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Hong Wang

Title: Professor

Department: Chemistry

College: College of Science

Curriculum Vitae

Curriculum Vitae Link

Education

  • PhD, University of California, Davis, 2003
    Major: Chemistry
    Specialization: Organic Chemistry
    Dissertation: Total Synthesis and Structure of B B Fused Metallocenoporphyrins
  • MS, Shandong University, 1993
    Major: Inorganic Chemistry
  • BS, Shandong University, 1990
    Major: Inorganic Chemistry

Current Scheduled Teaching

CHEM 4930.002Selected Topics in ChemistrySpring 2025
CHEM 6950.756Doctoral DissertationFall 2024
CHEM 6940.756Individual ResearchFall 2024
CHEM 6010.756Seminar for Doctoral CandidatesFall 2024

Previous Scheduled Teaching

CHEM 6950.756Doctoral DissertationSpring 2024
CHEM 6940.756Individual ResearchSpring 2024
CHEM 2900.756Introduction to Chemical ResearchSpring 2024
CHEM 6010.706Seminar for Doctoral CandidatesSpring 2024
CHEM 6950.756Doctoral DissertationFall 2023
CHEM 6940.756Individual ResearchFall 2023
CHEM 5500.001Physical Organic ChemistryFall 2023 SPOT
CHEM 6010.706Seminar for Doctoral CandidatesFall 2023
CHEM 6950.756Doctoral DissertationSummer 5W1 2023
CHEM 5950.756Master's ThesisSummer 10W 2023
CHEM 6950.756Doctoral DissertationSpring 2023
CHEM 6940.756Individual ResearchSpring 2023
CHEM 5950.756Master's ThesisSpring 2023
CHEM 6010.706Seminar for Doctoral CandidatesSpring 2023
CHEM 6950.756Doctoral DissertationFall 2022
CHEM 6940.756Individual ResearchFall 2022
CHEM 5500.001Physical Organic ChemistryFall 2022 SPOT
CHEM 6010.706Seminar for Doctoral CandidatesFall 2022
CHEM 6950.756Doctoral DissertationSummer 5W1 2022
CHEM 6950.756Doctoral DissertationSpring 2022
CHEM 6940.756Individual ResearchSpring 2022
CHEM 5640.001Selected Topics in Organic ChemistrySpring 2022 Syllabus SPOT
CHEM 6010.706Seminar for Doctoral CandidatesSpring 2022
CHEM 6950.756Doctoral DissertationFall 2021
CHEM 6940.756Individual ResearchFall 2021
CHEM 6010.706Seminar for Doctoral CandidatesFall 2021
CHEM 4940.001Chemistry SeminarSpring 2021 Syllabus SPOT
CHEM 6940.756Individual ResearchSpring 2021
CHEM 6010.706Seminar for Doctoral CandidatesSpring 2021
CHEM 5940.001Seminar in Current ChemistrySpring 2021 SPOT
CHEM 6940.756Individual ResearchFall 2020
CHEM 5500.001Physical Organic ChemistryFall 2020 SPOT
CHEM 6010.756Seminar for Doctoral CandidatesFall 2020
CHEM 4900.706Special ProblemsFall 2020
CHEM 6940.756Individual ResearchSpring 2020
CHEM 5640.001Selected Topics in Organic ChemistrySpring 2020
CHEM 6010.706Seminar for Doctoral CandidatesSpring 2020
CHEM 6950.756Doctoral DissertationFall 2019
CHEM 6940.756Individual ResearchFall 2019
CHEM 4940.001Chemistry SeminarSpring 2019 Syllabus SPOT
CHEM 6950.756Doctoral DissertationSpring 2019
CHEM 6940.756Individual ResearchSpring 2019
CHEM 5940.001Seminar in Current ChemistrySpring 2019 SPOT
CHEM 4910.706Special ProblemsSpring 2019
CHEM 6950.756Doctoral DissertationFall 2018
CHEM 6940.756Individual ResearchFall 2018
CHEM 5500.001Physical Organic ChemistryFall 2018 SPOT
CHEM 4900.706Special ProblemsFall 2018
CHEM 6940.756Individual ResearchSummer 5W1 2018
CHEM 6950.756Doctoral DissertationSpring 2018
CHEM 4951.714Honors College Capstone ThesisSpring 2018
CHEM 6940.756Individual ResearchSpring 2018
CHEM 2370.002Organic ChemistrySpring 2018 Syllabus SPOT
CHEM 2370.212Organic ChemistrySpring 2018 Syllabus
CHEM 4900.706Special ProblemsSpring 2018
CHEM 6950.756Doctoral DissertationFall 2017
CHEM 6940.756Individual ResearchFall 2017
CHEM 5500.001Physical Organic ChemistryFall 2017 SPOT
CHEM 4900.706Special ProblemsSummer 10W 2017
CHEM 6950.756Doctoral DissertationSpring 2017
CHEM 3996.00Honors College Mentored Research ExperienceSpring 2017
CHEM 6940.756Individual ResearchSpring 2017
CHEM 5640.001Selected Topics in Organic ChemistrySpring 2017 SPOT
CHEM 6950.756Doctoral DissertationFall 2016
CHEM 6940.756Individual ResearchFall 2016
CHEM 2370.002Organic ChemistryFall 2016 Syllabus SPOT
CHEM 2370.212Organic ChemistryFall 2016

