Presentation is loading. Please wait.

Presentation is loading. Please wait.

Warm up. List all electromagnetic radiations from low energy to high. 2.

Published byEvangeline Shanna Pearson Modified over 8 years ago

Similar presentations

Presentation on theme: "Warm up. List all electromagnetic radiations from low energy to high. 2."— Presentation transcript:

1 Warm up

2 List all electromagnetic radiations from low energy to high. 2

3 Introduction to Photoelectron Spectroscopy (PES) [Enter Presentation Title in Header and Footer]

4 - - -- -- - - - + + + + + + + + + + + + + + + + - - - - - - - - DaltonThomson Rutherford Bohr + + + + + + + + Image sources: http://library.thinkquest.org/13394/angielsk/athompd.html http://abyss.uoregon.edu/~js/21st_century_science/lectures/lec11.html http://mail.colonial.net/~hkaiter/astronomyimages1011/hydrogen_emis_spect.jpg http://upload.wikimedia.org/wikipedia/commons/9/97/A_New_System_of_Chemical_Philosophy_fp.jpg Various Models of the Atom

5 1s 2s 3s 4s 5s 6s 7s 2p 3p 4p 5p 6p 3d 4d 5d 4f 5f 1s 2s 2p 3s 3p 3d 4s 4p 4d 4f 5s 5p 5d 5f 6s 6p 6d 7s 7p 8s Further refinements to these models have occurred with new experimental results

6 3d 4d 5d 6d 4f 5f 1s 4s 5s 6s 7s 3s 2s 4p 5p 6p 7p 3p 2p [Ar]4s 1 3d 5 [Ar]4s 1 3d 10 But not all elements ‘follow the rules’

7 Image source: Dayah, Michael. “Dynamic Periodic Table.” Accessed Sept. 5, 2013. http://ptable.com/#Property/Ionizationhttp://ptable.com/#Property/Ionization Image source: http://chemistry.beloit.edu/stars/images/IEexpand.gif http://chemistry.beloit.edu/stars/images/IEexpand.gif Ionization Energy

8 ElementIE 1 IE 2 IE 3 IE 4 IE 5 IE 6 IE 7 Na4954,560 Mg7351,4457,730 Al5801,8152,74011,600 Si7801,5753,2204,35016,100 P1,0601,8902,9054,9506,27021,200 S1,0052,2603,3754,5656,9508,49027,000 Cl1,2552,2953,8505,1606,5609,36011,000 Ar1,5272,6653,9455,7707,2308,78012,000 LO 1.5 - The student is able to explain the distribution of electrons in an atom or ion based upon data. LO 1.6 - The student is able to analyze data relating to electron energies for patterns or relationships. Ionization Energy

9 11+ - - - - - - - - - - - hνhν Radiation TypeνEAspects Probed Microwaves10 9 – 10 11 Hz10 -7 – 10 -4 MJ/molMolecular rotations Infrared (IR)10 11 – 10 14 Hz10 -4 – 10 -1 MJ/molMolecular vibrations Visible (ROYGBV)4x10 14 – 7.5x10 14 Hz0.2 - 0.3 MJ/mol Valence electron transitions in atoms and molecules Ultraviolet (UV)10 14 – 10 16 Hz0.3 – 100 MJ/mol Valence electron transitions in atoms and molecules X-ray10 16 – 10 19 Hz10 2 – 10 5 MJ/mol Core electron transitions in atoms hνhν How do we probe further into the atom?

10 11+ - - - - - - - - - - - hνhν hνhν Any frequency of light that is sufficient to remove electrons from the 1 st shell can remove electrons from any of the other shells. Removing Core Electrons

11 PES Instrument Image Source: SPECS GmbH, http://www.specs.de/cms/front_content.php?idart=267

12 3+ X-ray or UV Source X-ray or UV Source Kinetic Energy Analyzer Binding Energy (MJ/mol) 6.26 0.52

13 Kinetic Energy Analyzer Negative Voltage Hemisphere Slightly Less Negative Voltage Hemisphere

14 3+ 5+3+5+3+ 5+ 3+5+3+5+ 3+5+3+5+ 3+ 5+3+5+ 3+5+ 3+ 5+3+ 5+ X-ray or UV Source X-ray or UV Source Binding Energy (MJ/mol) 19.3 0.80 1.36 Boron 6.260.52 Li Kinetic Energy Analyzer

15 Analyzing Data from PES Experiments

16 Binding Energy (MJ/mol) 9080706050403020100 84.0 4.7 2.0 1s2s 2p Which of the following elements might this spectrum represent? (A)He (B)N (C)Ne (D)Ar Relative Number of Electrons Analyzing data from PES

