岩石矿物学杂志
巖石礦物學雜誌
암석광물학잡지
ACTA PETROLOGICA ET MINERALOGICA
2009年
6期
535-540
,共6页
颜云花%李艳%鲁安怀%王鑫%丁竑瑞%曾翠平%王长秋
顏雲花%李豔%魯安懷%王鑫%丁竑瑞%曾翠平%王長鞦
안운화%리염%로안부%왕흠%정횡서%증취평%왕장추
天然褐铁矿%光电化学响应%嗜酸性氧化亚铁硫杆菌%交互作用
天然褐鐵礦%光電化學響應%嗜痠性氧化亞鐵硫桿菌%交互作用
천연갈철광%광전화학향응%기산성양화아철류간균%교호작용
natural limonite%photoelectrochemical response%Acidithiobacillus ferrooxidans%interaction
通过对比实验研究了天然褐铁矿对嗜酸性氧化亚铁硫杆菌(A.f.)生长的影响.利用X射线衍射分析(XRD)确定实验中所用天然褐铁矿样品的主要物相为针铁矿和赤铁矿,紫外-可见漫反射光谱(UV-Vis DRS)和不同光照条件下的时间电流曲线表明天然褐铁矿在可见光下具有良好的光电化学响应.采用"H"型装置进行双室体系反应,设置了3组对比实验,结果显示A.f.在有光催化电子传入情况下生长较好,在96 h内细胞浓度增加了12倍,3组实验中Fe2+浓度的变化规律与A.f.的生长趋势相对应.由此揭示了天然褐铁矿促进A.f.生长的机制为:在光照作用下天然褐铁矿能产生光生电子-空穴对,光生空穴被电子供体(抗坏血酸)捕获,分离出的光生电子传入阴极室能够将Fe3+还原为Fe2+,实现Fe2+的电化学再生,提供充足的电子能量来源,促进细菌生长.
通過對比實驗研究瞭天然褐鐵礦對嗜痠性氧化亞鐵硫桿菌(A.f.)生長的影響.利用X射線衍射分析(XRD)確定實驗中所用天然褐鐵礦樣品的主要物相為針鐵礦和赤鐵礦,紫外-可見漫反射光譜(UV-Vis DRS)和不同光照條件下的時間電流麯線錶明天然褐鐵礦在可見光下具有良好的光電化學響應.採用"H"型裝置進行雙室體繫反應,設置瞭3組對比實驗,結果顯示A.f.在有光催化電子傳入情況下生長較好,在96 h內細胞濃度增加瞭12倍,3組實驗中Fe2+濃度的變化規律與A.f.的生長趨勢相對應.由此揭示瞭天然褐鐵礦促進A.f.生長的機製為:在光照作用下天然褐鐵礦能產生光生電子-空穴對,光生空穴被電子供體(抗壞血痠)捕穫,分離齣的光生電子傳入陰極室能夠將Fe3+還原為Fe2+,實現Fe2+的電化學再生,提供充足的電子能量來源,促進細菌生長.
통과대비실험연구료천연갈철광대기산성양화아철류간균(A.f.)생장적영향.이용X사선연사분석(XRD)학정실험중소용천연갈철광양품적주요물상위침철광화적철광,자외-가견만반사광보(UV-Vis DRS)화불동광조조건하적시간전류곡선표명천연갈철광재가견광하구유량호적광전화학향응.채용"H"형장치진행쌍실체계반응,설치료3조대비실험,결과현시A.f.재유광최화전자전입정황하생장교호,재96 h내세포농도증가료12배,3조실험중Fe2+농도적변화규률여A.f.적생장추세상대응.유차게시료천연갈철광촉진A.f.생장적궤제위:재광조작용하천연갈철광능산생광생전자-공혈대,광생공혈피전자공체(항배혈산)포획,분리출적광생전자전입음겁실능구장Fe3+환원위Fe2+,실현Fe2+적전화학재생,제공충족적전자능량래원,촉진세균생장.
The effect of natural limonite on the growth of Acidithiabacillus ferrooxidans was studied through control experiments. The main phases of the natural limonite sample used in the experiments were identified as the mixture of goethite and hematite by X-ray diffraction analysis (XRD). UV-vis diffuse reflectance spectra and time-current curve under different irradiation conditions indicate that natural limonite has a good photoelectrochemical response. Dual-chambered system reactions were carried out with an "H"-type device. The results of three sets of control experiments show that A. f. grows better when external electrons are supplied by the photocatalysis of semiconductor minerals. Within 96 h, the cell density increases by 12 times. The variation of Fe~(2+) concentration is consistent with the growth curve of A. f. in control experiments, which reveals that natural limonite indirectly improves the growth of A. f. The mechanism can be interpreted as follows: Natural limonite can produce photo-generated electron-hole pairs under the visible light. The photo-generated hole is captured by the electron donor of ascorbic acid, while the separated photo-generated electrons transfer into cathode chamber to reduce Fe~(3+) to Fe~(2+) . The process achieves the electrochemical regeneration of Fe~(2+), which provides adequate electron energy for the growth of A.f.
