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ผศ.ดร. วิษณุ แทนบุญช่วย

ภาควิชาวิศวกรรมสิ่งแวดล้อม,

คณะวิศวกรรมศาสตร์,

มหาวิทยาลัยขอนแก่น

36783820400: H-INDEX 12

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TCI อ้างอิงจาก http://www.tci-thaijo.org/

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SCOPUS

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TCI

	Title	Author	Year	SCOPUS	PUBMED	ISI	TCI
1.	Arsenate removal by nano zero-valent iron in the gas bubbling system	Hsu, J. Grisdanurak, N.	2010
2.	Gas-bubbled nano zero-valent iron process for high concentration arsenate removal.	Hsu, J. Grisdanurak, N.	2011
3.	Impact of selected solution factors on arsenate and arsenite removal by nanoiron particles	Tanboonchuy, V Hsu, JC Grisdanurak, N Liao, CH	2011
4.	A hybrid approach for PAHs and metals removal from field-contaminated sediment using activated persulfate oxidation coupled with chemical-enhanced washing	I. M. C. Lo V. Tanboonchuy D. Y. S. Yan N. Grisdanurak C. H. Liao	2012
5.	Background species effect on aqueous arsenic removal by nano zero-valent iron using fractional factorial design	Tanboonchuy, V Grisdanurak, N Liao, CH	2012
6.	Nitrate probe for quantifying reducing power of nanoscale zero-valent iron	Grisdanurak, N.	2012
7.	Photocatalytic degradation of BTEX using W-doped TiO2 immobilized on fiberglass cloth under visible light	Laokiat, L. Grisdanurak, N.	2012
8.	Arsenic removal by nanoiron coupled with gas bubbling system	Piyanate Nakseedee Visanu Tanboonchuy Nuttaporn Pimpha Pongtanawat Khemthong Chih-Hsiang Liao Nurak Grisdanurak	2015
9.	Reversible adsorption of metalworking fluids (MWFs) on Cu-BTC metal organic framework	Kwannapat Sorachoti Bhuckchanya Pangkumhang Visanu Tanboonchuy Sarttrawut Tulaphol Nurak Grisdanurak	2017
10.	Role of Cu on Zero Valent Bimetallic Cu-Fe in Arsenic Removal with Gas Bubbling	Piyanate Nakseedee Visanu Tanboonchuy Pongtanawat Khemthong Nurak Grisdanurak Chih-Hsiang Liao	2017
11.	Role of Cu on zero valent bimetallic Cu—Fe in arsenic removal with gas bubbling	Nakseedee, P. , Grisdanurak, N.	2017
12.	Synthesis of Silica-supported Nanoiron for Cr(VI) Removal: Application of Box-Behnken Statistical Design (BBD)	,	2017
13.	Enhancement of arsenite removal using manganese oxide coupled with iron (III) trimesic	Jakkapop Phanthasri Pummarin Khamdahsag Panitan Jutaporn Kwannapat Sorachoti Kitirote Wantala Visanu Tanboonchuy	2018
14.	Applicability of Iron (III) Trimesic (Fe-BTC) to Enhance Lignin Separation from Pulp and Paper Wastewater	, ,	2019
15.	Optimization of lignin removal from synthesized wastewater by iron (III) trimesate	,	2019
16.	Oxidation-adsorption of arsenite contaminated water over ceria nanorods	Suttikorn Suwannatrai Dickson Y. S. Yan Jakkapop Phanthasri Pummarin Khamdahsag Suttipong Wannapaiboon Visanu Tanboonchuy	2020
17.	Oxidation–adsorption of arsenite contaminated water over ceria nanorods	Suwannatrai, S. Yan, D.Y.S. Phanthasri, J. Khamdahsag, P. Wannapaiboon, S. Tanboonchuy, V.	2020
18.	Role of Zeolite-Supported Nanoscale Zero-Valent Iron in Selenate Removal	Jakkapop Phanthasri Nurak Grisdanurak Pummarin Khamdahsag Kitirote Wantala Rattabal Khunphonoi Suttipong Wannapaiboon Visanu Tanboonchuy	2020
19.	Adsorption of dye over lignin obtained from wastewater separation	Tanboonchuy, V.	2021
20.	Continuous fixed-bed column studies of arsenite removal via oxidation and adsorption coprocesses	Pummarin Khamdahsag Dickson Y. S. Yan Pongnapa Poompang Nichapa Supannafai Visanu Tanboonchuy	2021
21.	Reduction and adsorption co-processes for selenate removal by zeolite-supported nanoscale zero-valent iron	Phanthasri, J. Yan, D.Y.S. Khunphonoi, R. Tanboonchuy, V.	2022
22.	Zeolite/Cerium Oxide Coat-on Activated Alumina Ball for Arsenite Removal via Fixed- Bed Continuous Flow Adsorption Column	Suwannatrai, S. Yan, D.Y.S. Khamdahsag, P.	2022
23.	Co-hydrothermally carbonized sewage sludge and lignocellulosic biomass: An efficiently renewable solid fuel	Piboonudomkarn, S. Khemthong, P. Youngjan, S. Wantala, K. Tanboonchuy, V. Lubphoo, Y.	2023
24.	Nanoflowers on Microporous Graphene Electrodes as a Highly Sensitive and Low-Cost As(III) Electrochemical Sensor for Water Quality Monitoring	Kosuvun, M.	2023
25.	Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles.	Deewan, R Yan, DY Khamdahsag, P Tanboonchuy, V	2023
26.	Utilization of lignin separated from pulp and paper wastewater for lead removal	Khamdahsag, P. Jarichanon, T. Yan, D.Y.S.	2023
27.	Utilization of agricultural waste: mango peels and pineapple crown leaves as precursors for nanomaterial production for arsenate remediation.	Deewan, R Tanboonchuy, V Khamdahsag, P Yan, DY	2025
	Count			23	5	14	0

