Quantum Chemical Studies of Low-Energy Pathways to

Slides:

Advertisements

Similar presentations

Acid-Base Equilibria.

Advertisements

Nucleophilic Substitutions and Eliminations

Chapter 10: Acids and Bases When we mix aqueous solutions of ionic salts, we are not mixing single components, but rather a mixture of the ions in the.

CH. 16 ACID -- BASE 16.4 pH scale (pOH) 16.1 Definition 16.2

Acid-Base Titrations. Acid-Base Equilibria Chapter 16.

Organic Chemistry Chapter 8. Substitution and Elimination If an sp 3 C is bonded to electronegative atom Substitution reactions and Elimination reactions.

Chapter 17: Acids and Bases Acid-base reactions involve proton (hydrogen ion, H + ) transfer The generalization of the Arrhenius definition of acids and.

Acid Base Equilibria Dr. Harris Ch 20 Suggested HW: Ch 20: 5, 9, 11*, 19*, 21, 29**, 35, 56** * Use rule of logs on slide 10 ** Use K a and K b tables.

Calculating pH of weak acids and bases. Weak acids and bases do not dissociate completely. That means their reactions with water are equilibrium reactions.

Ryunosuke Shishido, Asuka Fujii Department of Chemistry, Graduate School of Science, Tohoku University, Japan Jer-Lai Kuo Institute of Atomic and Molecular.

1 Acids and Bases Chapter Why are lemons sour?

Acid/Base Review. Acids and Bases: The Brønsted–Lowry Definition The terms “acid” and “base” can have different meanings in different contexts For that.

ACID BASE EQUILIBRIA Dr. Harris Ch 20 Suggested HW: Ch 20: 5, 9, 11*, 18*, 19*, 21, 29**, 35, 56**, 59, 66 * Use rule of logs on slide 10 ** Use K a and.

Millimeter/Submillimeter Spectroscopy of Prebiotic Molecules Formed from the O( 1 D) Insertion Into Methylamine Brian Hays, Althea Roy, and Susanna Widicus.

Acids and Bases © 2009, Prentice-Hall, Inc. Chapter 16 Acids and Bases John D. Bookstaver St. Charles Community College Cottleville, MO Chemistry, The.

Chapter 16 Acid–Base Equilibria Lecture Presentation Dr. Subhash C Goel South GA State College Douglas, GA © 2012 Pearson Education, Inc.

Chapter 16 Acid–Base Equilibria

Chapter 16 Acids and Bases. © 2009, Prentice-Hall, Inc. Some Definitions Arrhenius – An acid is a substance that, when dissolved in water, increases the.

Chapter [ ] Acids and Bases Equilibria. Arrhenius (or Classical) Acid-Base Definition An acid is a substance that contains hydrogen and dissociates.

Raven - Johnson - Biology: 6th Ed. - All Rights Reserved - McGraw Hill Companies The Nature of Molecules Chapter 2 Copyright © McGraw-Hill Companies Permission.

Chapter Four Ionic Compounds. 10/9/2015 Chapter Four 2 Outline ► ►4.1 Ions ► ►4.2 Periodic Properties and Ion Formation ► ►4.3 Ionic Bonds ► ►4.4 Some.

Formation of Astrobiologically Important Molecules in Extraterrestrial Environments Ralf I. Kaiser Department of Chemistry University of Hawai’i Honolulu,

Acid-Base Equilibria. Acids Bases Sour taste React with active metals to release hydrogen gas Change the color of indicators Bitter taste Feel slippery.

Organohalides and SN 2, SN 1, E 2 Part 2. The Nucleophile Neutral or negatively charged Lewis base 2.

pH of salt solutions 1.Salts derived from strong acids and strong bases These consist of cations from strong bases and the anions from.

Acids and Bases - the Three Definitions 1.Measurement of pH - the pH meter 2.Bronsted-Lowry definition of acids and bases - an acid is a proton donor -

Acids and Bases Chapter 16 Acids and Bases. Acids and Bases Some Definitions Arrhenius  ________________:Substance that, when dissolved in water, increases.

