APJCP 2014,15(1):517–535. 103. Valizadeh H, Mohammadi G, Ehyaei R, Milani M, Azhdarzadeh M, Zakeri-Milani P, Lotfipour F: Antibacterial activity of clarithromycin loaded PLGA nanoparticles. Pharmazie Int J Pharm Sci 2012,67(1):63–68. 104. Hasani A, Sharifi Y, Ghotaslou R, Naghili B, Aghazadeh M, Milani M: Molecular screening of virulence genes in high-level gentamicin-resistant Enterococcus faecalis and Enterococcus faecium isolated from clinical

PI3K inhibitors ic50 specimens in Northwest Iran. Indian J Med Microbiol 2012, 30:2. 105. Sharifi Y, Hasani A, Ghotaslou R, Varshochi M, Hasani A, Soroush MH, Aghazadeh M, Milani M: Vancomycin-resistant Enterococci among clinical isolates from north-west Iran: identification of therapeutic surrogates. J Med Microbiol 2012,61(4):600–602. 106. Farajnia S, Hassan M, HallajNezhadi S, Mohammadnejad L, Milani M, Lotfipour F: Determination of indicator bacteria in pharmaceutical samples by multiplex PCR. J Rapid Meth Aut Mic 2009,17(3):328–338. Competing interests The authors declare that they have no competing interests. Authors’ contributions SWJ conceived the

study PI3K inhibitor and participated in its design and coordination. EA participated in the sequence alignment and drafted the manuscript. AA, RPA, SFA, HTN, YH, KNK, and MM helped in drafting the manuscript. All authors read and approved the final manuscript.”
“Background Chemiresistive sensors have aroused much attention in environment monitoring, industry and agriculture production, medical diagnosis, military, and public safety, etc. {Selleck Anti-infection Compound Library|Selleck Antiinfection Compound Library|Selleck Anti-infection Compound Library|Selleck Antiinfection Compound Library|Selleckchem Anti-infection Compound Library|Selleckchem Antiinfection Compound Library|Selleckchem Anti-infection Compound Library|Selleckchem Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|Anti-infection Compound Library|Antiinfection Compound Library|buy Anti-infection Compound Library|Anti-infection Compound Library ic50|Anti-infection Compound Library price|Anti-infection Compound Library cost|Anti-infection Compound Library solubility dmso|Anti-infection Compound Library purchase|Anti-infection Compound Library manufacturer|Anti-infection Compound Library research buy|Anti-infection Compound Library order|Anti-infection Compound Library mouse|Anti-infection Compound Library chemical structure|Anti-infection Compound Library mw|Anti-infection Compound Library molecular weight|Anti-infection Compound Library datasheet|Anti-infection Compound Library supplier|Anti-infection Compound Library in vitro|Anti-infection Compound Library cell line|Anti-infection Compound Library concentration|Anti-infection Compound Library nmr|Anti-infection Compound Library in vivo|Anti-infection Compound Library clinical trial|Anti-infection Compound Library cell assay|Anti-infection Compound Library screening|Anti-infection Compound Library high throughput|buy Antiinfection Compound Library|Antiinfection Compound Library ic50|Antiinfection Compound Library price|Antiinfection Compound Library cost|Antiinfection Compound Library solubility dmso|Antiinfection Compound Library purchase|Antiinfection Compound Library manufacturer|Antiinfection Compound Library research buy|Antiinfection Compound Library order|Antiinfection Compound Library chemical structure|Antiinfection Compound Library datasheet|Antiinfection Compound Library supplier|Antiinfection Compound Library in vitro|Antiinfection Compound Library cell line|Antiinfection Compound Library concentration|Antiinfection Compound Library clinical trial|Antiinfection Compound Library cell assay|Antiinfection Compound Library screening|Antiinfection Compound Library high throughput|Anti-infection Compound high throughput screening| nowadays [1–5]. In order to meet the requirements of industry and other fields’ demands, semi-conducting metal oxide, organic semiconductors, and carbon materials, etc., which have high aspect ratio and large specific surface area, have been widely used as sensing materials and the excellent performances of the resultant devices HA-1077 clinical trial have been achieved [6–8]. Graphene, as a new member of carbon family, has emerged as a promising candidate for sensing because of its unique electronic, excellent mechanical, chemical,

and thermal properties [9–18]. Excellent sensing performance of graphene towards different kinds of gases, including NO2, NH3, H2O, CO, trimethylamine, I2, ethanol, HCN, dimethyl methylphosphonate (DMMP), and DNT, have been reported [19–26]. Generally, there are three main methods to prepare graphene materials: micromechanical exfoliation of graphite [16], chemical vapor deposition [27], and reduction of graphene oxide (GO) [28]. The resultant graphene materials can be considered as excellent candidates for gas sensing, especially for chemically reduced graphene oxide (rGO). The rGO sheets have great potential for using as chemiresistors [29–32] due to their scalable production, easy processability in solution, large available surface area, etc.