	Title	Authors	Year	Publication name	Cited count
	Title	Authors	Year	Publication name	< 2020	2021	2022	2023	2024	2025	รวม
1.	Arsenate removal by nano zero-valent iron in the gas bubbling system	Hsu, J. Grisdanurak, N.	2010	World Academy of Science, Engineering and Technology (65), pp. 263-265
2.	Gas-bubbled nano zero-valent iron process for high concentration arsenate removal	Hsu, J. Grisdanurak, N.	2011	Journal of Hazardous Materials 2-3 (186), pp. 2123-2128
3.	Impact of selected solution factors on arsenate and arsenite removal by nanoiron particles	Hsu, J. Grisdanurak, N.	2011	Environmental Science and Pollution Research 6 (18), pp. 857-864
4.	A hybrid approach for PAHs and metals removal from field-contaminated sediment using activated persulfate oxidation coupled with chemical-enhanced washing	Yan, D.Y.S. Grisdanurak, N.	2012	Water, Air, and Soil Pollution 8 (223), pp. 4801-4811
5.	Background species effect on aqueous arsenic removal by nano zero-valent iron using fractional factorial design	Grisdanurak, N.	2012	Journal of Hazardous Materials (205-206), pp. 40-46
6.	Nitrate probe for quantifying reducing power of nanoscale zero-valent iron	Grisdanurak, N.	2012	Sustainable Environment Research 3 (22), pp. 185-191
7.	Photocatalytic degradation of BTEX using W-doped TiO 2 immobilized on fiberglass cloth under visible light	Laokiat, L. Grisdanurak, N.	2012	Superlattices and Microstructures 4 (52), pp. 632-642
8.	Arsenic removal by nanoiron coupled with gas bubbling system	Nakseedee, P. Pimpha, N. Khemthong, P. Liao, C. Grisdanurak, N.	2015	Journal of the Taiwan Institute of Chemical Engineers (47), pp. 182-189
9.	Reversible adsorption of metalworking fluids (MWFs) on Cu-BTC metal organic framework	Grisdanurak, N.	2017	Chinese Journal of Chemical Engineering 6 (25), pp. 768-774
10.	Role of Cu on zero valent bimetallic Cu—Fe in arsenic removal with gas bubbling	Nakseedee, P. , Grisdanurak, N.	2017	Environmental Progress and Sustainable Energy 5 (36), pp. 1449-1457
11.	Synthesis of Silica-supported Nanoiron for Cr(VI) Removal: Application of Box-Behnken Statistical Design (BBD)	,	2017	Sains Malaysiana 4 (46), pp. 655-665
12.	Enhancement of arsenite removal using manganese oxide coupled with iron (III) trimesic	, Wantala, K. ,	2018	Applied Surface Science (427), pp. 545-552
13.	Applicability of iron (III) Trimesic (Fe-BTC) to enhance lignin separation from pulp and paper wastewater	, ,	2019	Sains Malaysiana 1 (48), pp. 199-208
14.	Optimization of lignin removal from synthesized wastewater by iron (III) trimesate	,	2019	Environment and Natural Resources Journal 4 (17), pp. 1-10
15.	Oxidation–adsorption of arsenite contaminated water over ceria nanorods	Suwannatrai, S. Yan, D.Y.S. Phanthasri, J. Khamdahsag, P. Wannapaiboon, S. Tanboonchuy, V.	2020	Desalination and Water Treatment (200), pp. 252-261
16.	Role of Zeolite-Supported Nanoscale Zero-Valent Iron in Selenate Removal	Grisdanurak, N. Wantala, K. Khunphonoi, R. Tanboonchuy, V.	2020	Water, Air, and Soil Pollution 5 (231), pp.
17.	Adsorption of dye over lignin obtained from wastewater separation	Tanboonchuy, V.	2021	Current Applied Science and Technology 1 (21), pp. 165-175
18.	Continuous fixed-bed column studies of arsenite removal via oxidation and adsorption coprocesses	Yan, D.Y.S. Tanboonchuy, V.	2021	Journal of Water Process Engineering (42), pp.
19.	Reduction and adsorption co-processes for selenate removal by zeolite-supported nanoscale zero-valent iron	Phanthasri, J. Yan, D.Y.S. Khunphonoi, R. Tanboonchuy, V.	2022	Engineering and Applied Science Research 3 (49), pp. 363-372
20.	Zeolite/Cerium Oxide Coat-on Activated Alumina Ball for Arsenite Removal via Fixed- Bed Continuous Flow Adsorption Column	Suwannatrai, S. Yan, D.Y.S. Khamdahsag, P.	2022	Applied Science and Engineering Progress 4 (15), pp.
21.	Co-hydrothermally carbonized sewage sludge and lignocellulosic biomass: An efficiently renewable solid fuel	Piboonudomkarn, S. Khemthong, P. Youngjan, S. Wantala, K. Tanboonchuy, V. Lubphoo, Y.	2023	Arabian Journal of Chemistry 12 (16), pp.
22.	Nanoflowers on Microporous Graphene Electrodes as a Highly Sensitive and Low-Cost As(III) Electrochemical Sensor for Water Quality Monitoring	Kosuvun, M.	2023	Sensors 6 (23), pp.
23.	Utilization of lignin separated from pulp and paper wastewater for lead removal	Khamdahsag, P. Jarichanon, T. Yan, D.Y.S.	2023	Materials Today: Proceedings (75), pp. 112-118