Published Intellectual Contributions

    Book

  • Peters, Ren\'e. (2015). Cooperative catalysis: designing efficient catalysts for synthesis. John Wiley \& Sons.
  • Book Chapter

  • Wang, H., Jinadasa, R.W., Kumar, S. (2016). Push--Pull Porphyrins: Synthesis, Properties and Applications. Handbook of Porphyrin Science: With Applications to Chemistry, Physics, Materials Science, Engineering, Biology and Medicine—Volume 40: Nanoorganization of Porphyrinoids. 105--200.
  • Conference Proceeding

  • Wang, H., Hu, Y., Moss, A.E., Arvidson, J., Jang, Y., Alsaleh, A., D'Souza, F. (2023). $\Pi$-Extended Porphyrins: Fusion of Polycyclic Aromatic Hydrocarbons to Porphyrins. Electrochemical Society Meeting Abstracts 243. (14) 1357--1357.
  • Wang, H., Hu, Y., Thomas, M., Alsaleh, A., D'Souza, F. (2022). Pi-Extended Porphyrins: Synthesis, Functionalization and Applications in Dye-Sensitized Solar Cells. Electrochemical Society Meeting Abstracts 241. (13) 903--903.
  • Wang, H., Hu, Y., Thomas, M., Alsaleh, A., D'Souza, F. (2020). Beta, Beta-Functionalized Push-Pull Opp-Dibenzoporphyrins As Sensitizers for Dye-Sensitized Solar Cells: The Role of the Phenylethynyl Bridge and the Tertiary Amine Push Group. ECS Meeting Abstracts. (11) 880.
  • Thomas, M.B., Hu, Y., Wang, H., D'Souza, F. (2019). Accelerated Charge Separation and Stabilization in a Fused Bis Zinc Porphyrin-Quinone Conjugate Via Cation-Quinone Interaction. ECS Meeting Abstracts. (14) 947.
  • Wang, H., Hu, Y., D'Souza, F. (2019). Beta, Beta-Functionalized Push-Pull Opp-Dibenzoporphyrins As Sensitizers for Dye-Sensitized Solar Cells: The Role of the Phenylethynyl Bridge. ECS Meeting Abstracts. (13) 884.
  • Kumar, S., Webre, W., Stewart, C., D'Souza, F., Wang, H. (2019). Novel Synthesis of [2, 3] Naphthaloporphyrins. ECS Meeting Abstracts. (45) 2216.
  • Hu, Y., Jinadasa, R.W., Yellappa, S., Webre, W., Thomas, M., D'Souza, F., Wang, H. (2018). Linker Group Effects of Linearly Pi-Extended Porphyrins for Solar Energy Conversion. ECS Meeting Abstracts. (11) 910.
  • Wang, H., Jinadasa, R.W., Thomas, M., Hu, Y., D'Souza, F. (2017). Linearly-and Cross-Conjugated Porphyrin Dimers: Synthesis and Characterization. ECS Meeting Abstracts. (14) 887.
  • Wang, H., Jinadasa, R.G., Hu, Y., Thomas, M., D'Souza, F., Yellappa, S. (2017). Push-Pull P-Extended porphyrins As Sensitizer for Dye-Sensitized Solar Cells. ECS Meeting Abstracts. (13) 841.
  • Hu, Y., Jinadasa, R.W., Wang, H. (2017). Synthesis of Oligomeric Benzoporphyrins Via Imidation. ECS Meeting Abstracts. (14) 907.
  • Jinadasa, R.W., Wang, H., Li, B., Kerr, L. (2016). Dye Sensitized Solar Cell Based on Dicarboxylic Acid Substituted Benzoporphyrin and the Effect of Pi-Linkers Towards Their Photovoltaic Performances. ECS Meeting Abstracts. (13) 859.
