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Online since: December 2014
Authors: Li Yan, Hong Guang Cai, Qiang Gao, Wen Xi Lu, Guo Zhong Feng, Yuan Chen, Zhi Dan Zhang
Journal of Northwest A&F University (Nat.
Chinese Journal of Soil Science, 2011,42(2):412-416 [17] Jia X.C., Shao L.J., et al. 2014.
Interaction between organic material and nitrogen fertilizer on microbial biomass nitrogen.
Journal of Microbiology, 2000,27(3):157-162 [20] Liu J.G., Diamond J.
Science, 2008, 319: [21] Luis L.B., Veronica M.R., et al. 2013.
Chinese Journal of Soil Science, 2011,42(2):412-416 [17] Jia X.C., Shao L.J., et al. 2014.
Interaction between organic material and nitrogen fertilizer on microbial biomass nitrogen.
Journal of Microbiology, 2000,27(3):157-162 [20] Liu J.G., Diamond J.
Science, 2008, 319: [21] Luis L.B., Veronica M.R., et al. 2013.
Online since: November 2012
Authors: Xin Hua Tang, Qiu Gen Zhang
Introduction
The soil is the material basis of human survival and development because the soil is the basic environmental factors of the terrestrial natural ecosystems.
Journal of Jiangxi Normal University (Natural Science), Vol35 (2011), P.427-430(in Chinese) [5] Anhua Long, Jianjun Liu, Caiying Ni et al.
Chinese Journal of Soil Science, Vol37 (2006), P.1212-1217(in Chinese) [6] Yuan Ding, Guifang Zhong, Shuangrong Hao et al.Journal of Nanchang Hongkong University (Natural Science), Vol24 (2010), P.87-91(in Chinese) [7] Jinxiang Yu, Yafei Liu, Juan Yao.
Journal of Henan Polytechnic University (Natural Science), Vol30 (2011), P.357-360(in Chinese) [9] Zhaohua Zhou, Kai Chen.
Journal of Jiujiang University, Vol3 (2009), P.80-83(in Chinese)
Journal of Jiangxi Normal University (Natural Science), Vol35 (2011), P.427-430(in Chinese) [5] Anhua Long, Jianjun Liu, Caiying Ni et al.
Chinese Journal of Soil Science, Vol37 (2006), P.1212-1217(in Chinese) [6] Yuan Ding, Guifang Zhong, Shuangrong Hao et al.Journal of Nanchang Hongkong University (Natural Science), Vol24 (2010), P.87-91(in Chinese) [7] Jinxiang Yu, Yafei Liu, Juan Yao.
Journal of Henan Polytechnic University (Natural Science), Vol30 (2011), P.357-360(in Chinese) [9] Zhaohua Zhou, Kai Chen.
Journal of Jiujiang University, Vol3 (2009), P.80-83(in Chinese)
Online since: July 2013
Authors: Sunit Rojanasuwan, Pakorn Prajuabwan, Annop Chanhom, Anuchit Jaruvanawat, Adirek Rangkasikorn, Jiti Nukeaw
The basic principle of doping in organic semiconductor is equivalent to that in inorganic materials.
Photoelectron Spectroscopy Study The basic principle of doping in organic semiconductor is equivalent to that in inorganic materials.
McKeown: Phthalocyanine Materials:synthesis, structure and function, (Cambridge University Press, United Kingdom 1998)
Nukeaw: Exciton Dissociation at Indium Tin Oxide/Indium doped Zinc Phthalocyanine Interfac, submitted to Journal of Advanced Materials Research (2013) [4] P.
Nukeaw: Hole Doping Through Indium Intercalation Into Nickel Phthalocyanine, submitted to Journal of Advanced Materials Research (2013) [5] Meng-Sheng Liao and S.
Photoelectron Spectroscopy Study The basic principle of doping in organic semiconductor is equivalent to that in inorganic materials.
McKeown: Phthalocyanine Materials:synthesis, structure and function, (Cambridge University Press, United Kingdom 1998)
Nukeaw: Exciton Dissociation at Indium Tin Oxide/Indium doped Zinc Phthalocyanine Interfac, submitted to Journal of Advanced Materials Research (2013) [4] P.
Nukeaw: Hole Doping Through Indium Intercalation Into Nickel Phthalocyanine, submitted to Journal of Advanced Materials Research (2013) [5] Meng-Sheng Liao and S.
Online since: November 2005
Authors: Jung Kyu Kim, Ki Weon Kang, Heung Seob Kim
Lin: Composites Science and Technology 58 (1998), p. 1
[4] K.W.
Kim: KSME Journal 24 (in Korean) (2000), p. 2828 [5] K.W.
Kim: Key Engineering Materials 183-187 (2000), p. 271 [8] D.G.
Caprino: Composite Materials 18 (1984), p. 508 [10] L.J.
Composite Materials 20 (1986), p. 154
Kim: KSME Journal 24 (in Korean) (2000), p. 2828 [5] K.W.