	Title	Authors	Year	Journal title
1.	Gas-bubbled nano zero-valent iron process for high concentration arsenate removal.	Tanboonchuy, V Hsu, JC Grisdanurak, N Liao, CH	2011	Journal of hazardous materials 2 (186), pp. 2123-8
2.	Impact of selected solution factors on arsenate and arsenite removal by nanoiron particles.	Tanboonchuy, V Hsu, JC Grisdanurak, N Liao, CH	2011	Environmental science and pollution research international 6 (18), pp. 857-64
3.	Background species effect on aqueous arsenic removal by nano zero-valent iron using fractional factorial design.	Tanboonchuy, V Grisdanurak, N Liao, CH	2012	Journal of hazardous materials (205), pp. 40-6
4.	Remediation of arsenic-contaminated water by green zero-valent iron nanoparticles.	Deewan, R Yan, DY Khamdahsag, P Tanboonchuy, V	2023	Environmental science and pollution research international 39 (30), pp. 90352-90361
5.	Utilization of agricultural waste: mango peels and pineapple crown leaves as precursors for nanomaterial production for arsenate remediation.	Deewan, R Tanboonchuy, V Khamdahsag, P Yan, DY	2025	Environmental science and pollution research international 24 (32), pp. 14508-14526

	Title	Authors	Year	Journal title	Cited count
	Title	Authors	Year	Journal title	< 2020	2021	2022	2023	2024	2025	รวม
1.	Gas-bubbled nano zero-valent iron process for high concentration arsenate removal	Visanu Tanboonchuy Jia-Chin Hsu Nurak Grisdanurak Chih-Hsiang Liao	2011	JOURNAL OF HAZARDOUS MATERIALS 2-3 (186.0), pp. 2123.0-2128.0	27	0	0	0	0	0	27
2.	Impact of selected solution factors on arsenate and arsenite removal by nanoiron particles	Visanu Tanboonchuy Jia-Chin Hsu Nurak Grisdanurak Chih-Hsiang Liao	2011	ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH 6.0 (18.0), pp. 857.0-864.0	22	0	0	0	0	0	22
3.	A Hybrid Approach for PAHs and Metals Removal from Field-Contaminated Sediment Using Activated Persulfate Oxidation Coupled with Chemical-Enhanced Washing	I. M. C. Lo V. Tanboonchuy D. Y. S. Yan N. Grisdanurak C. H. Liao	2012	WATER AIR AND SOIL POLLUTION 8.0 (223.0), pp. 4801.0-4811.0	7	0	0	0	0	0	7
4.	Background species effect on aqueous arsenic removal by nano zero-valent iron using fractional factorial design	Visanu Tanboonchuy Nurak Grisdanurak Chih-Hsiang Liao	2012	JOURNAL OF HAZARDOUS MATERIALS (205.0), pp. 40.0-46.0	45	0	0	0	0	0	45
5.	Photocatalytic degradation of BTEX using W-doped TiO2 immobilized on fiberglass cloth under visible light	Weradeach Sangkhun Laksana Laokiat Visanu Tanboonchuy Pummarin Khamdahsag Nurak Grisdanurak	2012	SUPERLATTICES AND MICROSTRUCTURES 4.0 (52.0), pp. 632.0-642.0	22	0	0	0	0	0	22
