Tetrasulfide‐Functionalized Mesoporous Silica on Nanowire Ring Resonators for Detection of Aqueous Lead, Pb(II)

Chen, Hao; Saunders, John E.; Borjian, Sogol; Wu, Xiaowei; Crudden, Cathleen M.; Xu, Dan‐Xia; Loock, Hans‐Peter

doi:10.1002/adsu.201800084

Cited by 5 publications

(2 citation statements)

References 63 publications

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“…Lead is a toxic widespread metal pollutant that represents an environmental health menace. , A particular health concern in recent years has been the amount of lead in drinking water, as lead can leach into tap water from lead containing pipes and solders. This has encouraged investigation for the development of more precise lead detectors in water and the design of more selective chelating molecules capable of sequestering lead from liquid media. Therefore, the understanding of the hydration features in aqueous solution of lead is of great importance.…”

Section: Introductionmentioning

confidence: 99%

Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

2019

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The Pb2+ presents unique hydration features that make the experimental characterization and its theoretical modeling challenging: classical molecular dynamics (MD) with standard force-fields fails to produce the experimentally determined diffusion coefficient and the EXAFS spectrum. Here we study the hydration of Pb2+ in aqueous solution employing a polarizable model compatible with the MCDHO water model. The MCDHO FF for the Pb2+–water interaction was fitted to reproduce the configurations and interaction energies of various [Pb(H2O) n ]2+ clusters obtained with ab initio calculations, with n = 4, 6, and 8. Its use in classical MD simulations yielded qualitative agreement with Born–Oppenheimer molecular dynamics of gas-phase hydrated clusters and MD simulations of the aqueous solution resulted in good agreement with the experimental D Pb2+ and EXAFS spectrum. Analysis of the MD trajectories revealed a labile and very dynamic hemidirected first hydration shell in the aqueous solution with a non-well-defined coordination number CN; nonetheless, it was found that the more probable hydration structures have either 3 or 4 water molecules directly bound to the Pb2+ with another 3 or 2 at slightly larger distances. The simulations of the gas-phase [Pb(H2O)29]2+ cluster were found to capture the main structural features of the diluted aqueous solution.

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Section: Introductionmentioning

confidence: 99%

Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

2019

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“…[ 25–29 ] However, the adsorption capacity of MSNs was a great limitation because there are no functional sites on MSNs surface. [ 30 ] It was reported that by grafting high‐density carboxyl groups onto the pore surface of MSNs and complexing with platinum atoms, the drug loading efficiency of MSNs can be greatly improved. [ 31 ]…”

Section: Introductionmentioning

confidence: 99%

Adhesive Nanocomposite for Prolonging Foliar Retention and Synergistic Weeding and Nourishing

Huang

Yan

et al. 2020

Advanced Sustainable Systems

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efficiency of fertilizer and pesticide is growing to solve these problems. [8][9][10] Controlled release pesticide-fertilizer combination (CRPFC), playing a synergistic effect of pesticide and fertilizer, is an effective approach to achieve sustainable circulative agriculture and has garnered considerable attention all over the world. [11,12] Compared with traditional controlledrelease pesticide or fertilizer, CRPFC unifies the two most important agrochemicals used in agriculture, and combine the plant protection of pesticide and the nutrients supply of fertilizer into one field operation. It cannot only save labor but also reduce time and energy consumption. Various materials have been developed recently to be used as carriers of pesticide and fertilizer, such as organic polymers, [13] bio-sourced matrices, [14] and inorganic materials. [15,16] However, most of them only provide individual function and are accompanied by complex preparation processes. Furthermore, they are very susceptible to being washed away by rain, which limit their real applications. [17] Therefore, develop an adhesive carrier for extensive use of CRPFC in agriculture is still a challenge.Nanotechnology represents a new direction for the carrier development. [18][19][20][21] Over the past years, the applications and benefits of nanotechnology, especially nanoparticles as pesticide or fertilizer carrier platforms, have generated immense developments. [22][23][24] Recently, mesoporous silica nanoparticles (MSNs) show superior performance as support for fertilizer or pesticide controlled release due to their easy functionalization modification, controllable morphology, adjustable pore volume, and thermal stability. [25][26][27][28][29] However, the adsorption capacity of MSNs was a great limitation because there are no functional sites on MSNs surface. [30] It was reported that by grafting highdensity carboxyl groups onto the pore surface of MSNs and complexing with platinum atoms, the drug loading efficiency of MSNs can be greatly improved. [31] In this work, MSNs functionalized by positive charges were developed to achieve a high loading capacity of pesticide and fertilizer (Scheme 1). Then the nanoparticles were coated by polydopamine (PDA) via self-polymerization. [32][33][34] As a kind of catecholamines, PDA is expected to be active for metals ions, [35] The volatilization and leaching for most fertilizers and pesticides raise questions about the sustainability of ecosystems. To enhance the utilization of fertilizers and pesticides, pesticide-fertilizer combined nanocomposites are developed to prolong foliar retention and play a synergistic effect of weeding and nourishing for plant growth. The pesticide-fertilizer combined nano composites are prepared based on positive-charge functionalized mesoporous silica and polydopamine, by chelating micronutrients (Zn 2+ ) and loading pesticide 2,4-D. A high loading capacity of Zn 2+ (233.4 mg g −1 ) and 2,4-D (17.8%) is achieved. Zn 2+ and the pesticide show excellent pH-responsive release behavio...

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Fundamental Optical Properties of MaterialsII

Kasap¹,

Koughia²,

Singh³

et al. 2019

Optical Properties of Materials and Their Applications

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Tetrasulfide‐Functionalized Mesoporous Silica on Nanowire Ring Resonators for Detection of Aqueous Lead, Pb(II)

Cited by 5 publications

References 63 publications

Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

Adhesive Nanocomposite for Prolonging Foliar Retention and Synergistic Weeding and Nourishing

Fundamental Optical Properties of MaterialsII

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Tetrasulfide‐Functionalized Mesoporous Silica on Nanowire Ring Resonators for Detection of Aqueous Lead, Pb(II)

Cited by 5 publications

References 63 publications

Study of the Elusive Hydration of Pb2+from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

Study of the Elusive Hydration of Pb2+from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

Adhesive Nanocomposite for Prolonging Foliar Retention and Synergistic Weeding and Nourishing

Fundamental Optical Properties of MaterialsII

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Product

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Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field

Study of the Elusive Hydration of Pb²⁺from the Gas Phase to the Liquid Aqueous Solution: Modeling the Hemidirected Solvation with a Polarizable MCDHO Force-Field