Chapter 19: Acids, Bases, and Salts

Acid/Base Definitions  Arrhenius Model  Acids produce hydrogen ions in aqueous solutions  Bases produce hydroxide ions in aqueous solutions  Bronsted-Lowry.

Quantum Chemical Cluster Studies of Ice-Bound Reactions of Formaldehyde (H 2 CO), Acetaldehyde (CH 3 CHO), or Acetone (CH 3 COCH 3 ) with Ammonia (NH 3.

(8.2) Weak Acids & Bases: Ionization Constants. Percent Ionization for Weak Acids Most weak acids ionize < 50% Percent ionization (p) General Weak Acid:

Vibrational Predissociation Spectra in the Shared Proton Region of Protonated Formic Acid Wires: Characterizing Proton Motion in Linear H-Bonded Networks.

Several concepts of acid-base theory: The Arrhenius concept The Bronsted-Lowry concept The Lewis concept.

Equilibrium – Acids and Bases. Review of Acids and Bases Arrhenius Theory of Acids and Bases ▫An acid is a substance that dissociates in water to produce.

A Quantum Chemical Study of HZnCH 3 A Transition Metal Compound with 4s 2 Recoupled Pair Bonding David E. Woon & Thom H. Dunning, Jr. RI12.

Why this Chapter? Finding structures of new molecules synthesized is critical To get a good idea of the range of structural techniques available and how.

20-1 Relative Reactivities, Structures and Spectra of Carboxylic Acid Derivatives Carboxylic acid derivatives undergo substitution reactions via the (often.

Hydrogen-bond between the oppositely charged hydrogen atoms It was suggested by crystal structure analysis. A small number of spectroscopic studies have.

Main Title Manori Perera 1 and Ricardo Metz University of Massachusetts Amherst 64 th International Symposium on Molecular Spectroscopy June 25th, 2009.

Coordinate Covalent Bond Ammonia NH 3 to Ammonium Ion [NH 4 ] + One atom contributes both electrons in a bond.

Heavy Atom Vibrational Modes and Low-Energy Vibrational Autodetachment in Nitromethane Anions Michael C. Thompson, Joshua H. Baraban, Devin A. Matthews,

CHAPTER 16: ACID BASE EQUILIBRIA Wasilla High School

Chapter 7: Lecture PowerPoint

Chem. 31 – 6/22 Lecture. Announcements I Laboratory Stuff –Cl Lab Report – Due today –AA Lab: I have posted information about your tap water that can.

Infrared Spectroscopy of Protonated Acetylacetone and Mixed Acetylacetone/Water Clusters Daniel T. Mauney, David C. McDonald II, Jonathon A. Maner and.

TF15 A Quantum Chemical Investigation of the Stability and Chemistry of the Anions of CO and H 2 CO in Astrophysical Ices (& the Mystery of OH – ) Lina.

Chapter 19 Carboxylic Acids

Chapter 6 - KEY CONCEPTS (Page 1)

Do Now 1. What is a valence electron. 2

Based on McMurry’s Organic Chemistry, 6th edition

CH 13 Acids and Bases.

Unit 4: Equilibrium, Acids & Bases Part 2: Acids and Bases

Acids and Bases.

Infrared spectroscopic investigation

Theoretical Prediction of the Rotational Constants for

Introduction & Review: Orbitals, Bonds, Structures & Acidity

Acid-Base Equilibria.

Acids and Bases Unit 3.

Acid/Base Equilibria Notes Part 1: The 3 Acid/Base Definitions, Hydronium, Conjugate Acid/Base Pairs & their Relative Strengths March 23, 2018.

Chapter 17: Acids and Bases

Identify each of the following as a Brønsted–Lowry acid or base:

Elimination reactions

Quantum Chemical Study of the Reaction of C+ with Interstellar Ice: Vibrational and Electronic Spectra of Reaction Products David E. Woon RI15.

