学术论文:
|
(一)第一作者或通讯作者发表的文章
1.Feng Ding, Hong Chen, Sida Zhang, Tongjun Zhao, Na Liu*, Effect of chelating agents on Reactive Green 19 decolorization through Fe0-activated persulfate oxidation process,Journal of Environmental Management,2017,200,325-334. if 3.13
2.Na Liu, Lingyue Zhang, Yu Xue, Jing Lv, Xiaoling Yuan.Nitrogen-Doped Carbon Material as a Catalyst for the Degradation of Direct Red23 based on Persulfate Oxidation,Separation and Purification Technology,Volume 184, 31 August 2017, Pages 213–219. if 3.229
3.Na Liu, Yue Wang, Yonglei An, Feng Ding, Xiaolong Yu, Kang Ye. Feasibility study of in-situ bioremediation for nitrobenzene-contaminated groundwater. Water Science and Technology: Water Supply. DOI: 10.2166/ws.2017.014(online), if: 0.54
4.Na Liu, Haijun Li, Mengyan Li, Longzhen Ding, Chih-Huang Weng, Cheng-Di Dong,Oxygen exposure effects on the dechlorinating activities of a trichloroethene-dechlorination microbial consortium,Bioresource Technology, 2017, 240:98-105. Impact Factor:4.9.
5. Na Liu; Longzhen Ding; Haijun Li; Mingjun Jia ; Wenxiang Zhang; Nihong An, N-doped nanoporous carbon as efficient catalyst for nitrobenzene reduction in sulfide-containing aqueous solutions ,Journal of Colloid and Interface Science,Volume 490, 15 March 2017, Pages 677–684,Impact Factor:3.78.
6.Na Liu, Meiling Zhu, Hang Wang, Huiqiang Ma,Adsorption characteristics of Direct Red 23 from aqueous solution by biochar,Journal of Molecular Liquids,2016(223):335-342. Impact Factor:2.74.
7.Na Liu,Lang Liang,Xinwei Dong,Xiaoli Qia,Jungbae Kim,Yunxian Piao,Stabilized Magnetic Enzyme Aggregates on Graphene Oxide for High Performance Phenol and Bisphenol A Removal,Chemical Engineering Journal,2016(306):1026-1034. Impact Factor: 5.31.
8.Na Liu,Feng Ding,Chih-Huang Weng,Chi-Chin Hwang,Yao-Tung Lin,
Minimizing the interference of carbonate ions on degradation of SRF3B dye by Fe0-aggregate-activated persulfate process,separation and purification technology. 2016(169):230-240.Impact Factor: 3.091
9.Na Liu, Hang Wang, Jason Hwang,Chih-Huang Weng. Adsorption characteristics of Direct Red 23 azo dye onto powdered tourmaline,Arabian Journal of Chemistry. 2016,DOI:10.1016/j.arabjc.2016.04.010,Impact Factor: 3.75
10 .Na Liu, Feng Ding, Liu Wang, Peng Liu,Coupling of bio-PRB and enclosed in-well aeration system for remediation of nitrobenzene and aniline in groundwater,Environmental Science and Pollution Research. 2016,23:9972-9983.Impact Factor: 2.83.
