Adsorption of organic dyes from aqueous solutions using surfactant exfoliated graphene

In this study, graphene exfoliated in the presence of surfactants was investigated as an adsorbent for the removal of organic dyes from aqueous solution. The resultant graphene particles were shown using zeta potential measurements to possess effective surface charges dominated by the charge of the adsorbed exfoliating surfactant. In this way, the overall charge on the particles, and hence the ability to adsorb dyes, was significantly enhanced compared to previously explored surfactant free systems. Furthermore, the graphene particles could be produced to have either positive or negative charge allowing the selective removal of anionic or cationic species from water respectively. The adsorption of the dyes from solution was demonstrated to be driven by electrostatic interactions with the adsorbed surfactant. The maximum removal of dye was achieved when cationic methylene blue was exposed to graphene exfoliated using the anionic surfactant, sodium dodecyl sulfate (SDS). Adsorption of methylene blue on SDS exfoliated graphene was strongly influenced by contact time and temperature, while variations in pH were shown to have a minor effect on adsorption. Indeed, the rate of adsorption was faster than previous studies due to the inherent 2D nature of the highly exfoliated graphene particles. The adsorption data was modelled using the Freundlich and Langmuir adsorption isotherms, whilst the pseudo-second order model and the intraparticle diffusion models were used to model the kinetics of the adsorption process. SDS exfoliated graphene particles exhibited a maximum adsorption capacity of 782.3 mg/g at 25 °C, greater than that of many other graphene-based materials. Thus, surfactant exfoliated graphene particles not only demonstrated excellent adsorption characteristics, but also the ability to maximize the amount of dye adsorbed based on solution conditions or the exfoliating surfactant

Distribution of carbon monoxide-producing neurons in human colon and in Hirschsprung's disease patients

Hirschsprung's disease (HSCR) is characterized by the absence of ganglion cells and impaired relaxation of the gut. Nitric oxide (NO) and, more recently, carbon monoxide (CO) have been identified as inhibitory neurotransmitters causing relaxation. A deficiency in NO has been reported in aganglionic gut; we hypothesized that CO could also be involved in impaired gut motility in HSCR. The aim of the study was to determine the distribution of CO-and NO-producing enzymes in the normal and aganglionic gut. We performed laser capture microdissection, reverse transcription-polymerase chain reaction, and immunohistochemistry on colon biopsies of normal controls (n = 9) and patients with HSCR (n = 10). The mRNA expression of heme oxygenase-2 (HO-2), immunoreactivities of HO-2 and NO synthase, was determined and compared. Results show a high level of expression of HO-2 mRNA localized in the myenteric plexus. Expression of HO-2 mRNA was also detected in the mucosa, submucosa, and muscular layer. Down-regulation of HO-2 mRNA expression was detected in the aganglionic colon. Immunoreactivities of HO-2 and NO synthase were localized mainly to the ganglion plexus and to nerve fibers within the muscle in the control colons and normoganglionic colons. HO-2-containing neurons were more abundant than NO synthase-containing neurons in the myenteric plexus. Nearly all of the NO synthase-containing neurons also contained HO-2. HO-2 and NO synthase were selectively absent in the myenteric and submucosal regions and in the muscle of the aganglionic colon. Our findings suggest involvement of both CO and NO in the pathophysiology of HSCR. Copyright 2002, Elsevier Science (USA). All rights reserved.postprin

Van der Waals density functional: Self-consistent potential and the nature of the van der Waals bond

We derive the exchange-correlation potential corresponding to the nonlocal van der Waals density functional [M. Dion, H. Rydberg, E. Schroder, D. C. Langreth, and B. I. Lundqvist, Phys. Rev. Lett. 92, 246401 (2004)]. We use this potential for a self-consistent calculation of the ground state properties of a number of van der Waals complexes as well as crystalline silicon. For the latter, where little or no van der Waals interaction is expected, we find that the results are mostly determined by semilocal exchange and correlation as in standard generalized gradient approximations (GGA), with the fully nonlocal term giving little effect. On the other hand, our results for the van der Waals complexes show that the self-consistency has little effect at equilibrium separations. This finding validates previous calculations with the same functional that treated the fully nonlocal term as a post GGA perturbation. A comparison of our results with wave-function calculations demonstrates the usefulness of our approach. The exchange-correlation potential also allows us to calculate Hellmann-Feynman forces, hence providing the means for efficient geometry relaxations as well as unleashing the potential use of other standard techniques that depend on the self-consistent charge distribution. The nature of the van der Waals bond is discussed in terms of the self-consistent bonding charge.Comment: submitted to Phys. Rev.

Sufu and Gli3 repressor mediate the temporal basal-to-apical progression of hair cell differentiation in mammalian cochleae

Poster presentation - Theme 3: Development & stem cellsThe Sonic Hedgehog pathway plays important roles in mammalian inner ear development. Mutations of Shh, Smo and Gli3 lead to severe defects in mouse inner ear morphogenesis. However, knockout of Gli2 does not affect inner ear morphology or cochlear hair cell differentiation, suggesting that the Gli repressor function may be required for Hedgehog signaling during inner ear development. Sufu is a negative regulator of Hedgehog signaling and it functions to repress Gli activator and enhance Gli repressor ...postprin

Early changes of auditory brain stem evoked response after radiotherapy for nasopharyngeal carcinoma - A prospective study

A prospective study of the effect of radiotherapy for nasopharyngeal carcinoma on hearing was carried out on 49 patients who had pure tone, impedance audiometry and auditory brain stem evoked response (ABR) recordings before, immediately, three, six and 12 months after radiotherapy. Fourteen patients complained of intermittent tinnitus after radiotherapy. We found that 11 initially normal ears of nine patients developed a middle ear effusion, three to six months after radiotherapy. There was mixed sensorineural and conductive hearing impairment after radiotherapy. Persistent impairment of ABR was detected immediately after completion of radiotherapy. The waves I-III and I-V interpeak latency intervals were significantly prolonged one year after radiotherapy. The study shows that radiotherapy for nasopharyngeal carcinoma impairs hearing by acting on the middle ear, the cochlea and the brain stem auditory pathway.published_or_final_versio