M., Srivastava K., Gupta R., Kumar A., Marconnet A., Fisher T. Twisted multilayer graphene exhibiting strong absorption bands induced by van Hove Singularities UĪ Solution-Based Fast Fabrication of a High-Performance Unlimited Area Au Nanostructure/Si Heterojunction Photodetector KulkarniĪ planar supercapacitor made of supramolecular nanofibre based solid electrolyte exhibiting 8 V windowīannur, B, Rao, K.D.M, K. Hybrid transparent conducting glasses made of metal nanomesh coated with metal oxide overlayer Patterned Cu mesh based transparent and wearable touch panel for tactile, proximity, pressure and temperature sensingĪ. Fontaineįormation of Two-Dimensional Network of Organic Charge-Transfer Complexes at the Air–Water Interface Metal mesh-based transparent electrodes as high-performance EMI shieldsĪ. Sunil Walia, Ashutosh K Singh, Veena S G Rao, Suryasarathi Bose & Giridhar U Kulkarni Innovative Approach to Photo-Chemiresistive Sensing Technology: Surface-Fluorinated SnO2 for VOC Detection RĪ Simple Chemical Route to Borocarbonitride Nanotubesīahuguna, G., Mondal, I., Verma, M., Kumar, M., Bhattacharya, S., Gupta, R., & Kulkarni, G. Simple synthesis of nanosheets of rGO and nitrogenated rGOĬhithaiah P, Pramoda K, Kulkarni, G. Twist-Dependent Raman and Electron Diffraction Correlations in Twisted Multilayer GrapheneĬhithaiah P,Raju, M. Nikita Gupta, Sunil Walia, Umesha Mogera & Kulkarni, G. Smart Electrochromic Supercapacitors Made of Metal Mesh Electrodes with Polyaniline as Charge Storage Indicator George & Kulkarni, G.U.Įlectric field assisted assembly of 1D supramolecular nanofibres for enhanced supercapacitive performance Scalable Fabrication of Scratch-Proof Transparent Al/F-SnO2 Hybrid Electrodes with Unusual Thermal and Environmental Stability Indrajit Mondal, Gaurav Bahuguna, Mukesha K.G, Mohit Verma, Ritu Gupta, Ashutosh k. Synergistic Voltaglue Adhesive Mechanisms with Alternating Electric Fields
Page,Yuqing Liu, Gautama Wicaksono, Rajashekhar Pujar, Shyam Kumar Choudhary, Giridhar U. Noble Metal Nanomaterials with Nontraditional Crystal Structures. And please make sure to include important information in the question body.Chaitali Sow, Suchithra P, Gangaiah Mettela and G.U.Kulkarni These numbers came from somewhere, it would have been nice if you'd provided the calculations. Or are they just showing there isn't VLE with that given property?Ĭould you give an example of where this was done? I have a hunch where you are going with Ok an example,we have mole fractions and temperature, and we want dew pressure, so we take two arbitrary pressures and calculate summation of y/k, which y=z because we are in dew point,and k earned by DePriester,so if we try this summation in 100psi we get 0.828 and if we try it in 150psi we get 1.174, and finally if we try 126psi we get 1 and thats the dew pressure,i wanna know about those 1.174 and 0.828,do they give us some physical signs about which regions are we in,by that pressure? = psi sum of y/kĭo the values for the pressures above and below the dew point pressure have a physical meaning?įor example, showing us that we are in two-phase, SH vapor or SC liquid region? If I wanted to calculate the dew point pressure at a given temperature and I take arbitrary pressures (including the dew point pressure) I get the following results. My question is about those values, are they showing some physical property? Now there are sometimes that we get some K's and using the summation of $y/k$ we get some quantities that are not 1, like 0.9 or 1.2.
Using DePriester Chart and Given one of mole fractions ($z$), pressure and temperature we can acquire K-values for that properties and bubble and dew properties.