17 Binding Energy (MJ/mol) 100101 1511.09 1s 2 2p 6 Relative Number of Electrons 12.1 7.9 0.58 Given the spectrum above, identify the element and its electron configuration: 2s 2 3s 2 3p 1 (A)B (B)Al (C)Si (D)Na Analyzing data from PES

18 Real Spectrum

19 Quick Check – Can You Now Translate Between These Representations of Mg? 1s 2s 3s 4s 2p 3p 1s 2 2s 2 2p 6 3s 2 Binding Energy (MJ/mol) 100101 Intensity Mg 12+ - - - - - - - - - - - -

20 image source: http://ericsaltchemistry.blogspot.com/2010/10/jj-thomsons-experiments-with-cathode.html http://84d1f3.medialib.glogster.com/media/f9/f9a5f2402eb205269b648b14072d9fb3a2f556367849d7feb5cfa4a8e2b3fd29/yooouu.gif - - -- -- - - - + + + + + + + + Thomson + + + + + + + + - - - - - - - - Rutherford + + + + + + + + Bohr Using Data to Make Conclusions About Atomic Structure

21 ElementIE 1 IE 2 IE 3 IE 4 IE 5 IE 6 IE 7 Na4954560 Mg73514457730 Al5801815274011,600 Si78015753220435016,100 P1060189029054950627021,200 S10052260337545656950849027,000 Cl12552295385051606560936011,000 Ar15272665394557707230878012,000 Binding Energy (MJ/mol) 100101 1511.09 1s 2 2p 6 Relative Number of Electrons 12.1 7.9 0.58 2s 2 3s 2 3p 1 PES – Data that Shells are Divided into Subshells

22  SP 3.2 The student can refine scientific questions  SP 3.3 The student can evaluate scientific questions  SP 6.3 The student can articulate the reasons that scientific explanations are refined or replaced. Applicable Science Practices From the AP Chemistry Curriculum Framework:

23 PES Sample Questions

24 Sample Question #1 Which element could be represented by the complete PES spectrum below? (A) Li (B) B(C) N(D) Ne

25 Sample Question #2 Which of the following best explains the relative positioning and intensity of the 2s peaks in the following spectra? (A)Be has a greater nuclear charge than Li and more electrons in the 2s orbital (B)Be electrons experience greater electron-electron repulsions than Li electrons (C)Li has a greater pull from the nucleus on the 2s electrons, so they are harder to remove (D)Li has greater electron shielding by the 1s orbital, so the 2s electrons are easier to remove Binding Energy (MJ/mol) 14121086420 Intensity Be Binding Energy (MJ/mol) 14121086420 Li Intensity

26 Sample Question #3 Given the photoelectron spectra above for phosphorus, P, and sulfur, S, which of the following best explains why the 2p peak for S is further to the left than the 2p peak for P, but the 3p peak for S is further to the right than the 3p peak for P? (A) S has a greater effective nuclear charge than P, and the 3p sublevel in S has greater electron repulsions than in P. (B) S has a greater effective nuclear charge than P, and the 3p sublevel is more heavily shielded in S than in P. (C) S has a greater number of electrons than P, so the third energy level is further from the nucleus in S than in P. (D) S has a greater number of electrons than P, so the Coulombic attraction between the electron cloud and the nucleus is greater in S than in P. Binding Energy

27 Sample Question #4 Looking at the complete spectra for Na and K below, which of the following would best explain the relative positioning of the 3s electrons? Binding Energy (MJ/mol) Intensity (c/s) 1301059075604530150 Binding Energy (MJ/mol) Intensity (c/s) 400350300250200150100500 Na K

28 Sample Question #4a Looking at the spectra for Na and K below, which of the following would best explain the difference in binding energy for the 3s electrons? Binding Energy (MJ/mol) Intensity (c/s) 43.532.521.510.50 Na-3s K-3s (A)K has a greater nuclear charge than Na (B)K has more electron-electron repulsions than Na (C)Na has one valence electron in the 3s sublevel (D)Na has less electron shielding than K

29 Sample Question #4b Looking at the spectra for Na and K below, which of the following would best explain the difference in signal intensity for the 3s electrons? (A)K has a greater nuclear charge than Na (B)K has more electron-electron repulsions than Na (C)Na has one valence electron in the 3s sublevel (D)Na has less electron shielding than K Binding Energy (MJ/mol) Intensity (c/s) 43.532.521.510.50 Na-3s K-3s

