about 200μm.

Keywords: ion implantation biological effect positron annihilation

Received: 15 September 2000
Revised: 11 October 2000
Accepted manuscript online:

PACS:	61.80.Fe	(Electron and positron radiation effects)
	87.50.Gi
	61.80.Jh	(Ion radiation effects)

Fund: Project supported by the Giant Program of the National Natural Science Foundation of China (Grant No.19890303).

Cite this article:

Lu Ting (陆挺), Yu Wei-zhong (郁伟中), Zhou Hong-yu (周宏余), Zhu Guang-hua (朱光华), Wang Xin-fu (汪新福), Wang Chao (王超) POSITRON ANNIHILATION STUDY ON SURFACE STRUCTURE OF BIOLOGICAL SAMPLES IMPLANTED BY IONS WITH LOW ENERGY 2001 Chinese Physics 10 145

[1]	Surface defects, stress evolution, and laser damage enhancement mechanism of fused silica under oxygen-enriched condition Wei-Yuan Luo(罗韦媛), Wen-Feng Sun(孙文丰), Bo Li(黎波), Xia Xiang(向霞), Xiao-Long Jiang(蒋晓龙),Wei Liao(廖威), Hai-Jun Wang(王海军), Xiao-Dong Yuan(袁晓东),Xiao-Dong Jiang(蒋晓东), and Xiao-Tao Zu(祖小涛). Chin. Phys. B, 2022, 31(5): 054214.
[2]	Surface chemical disorder and lattice strain of GaN implanted by 3-MeV Fe¹⁰⁺ ions Jun-Yuan Yang(杨浚源), Zong-Kai Feng(冯棕楷), Ling Jiang(蒋领), Jie Song(宋杰), Xiao-Xun He(何晓珣), Li-Ming Chen(陈黎明), Qing Liao(廖庆), Jiao Wang(王姣), and Bing-Sheng Li(李炳生). Chin. Phys. B, 2022, 31(4): 046103.
[3]	Differential nonlinear photocarrier radiometry for characterizing ultra-low energy boron implantation in silicon Xiao-Ke Lei(雷晓轲), Bin-Cheng Li(李斌成), Qi-Ming Sun(孙启明), Jing Wang(王静), Chun-Ming Gao(高椿明), and Ya-Fei Wang(王亚非). Chin. Phys. B, 2022, 31(3): 038102.
[4]	Optical properties of He⁺-implanted and diamond blade-diced terbium gallium garnet crystal planar and ridge waveguides Jia-Li You(游佳丽), Yu-Song Wang(王雨松), Tong Wang(王彤), Li-Li Fu(付丽丽), Qing-Yang Yue(岳庆炀), Xiang-Fu Wang(王祥夫), Rui-Lin Zheng(郑锐林), and Chun-Xiao Liu(刘春晓). Chin. Phys. B, 2022, 31(11): 114203.
[5]	Mechanism of defect evolution in H⁺ and He⁺ implanted InP Ren-Jie Liu(刘仁杰), Jia-Jie Lin(林家杰), N Daghbouj, Jia-Liang Sun(孙嘉良), Tian-Gui You(游天桂), Peng Gao(高鹏), Nie-Feng Sun(孙聂枫), and Min Liao(廖敏). Chin. Phys. B, 2021, 30(8): 086104.
[6]	Formation of nano-twinned 3C-SiC grains in Fe-implanted 6H-SiC after 1500-℃ annealing Zheng Han(韩铮), Xu Wang(王旭), Jiao Wang(王娇), Qing Liao(廖庆), and Bingsheng Li(李炳生). Chin. Phys. B, 2021, 30(8): 086107.
[7]	Cathodic shift of onset potential on TiO₂ nanorod arrays with significantly enhanced visible light photoactivity via nitrogen/cobalt co-implantation Xianyin Song(宋先印), Hongtao Zhou(周洪涛), and Changzhong Jiang(蒋昌忠). Chin. Phys. B, 2021, 30(5): 058505.
[8]	Structure and luminescence of a-plane GaN on r-plane sapphire substrate modified by Si implantation Lijie Huang(黄黎杰), Lin Li(李琳), Zhen Shang(尚震), Mao Wang(王茂), Junjie Kang(康俊杰), Wei Luo(罗巍), Zhiwen Liang(梁智文), Slawomir Prucnal, Ulrich Kentsch, Yanda Ji(吉彦达), Fabi Zhang(张法碧), Qi Wang(王琦), Ye Yuan(袁冶), Qian Sun(孙钱), Shengqiang Zhou(周生强), and Xinqiang Wang(王新强). Chin. Phys. B, 2021, 30(5): 056104.
[9]	Characterization, spectroscopic investigation of defects by positron annihilation, and possible application of synthesized PbO nanoparticles Sk Irsad Ali, Anjan Das, Apoorva Agrawal, Shubharaj Mukherjee, Maudud Ahmed, P M G Nambissan, Samiran Mandal, and Atis Chandra Mandal. Chin. Phys. B, 2021, 30(2): 026103.
[10]	Oxygen vacancies and V co-doped Co₃O₄ prepared by ion implantation boosts oxygen evolution catalysis Bo Sun(孙博), Dong He(贺栋), Hongbo Wang(王宏博), Jiangchao Liu(刘江超), Zunjian Ke(柯尊健), Li Cheng(程莉), and Xiangheng Xiao(肖湘衡). Chin. Phys. B, 2021, 30(10): 106102.
[11]	Determination of activation energy of ion-implanted deuterium release from W-Y₂O₃ Xue-Feng Wang(王雪峰), Ji-Liang Wu(吴吉良), Qiang Li(李强), Rui-Zhu Yang(杨蕊竹), Zhan-Lei Wang(王占雷), Chang-An Chen(陈长安), Chun-Rong Feng(冯春蓉), Yong-Chu Rao(饶咏初), Xiao-Hong Chen(谌晓洪), Xiao-Qiu Ye(叶小球). Chin. Phys. B, 2020, 29(6): 065205.
[12]	Influence of N⁺ implantation on structure, morphology, and corrosion behavior of Al in NaCl solution Hadi Savaloni, Rezvan Karami, Helma Sadat Bahari, Fateme Abdi. Chin. Phys. B, 2020, 29(5): 058102.
[13]	Fabrication and characterization of vertical GaN Schottky barrier diodes with boron-implanted termination Wei-Fan Wang(王伟凡), Jian-Feng Wang(王建峰), Yu-Min Zhang(张育民), Teng-Kun Li(李腾坤), Rui Xiong(熊瑞), Ke Xu(徐科). Chin. Phys. B, 2020, 29(4): 047305.
[14]	Experimental and computational study of visible light-induced photocatalytic ability of nitrogen ions-implanted TiO₂ nanotubes Ruijing Zhang(张瑞菁), Xiaoli Liu(刘晓丽), Xinggang Hou(侯兴刚), Bin Liao(廖斌). Chin. Phys. B, 2020, 29(4): 048501.
[15]	Structural and electrical properties of carbon-ion-implanted ultrananocrystalline diamond films Hui Xu(徐辉), Jian-Jun Liu(刘建军), Hai-Tao Ye(叶海涛), D J Coathup, A V Khomich, Xiao-Jun Hu(胡晓君). Chin. Phys. B, 2018, 27(9): 096104.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

POSITRON ANNIHILATION STUDY ON SURFACE STRUCTURE OF BIOLOGICAL SAMPLES IMPLANTED BY IONS WITH LOW ENERGY

Cite this article:

Online attention