1 김보라, "해초 Biochar를 이용한 Cr6+과 As3+ 흡착 특성" 한국공업화학회 26 (26): 483-488, 2015
2 김혜원, "하수슬러지의 Biochar특성을 이용한 토양내 중금속 제거 연구" 한국지하수토양환경학회 18 (18): 58-64, 2013
3 임정은, "폐자원을 이용한 중금속 오염토양의 안정화 - 총설" 한국응용생명화학회 58 (58): 157-174, 2015
4 김미형, "폐목재를 이용한 바이오차 생산 및 토양적용의 환경평가" 대한환경공학회 36 (36): 461-468, 2014
5 김병문, "커피 슬러지 바이오차의 Cu와 Cd 흡착제거 특성 연구" 한국지하수토양환경학회 17 (17): 47-53, 2012
6 김동진, "친환경 유기농자재 처리에 따른 정화토양의 개선 효과" 한국유기농업학회 21 (21): 753-767, 2013
7 최용수, "참나무 바이오차의 인산염 인(PO4-P) 흡착특성" 유기성자원학회 23 (23): 60-67, 2015
8 최익원, "참깨 부산물 Biochar의 중금속 흡착특성" 한국토양비료학회 46 (46): 8-15, 2013
9 백예슬, "인공 음식물 혼합 폐기물 바이오차의 토양 중금속 흡착 가능성을 위한 특성 분석" 한국지하수토양환경학회 19 (19): 1-7, 2014
10 김미희, "원예작물재배에 관한 전통농업기술의 개발가치 평가" 한국농업사학회 7 (7): 193-228, 2008
11 최용수, "왕겨 바이오차의 암모늄태 질소(NH4-N) 흡착 특성" 한국환경농학회 34 (34): 155-160, 2015
12 한경화, "왕겨 바이오차 및 음식물쓰레기 바이오차가 밭 사양토에서 상추발아 및 수용성유기탄소 용출에 미치는 영향 평가" 농업과학연구소 41 (41): 367-377, 2014
13 배선영, "열수탄화반응으로 제조한 배추의 바이오차를 이용한 납과 아연의 흡착" 한국환경분석학회 14 (14): 228-233, 2011
14 최준원, "열분해 온도에 따른 리기다소나무 바이오오일의 물리⋅화학적 특성 평가" 한국목재공학회 40 (40): 204-211, 2012
15 채광석, "시료 조건에 따른 굴참나무 바이오오일의 특성" 한국유화학회 32 (32): 148-156, 2015
16 한종학, "수생식물을 이용하여 제조한 biochar의 비료학적 가치 평가" 한국토양비료학회 44 (44): 794-800, 2011
17 박이경, "목질계 바이오매스에서 생산된 바이오차의 물리화학적 특성 및 Cu 흡착제거 특성" 한국지하수토양환경학회 17 (17): 54-61, 2012
18 김대균, "논토양에서 바이오차르 투입 및 완효성비료 시용에 따른 메탄발생량과 작물생산량 변화" 한국환경생물학회 32 (32): 327-334, 2014
19 임정은, "계분 바이오차를 이용한 토양 중금속 안정화 효율 평가" 한국응용생명화학회 58 (58): 39-50, 2015
20 임정은, "가시박 유래 바이오차의 특성 및 항생물질 흡착제로서의 활용가능성 평가" 한국응용생명화학회 57 (57): 65-72, 2014
21 Do, X. H., "emoval of Pb2+ using a biochar-alginate capsule in aqueous solution and capsule regeneration" 131 : 375-382, 2013
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23 "Washington State University and Department of Ecology from State of Washington : Methods for producing biochar and advanced biofuels in Washington state part 1: literature review of pyrolysis reactors"
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26 Zhang, X., "Using biochar for remediation of soils contaminated with heavy metals and organic pollutants" 20 (20): 8472-8483, 2013
27 Ahmad, M., "Trichloroethylene adsorption by pine needle biochars produced at various pyrolysis temperatures" 143 : 615-622, 2013
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38 Vithanage, M., "Sorption and transport of sulfamethazine in agricultural soils amended with invasive-plantderived biochar" 141 : 95-103, 2014
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45 노훈, "Removal studies of Cd(II) and explosive compounds using buffalo weed biochar-alginate beads" 한국공업화학회 26 : 226-233, 2015
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49 Ding, W., "Pyrolytic temperatures impact lead sorption mechanisms by bagasse biochars" 105 : 68-74, 2014
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51 Mohan, D., "Pyrolysis of wood/biomass for bio-oil: A critical review" 20 (20): 848-889, 2006
52 Rajapaksha, A. U., "Pyrolysis condition affected sulfamethazine sorption by tea waste biochars" 166 : 303-308, 2014
53 Van Zwieten, L., "Pyrolysing poultry litter reduces N2O and CO2 fluxes" 465 : 279-287, 2013
54 Choi, J., "Production of brown algae pyrolysis oils for liquid biofuels depending on the chemical pretreatment methods" 86 : 371-378, 2014