Kim: Key Engineering Materials 183-187 (2000), p. 271 [8] D.G.
Caprino: Composite Materials 18 (1984), p. 508 [10] L.J.
Composite Materials 20 (1986), p. 154
Online since: June 2014
Authors: Ke Zhao, Yu Zhang, Yu Ting Zhang, Ying Ying Yin
Fig. 1, Reactor of the sewage sludge aerobic composting
Experimental materials.
Chinese Journal of Environmental Engineering. 2010,4(12):2883~2887
Soil and Environmental Sciences. 2000,9(4):277~280
China Environmental Science. 2011,31(2):253~258
ENVIRONMENTAL SCIENCE. 2001,22(3):60~65.
Chinese Journal of Environmental Engineering. 2010,4(12):2883~2887
Soil and Environmental Sciences. 2000,9(4):277~280
China Environmental Science. 2011,31(2):253~258
ENVIRONMENTAL SCIENCE. 2001,22(3):60~65.
Online since: June 2010
Authors: Bruce Anderson, Dong An, Jia Xiu Song
Integrated treatment methods for safe drinking water purification in
Shanghai
Dong An 1,a , JiaXiu Song2,b , Bruce Anderson3,c
1 Department of Environmental Sciences and engineering, Fudan University, Shanghai, China,
200433
2 Department of Environmental Science and Technology, Shanghai Normal University, Shanghai,
China, 200234
3.
Advanced drinking water treatment Depending on Shanghai Yangshupu Water Treatment Plant, Shanghai Waterworks Co., Ltd selected "Golden Shanghai Home" as the demonstration block and provides this block with 360 thousand ton high quality water per day through pipelines made of new materials.
Acknowledgements This research was funded by the National Natural Science Foundation of China (Grant No.50808049) and new teacher funding from Ministry of Education(200802461009) References:::: [1]N.
Journal of Cleaner Production Vol.15(2007), 1559-1567
Advanced drinking water treatment Depending on Shanghai Yangshupu Water Treatment Plant, Shanghai Waterworks Co., Ltd selected "Golden Shanghai Home" as the demonstration block and provides this block with 360 thousand ton high quality water per day through pipelines made of new materials.
Acknowledgements This research was funded by the National Natural Science Foundation of China (Grant No.50808049) and new teacher funding from Ministry of Education(200802461009) References:::: [1]N.
Journal of Cleaner Production Vol.15(2007), 1559-1567
Online since: March 2015
Authors: Xiao Jun Wang, Dan Niu, Xing Sheng Zhao, Chao Li
BY2014127-09) and Science and technology support program of Jiangsu Province (Grant No.
Menezes, Low noise integrating preamplifier with integral ADC, 1999 Ieee Nuclear Science Symposium - Conference Record, Vols 1-3, pp. 352-355, 1999
Zhang, Integral Type Multi-ramp for Single-slope ADC, Sensors, Measurement and Intelligent Materials, Pts 1-4, vol. 303-306, pp. 1908-1912, 2013
Goeke, An 81/2-Digit Integrating Analog-to-Digital Converter with 16-Bit, 100,000-Sample-Per-Second Performance,Hewlett-Packard Journal, vol. 40, pp. 8-15, Apr 1989
Kochan, Integral nonlinearity of ADC's conversion characteristic identification, Tcset 2006: Modern Problems of Radio Engineering, Telecommunications and Computer Science, Proceedings, pp. 178-180, 2006
Menezes, Low noise integrating preamplifier with integral ADC, 1999 Ieee Nuclear Science Symposium - Conference Record, Vols 1-3, pp. 352-355, 1999
Zhang, Integral Type Multi-ramp for Single-slope ADC, Sensors, Measurement and Intelligent Materials, Pts 1-4, vol. 303-306, pp. 1908-1912, 2013
Goeke, An 81/2-Digit Integrating Analog-to-Digital Converter with 16-Bit, 100,000-Sample-Per-Second Performance,Hewlett-Packard Journal, vol. 40, pp. 8-15, Apr 1989
Kochan, Integral nonlinearity of ADC's conversion characteristic identification, Tcset 2006: Modern Problems of Radio Engineering, Telecommunications and Computer Science, Proceedings, pp. 178-180, 2006
Online since: May 2012
Authors: Jian Guo Song, Xin Zhi Wang, Wei Liu, Ming Chang
Research on Temporal and Spatial Distribution of PM10 in Yantai Urban Areas from 2006 to 2010
Ming Chang, Jianguo Song, Xinzhi Wang, Wei Liu*
Department of Environment and Materials Engineering, Yantai University, Yantai 264005
*: Corresponding author, liuweiyt@126.com
Keywords: PM10, Time granularity, Spatial distribution, Yantai urban areas.
