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200 00$aFilial piety in Chinese thought and history /$fedited by Alan K.L. Chan and Sor-hoon Tan
210  1$aLondon ;$aNew York :$cRoutledgeCurzon,$d2004.
215   $a1 online resource (255 p.)
300   $a"Began at a workshop on "Conceptions of Filial Piety in Chinese Thought and History" organized by the Department of Philosophy and the Asia Research Institute, National University of Singapore (NUS), in 2002"--Acknowledgments.
311   $a0-415-64777-0 
311   $a0-415-33365-2 
320   $aIncludes bibliographical references and index.
327   $aCover; Filial Piety in Chinese Thought and History; Title Page; Copyright Page; Table of Contents; List of contributors; Acknowledgments; Introduction; 1 The evolution of the concept of filial piety (xiao) in the Laozi, the Zhuangzi, and the Guodian bamboo text Yucong; 2 Filial piety with a vengeance: the tension between rites and law in the Han; 3 Reverent caring: the parent-son relationship in early medieval tales of filial offspring; 4 Filial devotion for women: a Buddhist testimony from third-century China; 5 Immortal parents and universal kin: family values in medieval Daoism
327   $a6 Filial piety and "authentic parents" in religious Daoism7 Imperial filial piety as a political problem; 8 Emperor Chengzu and imperial filial piety of the Ming dynasty: from the Classic of Filial Piety to the Biographical Accounts of Filial Piety; 9 Does xiao come before ren?; 10 Filial piety, commiseration, and the virtue of ren; 11 Filial piety as a virtue; 12 Filial piety as respect for tradition; 13 Reflections on filiality, nature, and nurture; 14 Filial daughters-in-law: questioning Confucian filiality; Index
330   $aThis is a multi-disciplinary survey that combines historical studies with philosophical analysis from an international team of respected contributors.
606   $aFilial piety$zChina
606   $aConduct of life
615  0$aFilial piety
615  0$aConduct of life.
676   $a173
686   $a08.10$2bcl
701   $aChan$b Alan Kam-leung$f1956-$0637257
701   $aTan$b Sor-hoon$f1965-$01526434
712 12$aWorkshop on conceptions of filial piety in Chinese thought and history$f(2002)
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200 10$aElectrical characterization of organic electronic materials and devices /$fPeter Stallinga
205   $a1st ed.
210   $aHoboken, NJ $cJohn Wiley & Sons$d2009
215   $a1 online resource (317 p.)
300   $aDescription based upon print version of record.
311 08$a9780470750094 
311 08$a047075009X 
320   $aIncludes bibliographical references and index.
327   $aElectrical Characterization of Organic Electronic Materials and Devices; Contents; Preface; 1 General concepts; 1.1 Introduction; 1.2 Conduction mechanism; 1.3 Chemistry and the energy diagram; 1.3.1 Energy diagram of crystalline materials; 1.3.2 Energy diagram of amorphous materials; 1.4 Disordered materials and the Meyer-Neldel Rule; 1.5 Devices; 1.5.1 Resistor; 1.5.2 Schottky diode; 1.5.3 MIS diode and MIS tunnel diode; 1.5.4 Thin-film transistor; 1.6 Optoelectronics/photovoltaics; 2 Two-terminal devices: DC current; 2.1 Conductance; 2.1.1 Ohmic conduction; 2.1.2 Poole-Frenkel
327   $a2.1.3 Tunneling2.1.4 Space-charge-limited current; 2.1.5 Granular materials;  grain boundaries; 2.2 DC current of a Schottky barrier; 2.2.1 High-current regime; 2.2.2 Displacement current; 2.3 DC measurements; 2.3.1 van der Pauw; 2.3.2 Hall effect; 3 Two-terminal devices: Admittance spectroscopy; 3.1 Admittance spectroscopy; 3.1.1 Low-frequency RCL bridge; 3.1.2 DC admittance; 3.2 Geometrical capacitance; 3.3 Equivalent circuits; 3.4 Resistor;  SCLC; 3.5 Schottky diodes; 3.5.1 Schottky diode;  nonuniform doping; 3.5.2 Schottky diode;  adding an abundant deep acceptor level
327   $a3.5.3 Schottky diode minority levels; 3.5.4 Schottky barrier;  temperature dependence; 3.6 MIS diodes; 3.6.1 MIS of doped semiconductors; 3.6.2 MIS with interface states; 3.6.3 MIS of low-mobility semiconductors; 3.7 MIS tunnel diode; 3.8 Noise measurements; 4 Two-terminal devices: Transient techniques; 4.1 Kinetics: Emission and capture of carriers; 4.1.1 Emission and capture in organic materials; 4.2 Current transient spectroscopy; 4.2.1 Example of an emission experiment; 4.2.2 Example of a capture experiment; 4.3 Thermally stimulated current; 4.4 Capacitance transient spectroscopy
327   $a4.4.1 Case study: Example of a capacitance transient measurement4.5 Deep-level transient spectroscopy; 4.6 Q-DLTS; 5 Time-of-flight; 5.1 Introduction; 5.2 Drift transient; 5.3 Diffusive transient; 5.4 Violating Einstein's Relation; 5.5 Multi-trap-and-release; 5.6 Anomalous transients; 5.7 High current (space charge) transients; 5.8 Summary of the ToF technique; 6 Thin-film transistors; 6.1 Field-effect transistors; 6.2 MOS-FET; 6.2.1 MOS-FET threshold voltage; 6.2.2 MOS-FET current; 6.2.3 Exact solution; 6.2.4 MOS-FET subthreshold current and subthreshold swing; 6.3 Introducing TFTs
327   $a6.4 Basic model6.4.1 Threshold voltage and subthreshold current; 6.5 Justification for the two-dimensional approach; 6.6 Ambipolar materials and devices; 6.7 Contact effects and other simple nonidealities; 6.7.1 Insulator leakage; 6.7.2 Contact resistance; 6.7.3 Contact barriers; 6.7.4 Grain boundaries; 6.7.5 Parallel conductance; 6.8 Metallic contacts in TFTs; 6.9 Normally-on TFTs; 6.9.1 Narrow gap semiconductors; 6.9.2 Thick TFTs; 6.9.3 Doped semiconductors and inversion-channel TFT; 6.9.4 Metal-insulator-metal TFT; 6.10 Effects of traps; 6.10.1 Traps and threshold voltage
327   $a6.10.2 Traps and output curves
330   $aThink like an electron  Organic electronic materials have many applications and potential in low-cost electronics such as electronic barcodes and in light emitting devices, due to their easily tailored properties. While the chemical aspects and characterization have been widely studied, characterization of the electrical properties has been neglected, and classic textbook modeling has been applied. This is most striking in the analysis of thin-film transistors (TFTs) using thick "bulk" transistor (MOS-FET) descriptions. At first glance the TFTs appear to behave as regular MOS-FETs. 
606   $aElectronics$xMaterials
606   $aOrganic electronics
606   $aOrganic semiconductors
606   $aElectronic apparatus and appliances$xMaterials
615  0$aElectronics$xMaterials.
615  0$aOrganic electronics.
615  0$aOrganic semiconductors.
615  0$aElectronic apparatus and appliances$xMaterials.
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