Unit 4: Equilibrium, Acids & Bases Part 2: Acids and Bases

Catalyst 1. Calculate the Ksp for AgC2H3O2 whose mass solubility is 1.02 g/100 mL 2. A solution containing M Ba2+ and 0.10 M Ag+, which solid will.

Assign.#17.7– Complex Ion Formation, Equilibrium Constants, and ΔG

Acids and Bases.

Chapter 16 Acids and Bases

Chemical Changes—Forming New Kinds of Matter

Periodic Trends.

Presentation transcript:

Quantum Chemical Studies of Low-Energy Pathways to Organic Molecules on Interstellar Icy Grain Mantles David E. Woon & Lina Chen RF16

Outline We use quantum chemical cluster calculations to characterize organic reactions of astrobiological importance that might occur in interstellar ices. We also predict spectra of products and intermediates. 1. NH3 + Carbonyl Reactions in Ice 2. NH3 + HCN/HNC Proton Transfer Reactions in Ice 3. Ion-Ice Reactions

NH3 + Carbonyl Reactions in Ice (L. Chen) formaldehyde acetaldehyde acetone

Barrier Height (kcal mol-1) NH3 + H2CO Reaction Studies at NASA-Ames observed that H2CO reacts with NH3 in ice below 70 K [Schutte et al., Science 259:1143 (1993); Icarus 104:118 (1993)]. Small cluster quantum chemical calculations suggested that a substantial gas-phase barrier for H2CO + NH3  NH2CH2OH is largely removed when the reaction occurs in ice [Woon, Icarus 142:550 (1999)]. (H2O)n Barrier Height (kcal mol-1) 1 2 4 8 12 16 20 24 28 32 Cluster 36 IPCM NH3+H2CO

NH3 + Carbonyl Reactions Objective: Revisit the NH3+H2CO reaction in larger clusters (up to 12H2O) and also study acetaldehyde and acetone.  B3LYP/6-31+G** calculations (G03) Concerted proton transfer mechanism is NOT favorable! But an alternative pathway is very favorable.

NH3 + Carbonyl Reactions – C-N Bond Formation In 4H2O and larger clusters, NH3 undergoes nucleophilic addition to formaldehyde with no barrier: 2.542 Å 1.587 Å NH3 (+0.50) H2CO (-0.47)

NH3 + Carbonyl Reactions – C-N Bond Formation Acetaldehyde and acetone are just as reactive. Both stereo-isomers of acetaldehyde can be formed (in equal amounts). CH3CHO S-isomer, type a & b TS’s (CH3)2CO TS

NH3 + Carbonyl Reactions – Nucleophilic Addition NH3 lone pair H2CO p bond Re(CN)+1.0 Å

… delocalizes toward C … NH3 + Carbonyl Reactions – Nucleophilic Addition … delocalizes toward C … … localizes onto O … Re(CN)+0.5 Å

NH3 + Carbonyl Reactions – Nucleophilic Addition CN s bond 2p2 pair on O (O–) Re(CN)

NH3 + Carbonyl Reactions – Nucleophilic Addition CN s bond 2p2 pair on O (O–)

NH3 + Carbonyl Reactions – Larger Clusters With 9H2O, a proton transfers without a barrier to yield protonated hydroxymethylamine + OH–. 9H2O NH3CH2OH+ (+0.81) OH– (-0.80) NH3CH2OH+ (+0.85) OH– (-0.78) 12H2O

Barrier Height (kcal/mol) NH3 + Carbonyl Reactions – Barrier Heights While the C-N bond forms spontaneously, a significant barrier persists to the large clusters for concerted proton transfer. Cluster All of the barriers for concerted proton transfer are prohibitively high at low T. Barrier Height (kcal/mol) PCM (Ice)

NH3 + Carbonyl Reactions – Alternative Mechanism Hydroxymethylamine and the analogous products of the reactions of NH3 with acetaldehyde and acetone can be formed from the nucleophilic addition intermediate simply by pulling off one of the extra H atoms on the N with a stronger base. Try calculations with 2NH3…

NH3 + Carbonyl Reactions – Alternative Mechanism For this configuration from acetaldehyde+2NH3+9H2O, a very small equilibrium barrier (0.5 kcal/mol) is removed when ZPE is included.