11.Yonglei An,Jialu Li,Na Liu*.Biological characteristics of thenitrobenzene-degrading strain NB1 during bioaugmentation ofnitrobenzene-contaminated groundwater,Environmental Earth Sciences,2016,75:360 .(IF=1.765)
12.Huiqiang Ma,Shuang Zhao,Shuang Li and Na Liu*, A facile approach to synthesizing S–Co–O tridoped g-C3N4 with enhanced oxygen-free photocatalytic performance via a hydrothermal post-treatment?,RSC Adv., 2015, 5, 79585 IF=3.840
13.Huiqiang Ma, Yang Li, Shuang Li, Na Liu*,Novel PO codoped g-C3N4with large specific surface area:Hydrothermal synthesis assisted by dissolution–precipitation processand their visible light activity under anoxic conditions,Applied Surface Science,357 (2015) 131–138(IF=2.711)
14.Na Liu,Alberto Bento Charrua,Chih-Huang Weng,Xiaoling Yuan, Feng Ding,Characterization of biochars derived from agriculture wastes and their adsorptive removal of atrazine from aqueous solution: a comparative study, Bioresource Technology,198(2015)55-62,SCI(IF=4.494)
15.Liu Na,Shi Yuee, Li Mengyan, Zhang Tingdi,Gao Song,Simultaneous determination of four trace estrogens in feces, leachate, tap and groundwater using solid-liquid extraction/auto solid-phase extraction and high performance liquid chromatography with fluorescence detection, Journal of Separation Science,2015, 38, 3494–3501. SCI.(IF=2.737)
16.Chih-Huang Weng, Feng Ding, Yao-Tung Lin, Na Liu*,Effective decolorization of polyazo direct dye Sirius Red F3B using persulfate activated with Fe0 aggregate,Separation and Purification Technology,147(2015),147-155.SCI.(IF=3.091)
17.Chengdong Zhang, Mingzhu Li, Xu Xu, Na Liu?,Effects of carbon nanotubes on atrazine biodegradation by Arthrobacter sp.,Journal of Hazardous Materials,287 (2015) 1–6,SCI.(IF=4.592)
18.Hong Liu, Hang Wang, Xuehua Chen, Na Liu*, Suriguge Bao, Biosurfactant-producing strains in enhancing solubilization
and biodegradation of petroleum hydrocarbons in groundwater,Environ Monit Assess,2014 Jul;186(7):4581-9(SCI).(IF=1.679)
19.Hu Jin, Feng Ding, Na Liu*,Bioremediation of nitrobenzene contaminated groundwater by a mixed culture, Advanced Materials Research Vol. 788 (2013) pp 422-427(EI)
20.LI Hai-jun, QIU Hua, ZHANG Lan-ying, LIU Na*,*Trichloroethylene dechlorination by copper-contained zero-valent iron slurry,CHEMICAL RESEARCH IN CHINESE UNIVERSITES,2013, Vol. 29 Issue (6): 1173-1179 (SCI)).(IF=1.119)
21.Na Liu; Hai-jun Li; Feng Ding.Analysis of biodegradation by-products of nitrobenzene and aniline mixture by a cold-tolerant microbial sonsortium, Journal of Hazardous Materials.2013,260:323-329(SCI)).(IF=4.331)
22.Na Liu,Hai-jun Li,Yue-e Shi,Bo-lin Zhu,Song Gao.Biodegradation of high concentration of nitrobenzene by Pseudomonas corrugata embedded in peat-phosphate esterified polyvinyl alcohol,World Journal of Microbiology and Biotechnology.2013 Oct;29(10):1859-67(SCI)).(IF=1.779)
23.刘娜,王柳,邱华等,珍珠岩-磷酸化聚乙烯醇生物材料的制备及其降解阿特拉津特性,科技导报,2013,31(14)15--21
24.Yonglei An, Zongming Xi, Yongkai An, Na Liu*.APPLICATION OF AIR SPARGING AND BIOAUGMENTATION FOR NITROBENZENE AND ANILINE REMEDIATION IN SHALLOW GROUNDWATER: A LABORATORY-SCALE STUDY, Fresenius Environmental Bulletin,2012,21(7),1802-1809.(SCI)
25.AN Yong-lei , ZHANG Lan-ying , LIU Na*,Biostimulation-enhanced Biodegradation of Nitrobenzene in Contaminated Groundwater,CHEM. RES. CHINESE UNIVERSITIES 2012, 28(5).(SCI)
26.Bo-lin Zhu, Zong-ming Xiu, Na Liu*. Adsorption of lead and cadmium from aqueous solutions by modified oil shale ash.Oil Shale.2012.29(3),268-278.(SCI).
27.AN Yong-lei, ZHANG Lan-ying, LIU Na*,Field scale analysis on structural changes of microbial community and its relationships with environmental factors in nitrobenzene-contaminated groundwater during air sparging remediation,Environmental Engineering and Management Journal ,2012.11(9):1687-1696.(SCI).
28.高松,刘园园,刘娜*.闭路循环动态针捕集-气相色谱法分析地下水中的硝基苯和苯胺,分析化学,2012,40(9),1353-1359.(SCI)
29.周爱霞,高焕芳,安永凯,董琨,贲继东,刘娜*,强化土著微生物处理硝基苯和苯胺污染地下水, 环境污染与防治,2012,34(7):9-14.