30 Sample Question #6 Given the photoelectron spectrum of scandium below, which of the following best explains why Scandium commonly makes a 3+ ion as opposed to a 2+ ion? (A) Removing 3 electrons releases more energy than removing 2 electrons. (B) Scandium is in Group 3, and atoms only lose the number of electrons that will result in a noble gas electron configuration (C) The amount of energy required to remove an electron from the 3d sublevel is close to that for the 4s sublevel, but significantly more energy is needed to remove electrons from the 3p sublevel. (D) Removing 2 electrons alleviates the spin-pairing repulsions in the 4s sublevel, so it is not as energetically favorable as emptying the 4s sublevel completely. Binding Energy (MJ/mol) Intensity (c/s) 500 40030050403010 9 8 7 6 5 4 3 2 1 0 0.77 0.63

31 Binding Energy (MJ/mol) 100101 Intensity Example Formative Assessment On the photoelectron spectrum of magnesium below, draw the spectrum for aluminum

Download ppt "Warm up. List all electromagnetic radiations from low energy to high. 2."

Similar presentations

Esther Jun, Claire Lee, and Eunhye Oak

Esther Jun, Claire Lee, and Eunhye Oak
Review of Atomic Structure

Review of Atomic Structure
PES photoelectron spectroscopy. How does PES work? PES works on the same principle as the photoelectric effect.

PES photoelectron spectroscopy. How does PES work? PES works on the same principle as the photoelectric effect.
Quiz Grades Rewrite your answer to question 1 on the back of your quiz. If it is correct, I will add up to 20% to your quiz grade (maximum score: 100%).

Quiz Grades Rewrite your answer to question 1 on the back of your quiz. If it is correct, I will add up to 20% to your quiz grade (maximum score: 100%).
Periodic Trends Models of the Atom Orbitals Electron Configuration Valence Electrons 10 20 30 40 50 40 30 20 10 50 40 30 20 10 50 40 30 20 10 50 40 30.

Periodic Trends Models of the Atom Orbitals Electron Configuration Valence Electrons
Photoelectron Spectroscopy

Photoelectron Spectroscopy
The Periodic Table. Force of Attraction: Valence Electrons (Outer-Shell Electrons)  Electrons that can participate in the formation of chemical bonds.

The Periodic Table. Force of Attraction: Valence Electrons (Outer-Shell Electrons)  Electrons that can participate in the formation of chemical bonds.
Spectroscopy for AP Chemistry

Spectroscopy for AP Chemistry
Ch 5.3 Electron Configuration and Periodic Properties

Ch 5.3 Electron Configuration and Periodic Properties
Ionization Energy 12.1.1 Explain how evidence from first ionization energies across periods accounts for the existence of main energy levels and sub-levels.

Ionization Energy Explain how evidence from first ionization energies across periods accounts for the existence of main energy levels and sub-levels.
General Periodic Trends

General Periodic Trends
AP® Chemistry: Exploring Atomic Structure Using Photoelectron Spectroscopy (PES) Data Welcome to this webcast titled: AP® Chemistry: Exploring Atomic Structure.

AP® Chemistry: Exploring Atomic Structure Using Photoelectron Spectroscopy (PES) Data Welcome to this webcast titled: AP® Chemistry: Exploring Atomic Structure.
Chemical Periodicity Chapter 6. Chemical Periodicity The periodic table is arranged in rows according to increasing atomic number. Physical and chemical.

Chemical Periodicity Chapter 6. Chemical Periodicity The periodic table is arranged in rows according to increasing atomic number. Physical and chemical.
General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc. 1 Elements are  pure substances that cannot be separated into simpler.

General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc. 1 Elements are  pure substances that cannot be separated into simpler.
The Periodic Table The how and why.

The Periodic Table The how and why.
Chapter 3 The Structure of the Atom In order to explain much of what is observed in chemistry, we need to adopt a model for the atom where the atom has.

Chapter 3 The Structure of the Atom In order to explain much of what is observed in chemistry, we need to adopt a model for the atom where the atom has.
Topic B: Electrons.

Topic B: Electrons.
Periodic Trends. Groups: vertical columns (1-18) Groups: vertical columns (1-18) Have similar properties because have same number of electrons in outer.

Periodic Trends. Groups: vertical columns (1-18) Groups: vertical columns (1-18) Have similar properties because have same number of electrons in outer.
Warm Up- Complete the table AtomNeutronsProtonsElectronsCharge Al-2610 Ca-402+ P-290 How does Al-26 differ from Al-27? How does an atom differ from an.

Warm Up- Complete the table AtomNeutronsProtonsElectronsCharge Al-2610 Ca-402+ P-290 How does Al-26 differ from Al-27? How does an atom differ from an.
Chapter 6 Ionic Bonds and Some Main Group Chemistry.

Chapter 6 Ionic Bonds and Some Main Group Chemistry.

Similar presentations

Ads by Google