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000857655 019__ $$a1080649136
000857655 020__ $$a9783319904870$$q(electronic book)
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000857655 020__ $$z9783319904863
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000857655 035__ $$aSP(OCoLC)on1080999442
000857655 035__ $$aSP(OCoLC)1080999442$$z(OCoLC)1080649136
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000857655 050_4 $$aQD553$$b.N36 2018
000857655 08204 $$a541/.37$$223
000857655 1001_ $$aBueno, Paulo Roberto,$$eauthor.
000857655 24510 $$aNanoscale electrochemistry of molecular contacts /$$cPaulo Roberto Bueno.
000857655 264_1 $$aCham, Switzerland :$$bSpringer,$$c[2018]
000857655 300__ $$a1 online resource
000857655 336__ $$atext$$btxt$$2rdacontent
000857655 337__ $$acomputer$$bc$$2rdamedia
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000857655 4901_ $$aSpringerBriefs in applied sciences and technology
000857655 5050_ $$aIntro; Preface; Acknowledgements; Contents; About the Author; Keywords; Introduction and Summary; 1 Introduction to Fundamental Concepts; 1.1 The Importance of Nanoelectronics; 1.2 Molecular Electronics and Nanoscale Electrochemistry; 1.3 Mesoscopic Physics and Time-Dependent Measurements; 1.4 Admittance, Conductance and Chemical Capacitive Ensembles at Zero-Temperature Approximation; 1.5 Admittance, Conductance and Chemical Capacitive Ensembles at Finite Temperature; 1.6 State of the Art of Nanoscale Electrochemistry
000857655 5058_ $$a1.7 Consequences of the Absence of Ionic Diffusion in Electrochemical Processes at the Nanoscale1.8 Chemical Capacitance and Charge Relaxation; 1.9 Electrochemical Capacitance and Electron Transfer Rate; References; 2 Electrochemistry and First Principles of Quantum Mechanics; 2.1 Chemical Capacitance and Density Functional Theory; 2.2 Capacitance at the Atomic Scale; 2.3 Chemical Capacitance and Kohn-Sham Eigenvalues; 2.4 The Hamiltonian in Density Function Theory; 2.5 Chemical Capacitance and the Functional of Electron Density
000857655 5058_ $$a2.6 Computational Density Functional Simulations of Molecular FilmsReferences; 3 Field Effect and Applications; 3.1 Faradaic and Non-Faradaic Processes; 3.2 Experimental Frequency-Dependent Methodology; 3.3 Field-Effect and Mesoscopic Electrochemical Transistors; 3.4 Thermal Broadening; 3.5 Envisaging Debye and Thomas-Fermi Screenings Experiment; 3.6 Effect of the Solvent Environment and Spread of Electronic Density of States; 3.7 Energy Transducer and Sensing; 3.8 Quantum Conductance of DNA Wires; 3.9 Supercapacitance or Pseudocapacitance?
000857655 5058_ $$a3.10 Pseudocapacitance of Semiconductor Materials and Sensing of Low-Molecular-Weight Target MoleculesReferences; Final Remarks; Foremost Conclusions
000857655 506__ $$aAccess limited to authorized users.
000857655 588__ $$aDescription based on online resource; title from digital title page (viewed on January 23, 2019).
000857655 650_0 $$aElectrochemistry.
000857655 650_0 $$aMolecular electronics.
000857655 650_0 $$aNanoelectronics.
000857655 77608 $$iPrint version:$$aBueno, Paulo Roberto$$tNanoscale Electrochemistry of Molecular Contacts$$dCham : Springer,c2018$$z9783319904863
000857655 830_0 $$aSpringerBriefs in applied sciences and technology.
000857655 852__ $$bebk
000857655 85640 $$3SpringerLink$$uhttps://univsouthin.idm.oclc.org/login?url=http://link.springer.com/10.1007/978-3-319-90487-0$$zOnline Access$$91397441.1
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