Adsorption Toward(吸附走向)研究综述
Adsorption Toward 吸附走向 - Several isotherm and kinetic models were investigated to understand the mechanism of adsorption towards Cu 2+ metal ions. [1] The chitosan/soot aerogel have been tested for adsorption toward both anionic and cationic organic dyes, as well as for an aromatic pollutant (naphthalene). [2] The results indicate that the capacity of adsorption towards TC, NFO and OFO (1∼40 ppm) by the LAC-loaded agarose aerogel (LAC-AA) adsorbents is 537. [3] Selectivity of the adsorption towards ReO4− ions was up to 200-fold greater when compared to the 6-fold molar excess of Mo(VI) ions. [4] Detailed characterization results reveal a unique shift in adsorption towards weakly-bonded H2 and CO2 on Pd-Cu bimetallic surface which appear to correlate to the CH3OH promotion. [5] The Fe3-xYxO4 affinities of adsorption toward the inorganic arsenic species, As(III) (arsenite, AsO33-) and As(V) (arsenate, AsO43-), were investigated. [6] In order to increase the adsorption towards their unnatural substrate, the enzymes are fused to carbohydrate-binding modules (CBMs) leading to enhanced activity. [7] With a mesoporous structure and a high density of active amino groups, the amino-functionalized hypercrosslinked polymers (NH2-HCPs) not only showed an unprecedented adsorption capacity of 3290 mg g−1 for the anionic dye X-3B and almost no adsorption toward the cationic dye, but also possessed an excellent CO2/N2 selectivity of 122. [8] This study employs an economic industrial material, highlights the contribution of adsorption towards the PFAS removal and breakdown, and identifies the possible leakage of secondary contaminants. [9]研究了几种等温线和动力学模型以了解对Cu 2+ 金属离子的吸附机理。 [1] 壳聚糖/烟灰气凝胶已经过对阴离子和阳离子有机染料以及芳香污染物(萘)的吸附测试。 [2] 结果表明,负载 LAC 的琼脂糖气凝胶(LAC-AA)吸附剂对 TC、NFO 和 OFO(1∼40 ppm)的吸附能力为 537。 [3] 与 6 倍摩尔过量的 Mo(VI) 离子相比,对 ReO4- 离子的吸附选择性高达 200 倍。 [4] 详细的表征结果揭示了吸附在 Pd-Cu 双金属表面上向弱键合 H2 和 CO2 的独特转变,这似乎与 CH3OH 促进有关。 [5] 研究了 Fe3-xYxO4 对无机砷物质 As(III)(亚砷酸盐,AsO33-)和 As(V)(砷酸盐,AsO43-)的吸附亲和力。 [6] 为了增加对其非天然底物的吸附,酶与碳水化合物结合模块 (CBM) 融合,从而提高活性。 [7] 具有介孔结构和高密度活性氨基的氨基官能化超交联聚合物 (NH2-HCPs) 不仅对阴离子染料 X-3B 表现出前所未有的 3290 mg g-1 吸附能力,而且对阴离子染料 X-3B 几乎没有吸附。阳离子染料,还具有出色的 CO2/N2 选择性 122。 [8] 本研究采用经济的工业材料,强调吸附对 PFAS 去除和分解的贡献,并确定可能的二次污染物泄漏。 [9]
Selective Adsorption Toward 选择性吸附
JUC-210 displayed high selective adsorption toward the cationic dye methylene blue with positive charges based on ion exchange and size exclusion. [1] Thanks to the negligible N2 adsorption capacity, enhanced selective adsorption towards CO2 is achieved in compound 2-N. [2] Ag (I) grafted porous carbon adsorbents showed an excellent selective adsorption towards ethylene and propylene due to the π complexation. [3] This forms a dynamic equilibrium of rapid release- selective adsorption toward the acid-extractable fraction Cd(II) in the soil-water system. [4] 6 wt%) at 1 bar and 298 K in 2D MOF family, and a high CO2 selective adsorption toward N2 and CH4 as well. [5] At pH 7, CuPPIX@MNPs show selective adsorption toward angiotensin, about 90% adsorption vs 49 % adsorption for naked MNPs. [6] Also, the ability of selective adsorption towards cationic and anionic pollutants in aqueous solution was carefully investigated. [7] Ferromagnetic [Ni5(H2TCPP)2O(H2O)4]·nS exhibits selective adsorption towards cationic dyes in solution and gas separation calculations predict promising values for gas mixtures. [8] Selective adsorption of CR was investigated in the presence of cationic and anionic dyes, and the same as Cu(II) in the existence of competitive ions, which revealed that it was appropriate for selective adsorption toward CR and Cu(II) in complex wastewater. [9] Moreover, the NPCS-PEI aerogels had selective adsorption toward Cu2+. [10] Trans CAC4-modified gold surfaces showed selective adsorption towards (R)-naproxen, while cis CAC4-modified gold surfaces did not show any distinctive interaction with (R)/(S)-naproxen. [11] Moreover, the magnetic gel beads had selective adsorption toward Pb2+. [12] A mesoporous silica with MCM-41 type pore array was synthesized by hydrothermal method and then was functionalized with known amounts of 3-aminopropyltriethoxysilane (APTES) in order to study the selective adsorption towards several species/pollutants. [13] The results showed that the adsorption behavior fitted well to the pseudo-second-order kinetic and the CMF had high selective adsorption towards Pb(II). [14] Moreover, the crystal defects mediated by Ti-doping can generate abundant oxygen vacancies which remarkably improve the selective adsorption towards different charges pollutants. [15] The selective adsorption towards glycoproteins from complex biosamples is of vital importance in life science studies. [16] Importantly, adsorption of the monosubstituted benzenes indicated that the adsorption behavior of the monosubstituted benzenes on the Fe-modified MCM-41 (Fe-MCM-41) was a monolayer adsorption on the heterogeneous surfaces, and it showed great selective adsorption towards aniline, and the maximum adsorption capacity of the Fe-MCM-41 towards aniline was 17. [17] Due to the existence of fluorine-donor sites in the network, complexes 1–2 exhibited selective adsorption towards Congo red (CR) than methyl orange (MO), methyl blue (MB), rhodamine B (RhB) and methylene blue (MLB). [18]基于离子交换和尺寸排阻,JUC-210 对带正电荷的阳离子染料亚甲基蓝表现出高选择性吸附。 [1] 由于 N2 吸附容量可忽略不计,化合物 2-N 对 CO2 的选择性吸附增强。 [2] 由于 π 络合,Ag (I) 接枝多孔碳吸附剂对乙烯和丙烯表现出优异的选择性吸附。 [3] 这形成了对土壤-水系统中酸可萃取部分 Cd(II) 的快速释放-选择性吸附的动态平衡。 [4] 6 wt%)在 1 bar 和 298 K 的二维 MOF 系列中,并且对 N2 和 CH4 也具有高 CO2 选择性吸附。 [5] 在 pH 7 时,CuPPIX@MNPs 显示出对血管紧张素的选择性吸附,约 90% 的吸附与 49% 的裸 MNPs 吸附。 [6] 此外,还仔细研究了对水溶液中阳离子和阴离子污染物的选择性吸附能力。 [7] 铁磁性[Ni5(H2TCPP)2O(H2O)4]·nS 在溶液中表现出对阳离子染料的选择性吸附,气体分离计算预测了气体混合物的前景价值。 [8] 在阳离子和阴离子染料存在下研究了 CR 的选择性吸附,与竞争离子存在下的 Cu(II) 相同,这表明它适用于在复杂废水中对 CR 和 Cu(II) 的选择性吸附。 [9]