6.	Arsenic removal by nanoiron coupled with gas bubbling system	Piyanate Nakseedee Visanu Tanboonchuy Nuttaporn Pimpha Pongtanawat Khemthong Chih-Hsiang Liao Nurak Grisdanurak	2015	JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENGINEERS (47.0), pp. 182.0-189.0	13	0	0	0	0	0	13
7.	Reversible adsorption of metalworking fluids (MWFs) on Cu-BTC metal organic framework	Kwannapat Sorachoti Bhuckchanya Pangkumhang Visanu Tanboonchuy Sarttrawut Tulaphol Nurak Grisdanurak	2017	CHINESE JOURNAL OF CHEMICAL ENGINEERING 6.0 (25.0), pp. 768.0-774.0	16	0	0	0	0	0	16
8.	Role of Cu on Zero Valent Bimetallic Cu-Fe in Arsenic Removal with Gas Bubbling	Piyanate Nakseedee Visanu Tanboonchuy Pongtanawat Khemthong Nurak Grisdanurak Chih-Hsiang Liao	2017	ENVIRONMENTAL PROGRESS & SUSTAINABLE ENERGY 5.0 (36.0), pp. 1449.0-1457.0	7	0	0	0	0	0	7
9.	Synthesis of Silica-supported Nanoiron for Cr(VI) Removal: Application of Box-Behnken Statistical Design (BBD)	Praewpatra Archariyapanyakul Bhuckchanya Pangkumhang Pummarin Khamdahsag Visanu Tanboonchuy	2017	SAINS MALAYSIANA 4.0 (46.0), pp. 655.0-665.0	8	0	0	0	0	0	8
10.	Enhancement of arsenite removal using manganese oxide coupled with iron (III) trimesic	Jakkapop Phanthasri Pummarin Khamdahsag Panitan Jutaporn Kwannapat Sorachoti Kitirote Wantala Visanu Tanboonchuy	2018	APPLIED SURFACE SCIENCE (427.0), pp. 545.0-552.0	23	0	0	0	0	0	23
11.	Applicability of Iron (III) Trimesic (Fe-BTC) to Enhance Lignin Separation from Pulp and Paper Wastewater	Bhuckchanya Pangkumhang Panitan Jutaporn Kwannapat Sorachoti Pummarin Khamdahsag Visanu Tanboonchuy	2019	SAINS MALAYSIANA 1.0 (48.0), pp. 199.0-208.0	2	0	0	0	0	0	2
12.	Oxidation-adsorption of arsenite contaminated water over ceria nanorods	Suttikorn Suwannatrai Dickson Y. S. Yan Jakkapop Phanthasri Pummarin Khamdahsag Suttipong Wannapaiboon Visanu Tanboonchuy	2020	DESALINATION AND WATER TREATMENT (200.0), pp. 252.0-261.0	0	0	0	0	0	0	0
13.	Role of Zeolite-Supported Nanoscale Zero-Valent Iron in Selenate Removal	Jakkapop Phanthasri Nurak Grisdanurak Pummarin Khamdahsag Kitirote Wantala Rattabal Khunphonoi Suttipong Wannapaiboon Visanu Tanboonchuy	2020	WATER AIR AND SOIL POLLUTION 5.0 (231.0), pp.	0	0	0	0	0	0	0
14.	Continuous fixed-bed column studies of arsenite removal via oxidation and adsorption coprocesses	Pummarin Khamdahsag Dickson Y. S. Yan Pongnapa Poompang Nichapa Supannafai Visanu Tanboonchuy	2021	JOURNAL OF WATER PROCESS ENGINEERING (42.0), pp.	0	0	0	0	0	0	0

	Title	Authors	Year	Journal title

	ชื่อโครงการ	Authors	ประเภทโครงการ	ปีงบประมาณ	ทุนวิจับ