Preparation of SiO2 nanowires from rice husks by hydrothermal method and the RNA purification performance

Lu, Ligong; Cao, Jian-Ping; Meng, Xing; Liu, Yangsi; Ke, Wei; Wang, Jialiang; Sun, Ling

doi:10.1016/j.cplett.2016.09.012

Cited by 9 publications

(2 citation statements)

References 24 publications

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“…The specific surface area of ash produced by smoldering of washed rice husk is 84.9 m 2 /g, which is lower than those prepared in the laboratory (99.2-293.9 m 2 /g) [13,29,51], but higher than those produced in the industry (11.4-39.3 m 2 /g) [32,52], as shown in Figure 6. In the laboratory, rice husk is normally washed or leached using water and acid to remove alkali and alkaline earth metals, such as the experiments performed by Dizaji [28] and Huang [48]. In the industry, no-pretreatment rice husk is burned directly in combustors.…”

Section: Comparison Of Specific Surface Area In This Study With Those Of Silica Prepared Using Methods In Literaturementioning

confidence: 99%

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Yan

Yin

et al. 2021

Sustainability

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In order to assess the possibility of silica production via smoldering of moist rice husk, experiments of washed (moist) rice husk (7 kg with moisture content of 51%) in a newly designed smoldering apparatus was performed. The temperature inside the fuel bed during smoldering was recorded, and characteristics of ash were analyzed. Results showed that the highest temperature in the middle of the naturally piled fuel bed was about 560.0 °C, lower than those in most of combustors. Some volatiles from the lower part of the fuel bed adhere to its upper ash during piled smoldering. Silica content and specific surface area of ash from smoldering of washed (moist) rice husk were 86.4% and 84.9 m2/g, respectively. Compared to our experiments, they are close to smoldering of unwashed rice husk (89.0%, 67.7 m2/g); different from muffle furnace burning (600 °C, 2 h) of washed (93.4%, 164.9 m2/g) and un-washed (90.2%, 45.7 m2/g) rice husk. The specific surface area is higher than those from most industrial methods (from 11.4 to 39.3 m2/g). After some improvements, the smoldering process has great potential in mass product of high quality silica directly from moist rice husk.

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Section: Comparison Of Specific Surface Area In This Study With Those Of Silica Prepared Using Methods In Literaturementioning

confidence: 99%

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Yan

Yin

et al. 2021

Sustainability

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“…无机材料学报第 36 卷纳米材料由于体积小、比表面积大、表面的键态和电子态的不同, 在性能上有别于大块固体材料, 展现出独特的物理化学性能, 被应用在光学、电化学和磁学等研究领域。一维纳米材料是研究维度、电化学及磁学等物理性质的理想体系, 其特定的几何形态应用在纳米电子、光电学器件等方面。研究发现一维氧化物纳米材料在光电催化 [1][2] 、电化学传感器 [3][4][5] 和纳米电子器件 [6][7] 等领域都具有广泛的应用前景。通过掺杂稀土元素或改变元素比例调控材料的性能是常用的改性方法, 其中三元氧化物纳米材料与二元氧化物纳米材料相比, 更具有后期改性研究的优势, 因此研究热点集中在三元氧化物的可控合成。作为一类重要的一维纳米材料三元氧化物锗酸盐, 如 Zn 2 GeO 4 [8][9][10] 、 Bi 4 Ge 3 O 12 [11][12] 、 Pb 5 Ge 3 O 11 [13][14] 等在各个领域得到广泛应用。其中, 锗酸铜具有自旋-佩尔斯相变, 独特的性能受到广泛关注。研究锗酸铜的自旋-佩尔斯相变 [15] , 在磁学 [16][17][18] 、锂钠离子电池 [19][20][21] 和电化学传感器 [3] 等领域的应用, 都离不开制备方法。Li 等 [22] 研究了不同纳米尺寸 CuGeO 3 的磁性和自旋-佩尔斯跃迁(简称 SP), 在长度小于 600 nm 的 CuGeO 3 纳米棒中无 SP 跃迁, 而在大于 600 nm 的纳米线中出现较弱的 SP 跃迁。不同尺寸及结构的锗酸铜对性能产生不同的影响, Pei 等 [23] 以 GeO 2 和 Cu(CH 3 COO) 2 为原材料, 利用水热反应制备出长几十微米的 CuGeO 3 纳米线。但这种制备方法限制了铜源的选择性, 大量的研究工作都采用该种方法制备 CuGeO 3 纳米线 [3,20,24] 。在此基础上, Li 等 [22,25] [26] , 这两个标准伴峰使 Cu 2+ 区别于 Cu 1+ 和 Cu 0 [27] , 证明材料中的铜以 Cu 2+ 的形式存在。 Ge2p 能谱中在 1251.7 和 1220.8 eV 处出现的两个强峰分别属于 Ge2p 1/2 和 Ge2p 3/2 , 据查阅文献 [28], 证明材料中的锗以 Ge 4+ 图 1 CGO-pH 系列样品的 XRD 图谱 [22] 制备的 200~ 600 nm CuGeO 3 纳米线, 本研究将反应时间从 72 h 缩短到 8 h。从以上结果可以看出, 除了延长反应时间、改变反应温度 [25,[34][35]…”

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Efficient Preparation of CuGeO₃ with Controllable Morphology Using CuCl₂ as Copper Source

Xiao¹,

Li²,

Qin³

et al. 2021

Journal of Inorganic Materials

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过程中, 利用 Cu(CH 3 COO) 2 等弱酸盐促进水的电离来获取 CuGeO 3 生长所需的 OH-, 这种操作方法虽然简单, 但制备时间长、效率低。本研究采用强酸盐 CuCl 2 取代弱酸盐 Cu(CH 3 COO) 2 为铜源, 调节前驱体溶液的 pH, 控制各晶面吸附能力及溶液过饱和度, 实现高效制备 CuGeO 3 纳米棒和 CuGeO 3 六边形纳米片, 将制备时间缩短至 8 h。并在此基础上, 添加一维结构导向剂乙二胺, 在加速反应过程的同时限制 CuGeO 3 的二维平面生长, 高效制备了 100 nm、200~300 nm、350~500 nm、400~700 nm、1~2 μm 和 1~3 μm 六种不同尺寸、形貌均一的 CuGeO 3 纳米线。关键词: CuGeO 3 纳米线; CuCl 2 ; 水热法; 形貌控制

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The effects of thermal power and deposition time on the structural characteristics of ZnO nanorods and their optical properties for photovoltaic applications

Nasih¹,

Dloo²,

Hallani

et al. 2020

Appl. Phys. A

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Preparation of SiO2 nanowires from rice husks by hydrothermal method and the RNA purification performance

Cited by 9 publications

References 24 publications

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Efficient Preparation of CuGeO₃ with Controllable Morphology Using CuCl₂ as Copper Source

The effects of thermal power and deposition time on the structural characteristics of ZnO nanorods and their optical properties for photovoltaic applications

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Preparation of SiO2 nanowires from rice husks by hydrothermal method and the RNA purification performance

Cited by 9 publications

References 24 publications

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Characteristics of Smoldering on Moist Rice Husk for Silica Production

Efficient Preparation of CuGeO3 with Controllable Morphology Using CuCl2 as Copper Source

The effects of thermal power and deposition time on the structural characteristics of ZnO nanorods and their optical properties for photovoltaic applications

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Efficient Preparation of CuGeO₃ with Controllable Morphology Using CuCl₂ as Copper Source