J Am Chem Soc 1992,114(26):10573–10582.find more CrossRef 17. Guth U, Gerlach F, Decker M, Oelßner W, Vonau W: Solid-state reference electrodes for potentiometric sensors. Journal of Solid State Electrochemistry

2009,13(1):27–39.CrossRef 18. Cadogan A, Gao Z, Lewenstam A, Ivaska A, Diamond D: All-solid-state sodium-selective electrode based on a calixarene ionophore in a poly(vinyl chloride) membrane with a polypyrrole solid contact. Anal Chem 1992,64(21):2496–2501.CrossRef 19. Jiménez C, Bartroli J: Development of an ion-sensitive field effect transistor based on PVC membrane technology with improved long-term stability. Electroanalysis 1997,9(4):316–319.CrossRef 20. Bratov A, Muñoz J, Dominguez C, Bartrolí J: Photocurable polymers applied as encapsulating materials for ISFET production. Sensors and Actuators B: Chemical 1995,25(1–3):823–825.CrossRef 21. Kuang B, Mahmood HS, Quraishi MZ, Hoogmoed WB, Mouazen AM, van Henten EJ: Chapter four – sensing soil Ganetespib properties in the laboratory, in situ, and on-line: a review. In Advances in Agronomy. Edited by: Donald LS. Waltham: Academic; 2012:155–223. 22. Seymour RB: Plastics. Ind Eng Chem 1966,58(8):61–73.CrossRef 23. Cecilia JJJ, Orozco A, Baldi Q: ISFET based microsensors

for environmental monitoring. Sensors (Basel, Switzerland) 2009,10(1):1.CrossRef 24. Chung WY, Cruz FRG, Szu H, Pijanowska DG, Dawgul M, Torbicz W, Grabiec PB, Jarosewicz B, Chiang J-L, Chang KC, Cheng C, Ho W-P: ISFET electronic tongue system for environmental multi-ion sensing with independent component selleck screening library Lepirudin analysis signal processing. In Independent Component Analyses, Wavelets, Neural Networks, Biosystems, and Nanoengineering VII. Edited by: Szu HH, Agee FJ. Bellingham: SPIE; 2009:73431D.CrossRef 25. Haigang Yang HS, Jinghong H, Jinbao W, Zengjin L, Shanhong X, Hua Z: A pH-ISFET based micro sensor system on chip using standard CMOS technology. In Proceedings of the Fifth International Workshop on System-on-Chip for Real-Time Applications: Banff; July 20–24, 2005. Piscataway: IEEE Computer Society; 2005:180–183. 26. Lee D, Cui T: pH-dependent conductance behaviors

of layer-by-layer self-assembled carboxylated carbon nanotube multilayer thin-film sensors. J Vac Sci Technol 2009,27(2):842.CrossRef 27. Martinoia S, Massobrio P: ISFET–neuron junction: circuit models and extracellular signal simulations. Biosens Bioelectron 2004,19(11):1487–1496.CrossRef 28. Bousse L, Bergveld P: The role of buried OH sites in the response mechanism of inorganic-gate pH-sensitive ISFETs. Sensors and Actuators 1984,6(1):65–78.CrossRef 29. Steinhoff G, Hermann M, Schaff WJ, Eastman LF, Stutzmann M, Eickhoff M: pH response of GaN surfaces and its application for pH-sensitive field-effect transistors. Appl Phys Lett 2003,83(1):177–179.CrossRef 30. Pijanowska D, Torbicz W: Simple method of enzyme immobilization for pH-ISFET-based urea biosensors. In Optoelectronic and Electronic Sensors II. Bellingham: SPIE; 1997:219–226.CrossRef 31.

Besides, it is interesting to investigate the dependence of value of the mentioned construction on the location of the origin of a coordinate system. References 1. Röhlsberger R, Schlage K, Sahoo B, Couet S, Rüffer S: Collective lamb shift in single-photon PR-171 mw superradiance . Science

2010, 328:1248.CrossRef 2. Scully MO, Fry ES, Ooi CHR, Wódkievic K: Directed spontaneous emission from an extended ensemble of n atomstiming is everything . Phys Rev Lett 2006, 96:010501.CrossRef 3. Scully MO, Svidzinsky AA: The super of superradiance . Science 2009, 325:1510–1511.CrossRef 4. Chang J: Characteristics of cooperative spontaneous emission with applications to atom microscopy and coherent XUV radiation generation . PhD thesis. Texas JNK inhibitor research buy AM University, Physics Department; 2008. http://​repository.​tamu.​edu/​bitstream/​handle/​1969.​1/​ETD-TAMU-3226/​CHANG-DISSERTATION.​pdf?​sequence=​1 selleckchem 5. Svidzinsky AA: Nonlocal effects in single-photon superradiance . Phys Rev A 2012, 85:013821.CrossRef 6. Skribanowitz

N, Herman IP, McGillivray JC, Feld MS: Observation of Dicke superradiance in optically pumped HF gas . Phys Rev Lett 1973, 30:309.CrossRef 7. Haroche S, Gross M: Superradiance: an essay on the theory of collective spontaneous emission . Phys Rep 1982, 93:301.CrossRef 8. Blatt R, Wineland D: Entangled states of trapped atomic ions . Nature 2008, 453:1008–1015.CrossRef 9. Wiegner R, von Zanthier J, Agarwal GS: Quantum-interference-initiated superradiant and subradiant emission from entangled atoms . Phys Rev A 2011, 84:023805.CrossRef 10. Scully MO, Zubairy S: Atom-field interaction – quantum theory . In Quantum Optics. Cambridge, England: Cambridge University Press; 1997:193–217.CrossRef 11. Sizhuk AS, Yezhov SM: One photon selleck kinase inhibitor scatterng by an atomic chain in one- and two-mode

resonators . Ukrainian J Phys 2013, 58:1009–1015. 12. Elangovan M, Wallrabe H, Chen Y, Day RN, Barroso M, Periasamy A: Characterization of one- and two-photon excitation fluorescence resonance energy transfer microscopy . Methods 2003, 29:58–73.CrossRef 13. Cranford SW: Thermal stability of idealized folded carbyne loops . Nanoscale Res Lett 8:490. 14. Mahmood AS, Venkatakrishnan K, Tan B: 3-D aluminum nanostructure with microhole array synthesized by femtosecond laser radiation for enhanced light extinction . Nanoscale Res Lett 2013,. 8:477 Competing interests The authors declare that they have no competing interests. Authors’ contributions SAS performed the calculations and analysis of the results. YSM analyzed the methods of investigation and drafted the manuscript. Both authors read and approved the final manuscript.