55 Jung, S. H., "Production of biochars by intermediate pyrolysis and activated carbons from oak by three activation methods using CO2" 107 : 116-122, 2014
56 Choi, G. -G., "Production of bio-based phenolic resin and activated carbon from bio-oil and biochar derived from fast pyrolysis of palm kernel shells" 178 : 99-107, 2015
57 Ahmad, M., "Production and use ofbiochar from buffalo-weed (Ambrosia trifida L.) for trichloroethylene removal from water" 89 (89): 150-157, 2014
58 Zhang, M., "Preparation and characterization of a novel magnetic biochar for arsenic removal" 130 : 457-462, 2013
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60 Domingues, M. T., "Polymeric alginate microspheres containing biochar to immobilize phosphate ions" 37 : 109-114, 2014
61 Waqas, M., "Phytohormone-producing fungal endophytes and hardwood-derived biochar interact to ameliorate heavy metal stress in soybeans" 50 (50): 1155-1167, 2014
62 Yargicoglu, E. N., "Physical and chemical characterization of waste wood derived biochars" 36 : 256-268, 2015
63 Schmidt, M. W. I., "Persistence of soil organic matter as an ecosystem property" 478 (478): 49-56, 2011
64 신중두, "Nitrogen Transformation in Soil Cooperated with Organic Composts and Bio-char During Corn (Zea mays) Cultivation" 유기성자원학회 22 (22): 33-40, 2014
65 Ahmad, M., "Modeling adsorption kinetics of trichloroethylene onto biochars derived from soybean stover and peanut shell wastes" 20 (20): 8364-8373, 2013
66 Vithanage, M., "Mechanisms of antimony adsorption onto soybean stover-derived biochar in aqueous solutions" 151 : 443-449, 2015
67 Jung, K. W., "Kinetic study on phosphate removal from aqueous solution by biochar derived from peanut shell as renewable adsorptive media" 12 (12): 3363-3372, 2015
68 Kim, K. H., "Investigation of physicochemical properties of biooils produced from yellow poplar wood (Liriodendron tulipifera)at various temperatures and residence times" 92 (92): 2-9, 2011
69 Rajapaksha, A. U., "Invasive plant-derived biochar inhibits sulfamethazine uptake by lettuce in soil" 111 : 500-504, 2014
70 "International Biochar Initiative. : State of the biochar industry 2015"
71 "International Biochar Initiative : Standardized product definition and product testing guidelines for biochar that is used in soil (2015)"
72 Lakshmi Prasanna Lingamdinne, "Influencing factors on sorption of TNT and RDX using rice husk biochar" 한국공업화학회 32 : 178-186, 2015
73 Kim, K. H., "Influence of pyrolysis temperature on physicochemical properties of biochar obtained from the fast pyrolysis of pitch pine (Pinus rigida)" 118 : 158-162, 2012
74 김원일, "Influence of Various Biochars on the Survival, Growth, and Oxidative DNA Damage in the Earthworm Eisenia Fetida" 한국환경농학회 33 (33): 231-238, 2014
75 Nguyen, M. -V., "Improvement of yields and surface areas of biochar from chicken manure" 6 (6): 714-716, 2012
76 Wu, C. -H., "Improvement of oxygen release from calcium peroxide-polyvinyl alcohol beads by adding lowcost bamboo biochar and its application in bioremediation" 43 (43): 287-295, 2015
77 Xie, Z., "Impact of biochar application on nitrogen nutrition of rice, greenhouse-gas emissions and soil organic carbon dynamics in two paddy soils of China" 370 (370): 527-540, 2013
78 Novak, J. M., "Impact of biochar amendment on fertility of a southeastern coastal plain soil" 174 (174): 105-112, 2009