30.李海军,高焕芳,朱博麟,高歌,刘娜*, 改性油页岩残渣对苯胺的吸附性能研究, 黄金, 2012,33(7):48-51.
31.高焕芳,刘娜*,周爱霞, 一株硝基苯降解菌 nbzA 核心序列分析及其降解特性, 世界 地质,2012,31(3):594-598.
32.朱博麟,邱 华,李海军,毕海涛,刘娜*,室内模拟 BPRB 修复阿特拉津污染地下水, 黄金,2012,33(9),56-59.
33.张兰英,张 蕾,岳建伟,刘娜*,孙恒战. 吗啉废水的生化处理工艺[J]. 吉林大学学报(地球科学版), 2011,41(2): 536-540.(EI检索)
34.邓海静,刘勇波,刘虹,张兰英,刘娜*.低温下混合菌降解柴油过程中脱氢酶活性的变化[J].化工环保,2011,31(1):9-12
35.李婧,刘娜*,马臻,晋日亚,混凝法处理煤泥水的试验,世界地质,2011,20(1),132-137.
36.马会强,张洪林,李爽,李长波,刘娜*.某采油区石油污染土壤微生物群落特征研究,环境污染与防治,2011,33(5):54-58.(核心期刊).
37.毕海涛,张兰英,刘娜*,杨国军,徐国欣,朱博麟. 无机材料对PVA-H3BO3包埋固定化方法的改进, 吉 林 大 学 学 报(地 球 科 学 版),2011,41(1):241-246.(EI)
38.BI Hai-tao, ZHANG Lan-ying, LIU Na* and ZHU Bo-lin,Preparation of Bio-beads and Their Atrazine Degradation Characteristics,CHEM. RES. CHINESE UNIVERSITIES 2011, 27(3), 407-412(SCI)
39.安永磊,张兰英,张阳,刘娜*,高松,常昊. 热处理电气石多功能净水性能研究[J]. 吉林大学学报(地球科学版),2011,41(1): 235-240.(EI检索)
40.AN Yong-lei, ZHANG Lan-ying, ZHANG Lei, LIU Na*, AN Yong-kai, SONG Ying. Study on Caffeine Wastewater Treatment by Micro-electrolysis/SBR Combined Process[C]. Environmental Pollution and Public Health, 2010.6(EI)
41.刘鹏,张兰英,刘莹莹,刘娜*,组合生物技术处理制药废水及其生物相,吉林大学学报(地球科学版),2010,40(1):169-175. (EI)
42.周月明,刘娜*,张兰英, 耐低温混菌降解苯系物的特性及菌种鉴定研究, 生态环境学报 2010, 19(7): 1893-1900.
43.刘鹏; 张兰英; 焦雁林; 刘娜*等,高效液相色谱法测定水中硝基苯和苯胺含量 ,分析化学,2009.37(5):741-744. (SCI检索)
44.刘娜,张兰英.阿特拉津低温降解菌的筛选及降解机理研究,吉林大学学报,2009.35(5):.893-898. (EI)
45.刘娜; 刘鹏; 张兰英; 张凯顺; 改性铝土矿去除水中Cl-,NO-3和NO-2的研究,黄金,2008.27(9):51-53.
46.张兰英; 刘峰; 刘娜*等,预处理/复合水解酸化/复合好氧氧化工艺处理综合制药废水,吉林大学学报,2008.38(6):1020-1026.
47.刘娜,杜连柱,郑松志, 改性铝土矿处理高质量浓度有机废水的研究, 2008,29(9):45-47.
48.曾玉超,戴韵,刘娜, 基于指标分类的地下水水质评价模型及其应用, 世界地质,2008,27(3):279-283.
49.刘娜,赵勇胜,张兰英,中国环境科学.Zn0降解地下水中阿特拉津的研究,2006,26(1):116-119.
50.刘娜; 张兰英; 杜连柱; 张玉玲; 刘瑞; 陈登云,高效液相色谱-电感耦合等离子体质谱法测定汞的3种形态 ,分析化学,2005.33(8)1116-1118.(SCI)
51.刘娜,张兰英,低温菌株的筛选鉴定及阿特拉津降解能力研究,第十次全国土壤生物与生物化学学术研讨会论文集,2005.11.
