1. what is the difference between a vacancy defect in a metal and a schottky defect...

1. Briefly explain the difference between self-diffusion and interdiffusion. 2. (a) Compare interstitial and vacancy atomic...

1. Briefly explain the difference between self-diffusion and interdiffusion. 2. (a) Compare interstitial and vacancy atomic mechanisms for diffusion. (b) Cite two reasons why interstitial diffusion is normally more rapid than vacancy diffusion. 3. A sheet of BCC iron 2 mm thick was exposed to a carburizing gas atmosphere on one side and a decarburizing atmosphere on the other side at 675�C. After reaching steady state, the iron was quickly cooled to room temperature. The carbon concentrations at the two...

2. Schottky junction: a. Consider a Schottky junction diode between Au and n-Si doped with 10^16...

2. Schottky junction: a. Consider a Schottky junction diode between Au and n-Si doped with 10^16 donors per cubic centimeter. Given the work function of Au at 5.1 eV and the electron affinity of Si is 4.05 eV. What is the theoretical barrier height for electrons from the metal to the semiconductor, and what is the built-in voltage? b. Draw the equilibrium band diagram of a Al/p-Si Schottky contact. Given the work function of Al at 5.3 eV, what is...

For metal atoms, the most probable mechanism of diffusion is a. vacancy mechanism b. interstitial mechanism...

For metal atoms, the most probable mechanism of diffusion is a. vacancy mechanism b. interstitial mechanism c. direct interchange mechanism d. none of the above

Write Down The Reason Why. 1-1. the energy of formation is higher for a self-interstitial defect...

Write Down The Reason Why. 1-1. the energy of formation is higher for a self-interstitial defect compared to a vacancy defect. 1-2. one polish must be a metal, then etch it, to observe the grain boundaries in the optical microscope. 2. In the classic J, E activates a chemical weapon so she can escape. In this case, a reactive chemical was inserted in the top of a 10 cm cylindrical vessel containing a polymer core, saturating the top surface. Critical...

Consider a Schottky junction diode between metal and n-Si, doped with 1016 donors cm–3. The cross-sectional...

Consider a Schottky junction diode between metal and n-Si, doped with 1016 donors cm–3. The cross-sectional area is 1.7 mm2. The work function of the metal is 4.9 eV. Assume T=300K . Determine the forward current, in mA, resulting from a forward bias of 0.3 volts. (answer format (X.XXEX)

2(a) Qualitatively hand-sketch log(I) vs. V for a Schottky diode and a PN diode in the...

2(a) Qualitatively hand-sketch log(I) vs. V for a Schottky diode and a PN diode in the same figure. Comment on the similarity and difference. 2(b) Calculate the IS of a 1 mm2 metal on N-type Si Schottky diode with A*=100A/cm2-K2, T=300K, ?Bn=0.55eV. Compare it with the IS of a 1 mm2 P+N diode with ND = 1018 cm–3, T=300K and, Dp =4cm2/s, ?p=1?s. (c) Compare the forward voltage of the two diodes in (b) at a forward current of 50A....

Consider a metal with an energy for vacancy formation of (6.0000x10^-1) eV/atom. If the material is...

Consider a metal with an energy for vacancy formation of (6.0000x10^-1) eV/atom. If the material is originally at (1.00x10^3) K, calculate the temperature rise (in K) needed to increase the vacancy fraction by a factor of (8.0000x10^0) . Note: Do not enter the resulting temperature, just the change in temperature.

What is the difference between zeolites and metal organic framework (MOFs)?

What is the difference between zeolites and metal organic framework (MOFs)?

Given that for a typical metal the energy for vacancy formation is on the order of...

Given that for a typical metal the energy for vacancy formation is on the order of 1 eV/atom, melting point is 10^3 K, molar mass is 10^2 g/mol and density is 10 g/cm3. 1.) Near melting point the fraction of vacant lattice sites is: a) <10^-5 b) 10^-5 to 10^-3 c) 10^-3 to 10^-2 d) 10^-2 to 10^-1 2.) The number of vacant sites per cm^3 is typically: a) <10^3 b)10^3 to 10^6 c) 10^6 to 10^9 d) > 10^9...

The creep strength for ceramic materials is generally: Group of answer choices Higher than metals at...

The creep strength for ceramic materials is generally: Group of answer choices Higher than metals at lower T Higher than metals at higher T Can’t be measured for ceramics Lower than metals at higher T What impact would substituting Ca2+ ions for zirconium ions (i.e. adding an impurity of calcium in the form of CaO) in a ZrO2 ceramic have on the material in terms of defects? Group of answer choices For each Ca2+ substitution, one Schottky defect would form...