79 Moon, D. H., "Immobilization of lead in contaminated firing range soil using biochar" 20 (20): 8464-8471, 2013
80 Raveendran, K., "Heating value of biomass and biomass pyrolysis products" 75 (75): 1715-1720, 1996
81 김용성, "Giant Miscanthus 유래 biochar와 폐기물 유래 char의 무기원소 함량과 용출특성 평가" 한국폐기물자원순환학회 30 (30): 101-111, 2013
82 김유진, "GWP (Global Warming Potential)를 고려한 가시박 바이오차르의 토양 납 제거 효과 분석" 대한환경공학회 37 (37): 432-440, 2015
83 Watanabe, A., "Five crop seasons’records of greenhouse gas fluxes from upland fields with repetitive applications of biochar and cattle manure" 144 : 168-175, 2014
84 Wardle, D. A., "Fire-derived charcoal causes loss of forest humus" 320 (320): 629-, 2008
85 Kim, D., "Financial performance of a mobile pyrolysis system used to produce biochar from sawmill residues" 65 (65): 189-197, 2015
86 김인자, "Feasibility Study of Different Biochars as Adsorbent for Cadmium and Lead" 한국토양비료학회 48 (48): 332-339, 2015
87 Oh, S. -Y., "Factors affecting sorption of nitro explosives to biochar: pyrolysis temperature, surface treatment, competition, and dissolved metals" 44 (44): 833-, 2015
88 Kim, H. S., "Examination of three different organic waste biochars as soil amendment for metal-contaminated agricultural soils, Water, Air, & Soil Pollution" 226 (226): 282-, 2015
89 Park, J. H., "Evaluation of phosphorus adsorption capacity of sesame straw biochar on aqueous solution: influence of activation methods and pyrolysis temperatures" 37 (37): 969-983, 2015
90 Rajapaksha, A. U., "Enhanced sulfamethazine removal by steamactivated invasive plant-derived biochar" 290 : 43-50, 2015
91 Yao, Y., "Engineered biochar reclaiming phosphate from aqueous solutions:Mechanisms and potential application as a slowrelease fertilizer" 47 (47): 8700-8708, 2013
92 Gaunt, J. L., "Energy balance and emissions associated with biochar sequestration and pyrolysis bioenergy production" 42 (42): 4152-4158, 2008
93 Ahmad, M., "Effects of pyrolysis temperature on soybean stover- and peanut shellderived biochar properties and TCE adsorption in water" 118 : 536-544, 2012
94 Almaroai, Y. A., "Effects of biochar, cow bone, and eggshell on Pb availability to maize in contaminated soil irrigated with saline water" 71 (71): 1289-1296, 2014
95 Zhang, A., "Effects of biochar amendment on soil quality, crop yield and greenhouse gas emission in a Chinese rice paddy: A field study of 2 consecutive rice growing cycles" 127 : 153-160, 2012
96 Yoo, G., "Effects of biochar addition on nitrogen leaching and soil structure following fertilizer application to rice paddy soil" 78 (78): 852-, 2014
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99 Kim, H. -S., "Effect of biochar on heavy metal immobilization and uptake by lettuce (Lactuca sativa L.) in agricultural soil" 74 (74): 1249-1259, 2015
100 Cheng-Yuan Xu, "Effect of biochar amendment on yield and photosynthesis of peanut on two types of soils" Springer Nature 22 (22): 6112-6125, 2015
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102 김호진, "Effect of Biochar bead on Adsorption of Heavy Metals" 한국토양비료학회 47 (47): 351-355, 2014
103 Park, J. -H., "Competitive adsorption and selectivity sequence of heavy metals by chicken bone-derived biochar: Batch and column experiment" 50 (50): 1194-1204, 2015
