Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
Treatment of arsenic in acid wastewater and river sediment by Fe@Fe2O3 nanobunches: the effect of environmental conditions and reaction mechanism.
TL Tang Lin, FHP Feng HaoPeng, TJ Tang Jing… - 2017 - cabidigitallibrary.org
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng, J Wang… - Water Research, 2017 - infona.pl
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng… - Water …, 2017 - pubmed.ncbi.nlm.nih.gov
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng, J Wang… - Water …, 2017 - hero.epa.gov
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
Treatment of arsenic in acid wastewater and river sediment by Fe@Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng… - Water …, 2017 - ui.adsabs.harvard.edu
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
[PDF][PDF] Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng, J Wang… - Water …, 2017 - ee.hnu.edu.cn
abstract High concentration of arsenic in acid wastewater and polluted river sediment
caused by metallurgical industry has presented a great environmental challenge for …
caused by metallurgical industry has presented a great environmental challenge for …
Treatment of arsenic in acid wastewater and river sediment by Fe@Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism.
L Tang, H Feng, J Tang, G Zeng, Y Deng, J Wang… - Water …, 2017 - europepmc.org
High concentration of arsenic in acid wastewater and polluted river sediment caused by
metallurgical industry has presented a great environmental challenge for decades …
metallurgical industry has presented a great environmental challenge for decades …
[引用][C] Treatment of arsenic in acid wastewater and river sediment by Fe@ Fe2O3 nanobunches: The effect of environmental conditions and reaction mechanism
L Tang, H Feng, J Tang, G Zeng, Y Deng, J Wang… - Water Research, 2017 - cir.nii.ac.jp
Treatment of arsenic in acid wastewater and river sediment by Fe@Fe2O3 nanobunches: The
effect of environmental conditions and reaction mechanism | CiNii Research CiNii 国立情報学 …
effect of environmental conditions and reaction mechanism | CiNii Research CiNii 国立情報学 …