Journal of Environmental Sciences, 2007, 19(4):432-437
Environmental Science and Technology, 2006, 40(2):418-425
Environmental Science Trends, 2005(2):16-18
Journal of Environmental Sciences, 2007, 19(4):432-437
Environmental Science and Technology, 2006, 40(2):418-425
Environmental Science Trends, 2005(2):16-18
Online since: May 2012
Authors: Jing Hui Hou, Yong Li Wang, Li Xin Wang, Cheng Zhen Jia, Hua Min Liu
College of environment and resource sciences, Inner Mongolia University, Hohhot, China
2.
College of life sciences, Inner Mongolia University, Hohhot, China aduduxo@163.com, bwangyongli526@gmail.com,clx_wimu@hotmail.com (Corresponding author), dliuhmimu@yahoo.cn, ejchengzhen@126.com Keywords: dynamic chamber technique, enclosed restoration, free grazing, CO2 NEE.
Materials and Methods Research site and methodology This research was carried out at the field experimental base of xilinhaote National Climatological Observatory (116°18΄45˝N,44°08΄31˝E).
Acknowledgements This study is supported by the National Key Technology R&D Program (No. 2011BAC02B03) and the National Natural Science Funds, PR China (No.31060076).
Scurlock, Global Biogeochem Cycle, Vol.4, p.785-809 [4]Carroll P, Clark J L., Global Biogeochem Cycle, Vol.11, p.349-356 [5]Feng Zhang, Guangsheng Zhou, Yuhui Wang, Journal of Plant Ecology, Vol.32(6), p. 1312-1322(in Chinese) [6] Xiaonan Duan, Xiaoke Wang, Zhaozhong Feng, et al, Acta Scientiae Circumstantiae Vol. 25(2), p. 166- 171(in Chinese)
College of life sciences, Inner Mongolia University, Hohhot, China aduduxo@163.com, bwangyongli526@gmail.com,clx_wimu@hotmail.com (Corresponding author), dliuhmimu@yahoo.cn, ejchengzhen@126.com Keywords: dynamic chamber technique, enclosed restoration, free grazing, CO2 NEE.
Materials and Methods Research site and methodology This research was carried out at the field experimental base of xilinhaote National Climatological Observatory (116°18΄45˝N,44°08΄31˝E).
Acknowledgements This study is supported by the National Key Technology R&D Program (No. 2011BAC02B03) and the National Natural Science Funds, PR China (No.31060076).
Scurlock, Global Biogeochem Cycle, Vol.4, p.785-809 [4]Carroll P, Clark J L., Global Biogeochem Cycle, Vol.11, p.349-356 [5]Feng Zhang, Guangsheng Zhou, Yuhui Wang, Journal of Plant Ecology, Vol.32(6), p. 1312-1322(in Chinese) [6] Xiaonan Duan, Xiaoke Wang, Zhaozhong Feng, et al, Acta Scientiae Circumstantiae Vol. 25(2), p. 166- 171(in Chinese)
Online since: October 2011
Authors: Jian Li, Xiang Cheng Wang, Hua Zhu
Treatment of K-2BP Wastewater by Photocatalytic Oxidation and Fenton Reagent
Xiang-cheng WANG 1, a, Jian Li 1, b, Hua ZHU 2,c
1 Institue of Chemical Defense,Beijing 102205,China
2 China Academy of Safety Science and Technology, Beijing 100029,China
alwjwhr@sina.com, btommy_lijian@sohu.com, cxbfyzhuhua@163.com
Keywords: active bright red K-2BP; nanometer TiO2; photocatalytic oxidation; Fenton Reagent.
Because amount adsorbed of surface of catalyst is increasing accompanied with the rising of mTiO2,arrived to the maximum value, floatable materials such as nanometer Titanium dioxide shades light extremely, lead to reduce the decolor rate.
Vol.47 (2004) , p.15 [2] Wang Yu, Wang Dong, Yin Xian-xiong, Yu Yong-hai: Environmental Science & Technology.Vol.32 (2009), p.55 [3] Xiangcheng Wang, Xiaoping Gong: Environmental Pollution&Control( In Chinese ).Vol.21 (1999), p.12 [4] Kajitvichyanukula P, Lu Ming-Chun, Jamroensan A: Journal of Environmental Management .Vol.86 (2006),p.545 [5] D.C.
Kamat: Environmental Science & Technology.Vol.30 (1996), p.2547
Because amount adsorbed of surface of catalyst is increasing accompanied with the rising of mTiO2,arrived to the maximum value, floatable materials such as nanometer Titanium dioxide shades light extremely, lead to reduce the decolor rate.
Vol.47 (2004) , p.15 [2] Wang Yu, Wang Dong, Yin Xian-xiong, Yu Yong-hai: Environmental Science & Technology.Vol.32 (2009), p.55 [3] Xiangcheng Wang, Xiaoping Gong: Environmental Pollution&Control( In Chinese ).Vol.21 (1999), p.12 [4] Kajitvichyanukula P, Lu Ming-Chun, Jamroensan A: Journal of Environmental Management .Vol.86 (2006),p.545 [5] D.C.
Kamat: Environmental Science & Technology.Vol.30 (1996), p.2547