(二)参与发表文章
1.Chih-Huang Weng,Yao-Tung Lin,Cheng-Kuan Chang,Na Liu. Decolourization of direct blue 15 by Fenton/ultrasonic process using a zero-valent iron aggregate catalyst,Ultrasonics Sonochemistry 20 (2013) 970–977.(SCI)
2.Chih-Huang Weng*, Yao-Tung Lin, Na Liu, and Hong-Yang Yang, Enhancement of Advanced Fenton Process (Fe0/H2O2) by Ultrasound for Decolorization of Real Textile Wastewater, Coloration Technology,vol. 130, no. 2, pp. 133-139, 2014.04
3.王磊,刘娜,徐旭.张承东.碳纳米管吸附阿特拉津对其生物可利用性的影响,环境化学,2013,32(4)577-583.
4.刘虹,张兰英,刘娜,生物可渗透性反应墙修复石油烃污染地下水的效果
及微生物多样性研究,环境污染与防治,2013,35(3),1-4.
5.Hong Liu,Lanying Zhang,Haijing Deng,Na Liu,Microbiological characteristics of multi-media PRB reactor in the bioremediation of groundwater contaminated by petroleum hydrocarbons,Environ Monit Assess (2011) 181:43–49.(SCI)
6.任何军; 刘娜; 高松; 张兰英等,假单胞菌DN2对多氯联苯的降解及bphA1核心序列测定,吉林大学学报,2009.39(3):312-316. (EI)
7.任何军; 高松; 张玉玲; 刘娜等,多氯联苯降解菌Pseudomonas sp. DN2的分离鉴定及其降解特性研究.环境科学,2009,30(3):857-863.
8.张兰英, 仲建强, 刘娜. 低温苯胺降解菌的筛选及其特性, 水资源护,2008.24(1):52-55.
9.王晓晖; 张玉玲; 刘娜; 王琳.微波消解-ICP-MS测定土壤样品中的重金属离子,光谱实验室,2008,25(6):1183-1187.
10.刘虹; 张兰英; 刘娜等,低温下固定化微生物降解水体中阿特拉津的效果,吉林大学学报,2008.11.
11.仲建强, 张兰英, 孙立波, 高 松, 刘 娜,模拟地下水原位修复高浓度硝基苯污染的研究,农业环境科学学报 2007,26(3):920- 924.
12.刘鹏,张兰英,刘娜.低温下降解阿特拉津的细菌菌株的筛选鉴定和降解特性,农业环境科学学报,2007,26(1):306- 309.
13.马会强, 张兰英,刘娜. 城市生活垃圾生物转化乙醇初探 , 吉林大学学报(地球科学版),2007.37(5):993-997.
14.秦传玉,赵勇胜,刘娜,阿特拉津在土壤中的吸附行为,环境污染与防治,2007,29(3):164-167.
15.杜连柱,张兰英,刘娜,可渗透反应墙对地下水中多氯联苯的处理,环境化学,2007,26(4):499-503.
16.刘虹、张兰英、刘娜.低温降解六六六优势菌种的选育研究,环境污染与防治,2006.28(3):165-168.
17.张玉玲,张兰英,刘娜霉菌吸附水体中 C r(Ⅵ)C d(Ⅱ)离子研究,环境科学与技术2006,29(1):21-23.
18.陈登云; 刘娜; 张兰英,应用HPLC-ICP-MS联用技术进行Hg的形态分析研究,环境化学,2005.24(1):110-113.
19.袁晓玲. 张兰英. 刘娜.煤渣吸附水中BHC(六氯环己烷)的条件实验研究,吉林大学学报 (地球科学版),2004,34(2):264-267.
20.汪玉花,张兰英,刘娜, 有机固体废物快速发酵剂的制备及其效果研究, 吉林大学学报(地球科学版),2003,33(2):252-254.
21.李慧芳. 张兰英. 刘娜,强化反硝化条件下地下水中阿特拉津的生物降解研究,重庆环境科学,2003.25(7):7-10.
22.胡宏韬. 林学钰. 刘娜.阿特拉津降解菌的生长规律及降解特征的实验,城市环境与城市生态,2003.16(3):20-22.
23.张兰英. 李慧芳. 刘娜.JLNYL01菌降解地下水中阿特拉津效果的研究,环境科学与技术,2002.9.
|