The Effect of Ionic Strength and pH on the Electrostatic Stabilization of NanoRDX

Doukkali, Mouhcine; Patel, R.N.; Степанов, В. П.; Hadim, Hamid

doi:10.1002/prep.201700096

Cited by 10 publications

(4 citation statements)

References 17 publications

(14 reference statements)

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“…These changes would decrease the electrostatic repulsion forces between BR nanoparticles, resulting in a lower energy barrier against the aggregation and collision of BR nanoparticles. The functional groups of organic molecules such as hydroxyl, carbonyl, and aromatic ring moieties are in competition between charged BR nanoparticles affecting the decrease of adsorption, specifically at low BR concentrations . According to the previous reports, the relationship between uniformity in composite materials and structural stability is well documented and irregularity could lead to substantially reduced mechanical properties.…”

Section: Resultsmentioning

confidence: 98%

Multifunctional Bioinspired Bredigite-Modified Adhesive for Bone Fracture Healing

Moazami

Kharaziha

Emadi

et al. 2023

ACS Appl. Mater. Interfaces

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Despite recent advances in bone adhesives applied for full median sternotomy, the regeneration of bone defects has remained challenging since the healing process is hampered by poor adhesiveness, limited bioactivity, and lack of antibacterial functions. Bioinspired adhesives by marine organisms provide a novel concept to circumvent these problems. Herein, a dual crosslink strategy is employed in designing a multifaceted bioinspired adhesive consisting of a catechol amine-functionalized hyperbranched polymer (polydopamine-co-acrylate, PDA), bredigite (BR) nanoparticles, and Fe 3+ ions. The hybrid adhesives exhibit strong adhesion to various substrates such as poly(methyl methacrylate), glass, bone, and skin tissues through synergy between irreversible covalent and reversible noncovalent cross-linking, depending on the BR content. Noticeably, the adhesion strength of hybrid adhesives containing 2 wt % BR nanoparticles to bone tissues is 2.3 ± 0.8 MPa, which is about 3 times higher than that of pure PDA adhesives. We also demonstrate that these hybrid adhesives not only are bioactive and accelerate in vitro bone-like apatite formation but also exhibit antibacterial properties against Staphylococcus aureus, depending on the BR concentration. Furthermore, the superior cellular responses in contact with hybrid adhesives, including improved human osteosarcoma MG63 cell spreading and osteogenic differentiation, are achieved owing to the appropriate ion release and flexibility of the cross-linked double-network adhesive. In summary, multifunctional hybrid PDA/BR adhesives with appreciable osteoconductive, mechanical, and antibacterial properties represent the potential applications for median sternotomy surgery as a bone tissue adhesive.

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Section: Resultsmentioning

confidence: 98%

Multifunctional Bioinspired Bredigite-Modified Adhesive for Bone Fracture Healing

Moazami

Kharaziha

Emadi

et al. 2023

ACS Appl. Mater. Interfaces

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“…When the thickness of the electrical double layer increases, the likelihood that particles will agglomerate and collide decreases. [ 23 ] As such, the relatively larger particle size obtained at higher salt concentration in the LiAlH 4 system may be related to a decrease in Debye length, and this would lead to poor electrostatic stabilization especially in nonaqueous nonpolar solvents. In addition to electrostatic forces, one should not rule out the possibility of solvation forces in stabilizing LiAlH 4 particles.…”

Section: Resultsmentioning

confidence: 99%

Solvation and Stabilization of Superior Alanate Nanostructures

Pratthana

Aguey‐Zinsou

2022

Energy Tech

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NaAlH4 and LiAlH4 are promising materials for hydrogen storage due to their high hydrogen density (7.4 and 10.5 mass%, respectively). However, their practical application is hampered from the slow hydrogen kinetics and poor reversibility. To improve the hydrogen properties of alanates, the alternative core–shell strategy has been proposed. In this respect, a simple solvent evaporation method is presented to synthesize the alanate core. In this approach, NaAlH4 and LiAlH4 are stabilized by solvation and electrostatic forces, respectively, through the addition of ionic salts. Remarkably, it is found that the size of the alanate nanoparticles can be tuned by varying the concentration of the introduced ion. More importantly, the partial substitution of Na+ and Li+ with cations of higher electronegativity enables the release of hydrogen at much lower temperatures.

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“…The final contact angle depends mainly on the orientation of the adsorbed surfactant molecules on the surface. RDX shows a negative charge in aqueous media due to ionization of nitro groups on the surface [23]. Therefore TTAB molecules adsorb on the surface through the positively charged head group by strong electrostatic attraction at a lower concentration in comparison to SDS and Triton-X (Figure 6a).…”

Section: Rdxmentioning

confidence: 99%

Modifying the Wettability of Nitramine Explosives using Anionic, Cationic and Nonionic Surfactants

Doukkali

Gauthier

Patel

et al. 2017

Propellants Explo Pyrotec

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Wetting behavior of energetic materials surface including cyclotrimethylene trinitramine (RDX), cyclotetramethylene tetranitramine (HMX) and hexanitrohexaazaisowurtzitane (CL-20) using nonionic (Triton-X), anionic (SDS), and cationic (TTAB) surfactants has been studied by contact angle tensiometry. Results show that TTAB more significantly reduces the contact angle and improves wettability as compared to SDS and Triton-X. The liquid-vapor surface tension g lv was measured as a function of TTAB surfactant concentration in aqueous solutions and used to construct a Zisman plot to determine the critical surface tension of RDX, HMX and CL-20. The results show that HMX displays the highest degree of wettability while RDX is most difficult to wet.The computed values of the work of spreading complement the previously discussed results where contact angle decreases with increasing surfactant concentration. They also indicate that RDX appears most impacted by the addition of TTAB surfactant. However, the addition of TTAB also has a significant impact on improving the wettability of HMX and CL-20. This wettability study plays an important role in the formation of well-wetted energetic surfaces needed for efficient wet milling, coating and granulation processes.

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The Effect of Ionic Strength and pH on the Electrostatic Stabilization of NanoRDX

Cited by 10 publications

References 17 publications

Multifunctional Bioinspired Bredigite-Modified Adhesive for Bone Fracture Healing

Multifunctional Bioinspired Bredigite-Modified Adhesive for Bone Fracture Healing

Solvation and Stabilization of Superior Alanate Nanostructures

Modifying the Wettability of Nitramine Explosives using Anionic, Cationic and Nonionic Surfactants

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