NH3 + Carbonyl Reactions – Spectroscopy In addition to characteristic features of NH3 and H2CO losing intensity or shifting in frequency, new vibrational features appear on formation of the C-N bond. B3LYP/6-31+G** scaled by 0.97 1368 1384 1386 CH2 wag 1482 1478 1477 CH2 scis 1499 1583 1590 NH3 umb NH3 1100 cm-1

NH3 + Carbonyl Reactions – Conclusions In H2CO:NH3:H2O ice, reactivity is expected to exhibit strong dependence on NH3 concentration: Nucleophilic addition of NH3 to carbonyls is barrierless. Deprotonation can yield a neutral product if sufficient strong base molecules are present. modest C-N addition NH3CH2OH+ large deprotonation NH2CH2OH low Reactions IR Features none H2CO, etc. [NH3]

NH3 + HCN/HNC Proton Transfer Reactions in Ice

NH3+HCN/HNC+14H2O Like other acids (HNCO, HOCN, HCOOH), HCN and HNC transfer a proton to NH3 in ice with no barrier to yield a (CN– )(NH4+) complex. 2098 CN– str H2O bends NH4+ bends 2112 B3LYP/6-31+G** scaled by 0.97

NH3+HCN+14H2O – Subsequent Reactions What happens if another molecule approaches CN– from the gas phase? CO, H2CO – non-reactive Try a cation – Mg+ MgNC

HCO+ reacts, but not with CN–… Was CN– necessary? Try using pure ice… NH3+HCN+14H2O – Subsequent Reactions What happens if another molecule approaches CN– from the gas phase? CO, H2CO – non-reactive Try a cation – Mg+ Try another cation – HCO+ HCO+ reacts, but not with CN–… Was CN– necessary? Try using pure ice…

Ion-Ice Reactions

Ion-Ice Reactions – HCO+ + H2O(ice)  HCOOH Even if deposited with very low energy, some ions react with ice with no barrier and then lose a proton to the ice. HCO+ + 17H2O

Protonated formic acid (HCOOH2+) forms… Ion-Ice Reactions – HCO+ + H2O(ice)  HCOOH Protonated formic acid (HCOOH2+) forms…

… but it rapidly deprotonates… Ion-Ice Reactions – HCO+ + H2O(ice)  HCOOH … but it rapidly deprotonates…

… to yield formic acid and H3O+. Ion-Ice Reactions – HCO+ + H2O(ice)  HCOOH … to yield formic acid and H3O+.

Ion-Ice Reactions – Summary and Other Cases HCO+ reacts with ice to form formic acid with no barriers (but H+ abstraction is competitive). CH3+ reacts with ice to form methanol with no barriers. OH+ reacts with CO on ice to form CO2 with no barriers. Only the beginning…

Acknowledgments www.astrochymist.org Funding: NASA Exobiology grant NNX 07AN33G Thom Dunning, Jr. www.astrochymist.org

Ionization Energy (eV) Electron Affinity (eV) NH3 + Carbonyl Reactions – C-N Bond Formation Why does a C-N bond form so readily in ice-bound ammonia-carbonyl systems? The large amount of charge transfer is a good clue. NH3+ H2CO– spin(C)=0.84 spin(N)=1.10 NH3 H2CO Ionization Energy (eV) Electron Affinity (eV) Gas Phase In Ice 10.07† … 6.84‡ 2.23‡ †NIST WebBook ‡B3LYP/6-311+G** with PCM solvation