104 Xu, X., "Comparison of rice husk- and dairy manure-derived biochars for simultaneously removing heavy metals from aqueous solutions: Role of mineral components in biochars" 92 (92): 955-961, 2013
105 Kim, K. H., "Comparison of physicochemical features of biooils and biochars produced from various woody biomasses by fast pyrolysis" 50 : 188-195, 2013
106 Park, J. H., "Comparative sorption of Pb and Cd by biochars and its implication formetal immobilization in soils, Water, Air, and Soil Pollution" 224 (224): 1711-, 2013
107 Malghani, S., "Chars produced by slow pyrolysis and hydrothermal carbonization vary in carbon sequestration potential and greenhouse gases emissions" 62 : 137-146, 2013
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109 Chen, T., "Characterization of energy carriers obtained from the pyrolysis of white ash, switchgrass and corn stover- biochar, syngas and bio-oil" 142 : 124-134, 2016
110 Novak, J., "Characterization of designer biochar produced at different temperatures and their effects on a loamy sand" 3 (3): 195-206, 2009
111 Kim, W. K., "Characterization of cadmium removal from aqueous solution by biochar produced from a giant Miscanthus at different pyrolytic temperatures" 138 : 266-270, 2013
112 Wang, Z., "Characterization and influence of biochars on nitrous oxide emission from agricultural soil" 174 : 289-296, 2013
113 박종환, "Characteristics of biochars derived from fruit tree pruning wastes and their effects on lead adsorption" 한국응용생명화학회 58 (58): 751-760, 2015
114 Lee, Y., "Characteristics of biochar produced from slow pyrolysis of Geodae-Uksae 1" 130 : 345-350, 2013
115 Kim, J. -S., "Characteristics and trend of the biomass pyrolysis technology - focusing on the lignocellulosic biomass" 15 (15): 2-13, 2012
116 Zheng, H., "Characteristics and nutrient values of biochars produced from giant reed at different temperatures" 130 : 463-471, 2013
117 Sohi, S. P., "Carbon storage with benefits" 338 (338): 1034-1035, 2012
118 Shin, J., "Carbon sequestration in soil cooperated with organic composts and bio-char during corn (Zea mays) cultivation" 03 (03): 151-155, 2014
119 Sigua, G. C., "Carbon mineralization in two ultisols amended with different sources and particle sizes of pyrolyzed biochar" 103 : 313-321, 2014
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133 Kim, Y. J., "Behavior changes of earthworm from soils amended with biochar -avoidance and productivity-" 5 (5): 277-284, 2014
134 Van Vinh, N., "Arsenic(III) removal from aqueous solution by raw and zinc-loaded pine cone biochar: equilibrium, kinetics, and thermodynamics studies" 12 (12): 1283-1294, 2014
135 Kim, M. -H., "Analysis of agricultural materials in traditional agro-technology" 12 (12): 1-17, 2013
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141 최용수, "Adsorption Characteristics and Kinetic Models of Ammonium Nitrogen using Biochar from Rice Hull in Sandy Loam Soil" 한국토양비료학회 48 (48): 413-420, 2015
142 Vithanage, M., "Acidactivated biochar increased sulfamethazine retention in soils" 22 (22): 2175-2186, 2015
143 Sharma, A., "A phenomenological model of the mechanisms of lignocellulosic biomass pyrolysis processes" 60 : 231-241, 2014
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