  • Wang, H., Kerr, L., Jinadasa, R.W., Li, B., Schmitz, B., Matus, A., Hu, Y. (2016). Functionalized Pi-Extended porphyrins As Sensitizer for Dye-Sensitized Solar Cells. ECS Meeting Abstracts. (12) 809.
  • Wang, H., Jinadasa, R.W., Fang, Y., Kumar, S., Kadish, K.M., Hu, Y. (2016). Functionalizing P-Extended Porphyrins. ECS Meeting Abstracts. (13) 848.
  • Wang, H., Jinadasa, R.G., Kumar, S., Schmitz, B., Miller, E., Kadish, K.M., Fang, Y. (2015). Functionalized Pi-Extended Porphyrins. ECS Meeting Abstracts. (11) 963.
  • Wang, H., Jinadasa, R.G., Matus, A., Zou, S., Kerr, L. (2015). Push-Pull p-Extended porphyrins for Solar Energy Conversion. ECS Meeting Abstracts. (10) 906.
  • Jinadasa, R., Waruna, E., Wang, H. (2014). Design and synthesis of new Pi-extended porphyrins for solar energy conversion. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. 248
  • Jinadasa, R., Waruna, E., Wang, H. (2014). Design and synthesis of new Pi-extended porphyrins for solar energy conversion. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. 248
  • Wang, H., Xu, Z., Daka, P. (2009). CATL 56-Metal Lewis acid-Lewis base bifunctional catalysts: An example of the combination of transition-metal catalysis and organocatalysis. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY. 238
  • Shulan, L., Wang, H., Liu, D. (1995). Studies on Synthesis and Properties of Transition Metals With o-Vanillin Amino Acid Schiff Base Complexes.. Chinese Science Abstracts Series B. 4 (14) 3.
  • Journal Article

  • Moorthy, S., Arvidson, J., Meunier-Prest, R., Wang, H., Bouvet, M. Light Effect on Ammonia Sensing Properties of pi-Extended Porphyrin-Phthalocyanine Heterojunction Devices. The Journal of the American Chemical Society. https://pubs.acs.org/journal/ascefj
  • Washburn, S., Kaswan, R.R., Shaikh, S., Moss, A.E., D’Souza, F., Wang, H. (2023). Excited-State Charge Transfer in Push--Pull Platinum (II) $\pi$-Extended Porphyrins Fused with Pentacenequinone. The Journal of Physical Chemistry A. 127 (43) 9040--9051. American Chemical Society.
  • Cooper, C., Paul, R., Alsaleh, A., Washburn, S., Rackers, W., Kumar, S., Nesterov, V.N., D'Souza, F., Vinogradov, S.A., Wang, H. (2023). Naphthodithiophene-Fused Porphyrins: Synthesis, Characterization, and Impact of Extended Conjugation on Aromaticity. Other. 29 (57) e202302013.
  • Moss, A.E., Jang, Y., Arvidson, J., Wang, H., D'Souza, F. (2023). Highly Coupled Heterobicycle-Fused Porphyrin Dimers –Excitonic Coupling and Charge Separation with Coordinated Fullerene, C60.
  • Moss, A.E., Jang, Y., Arvidson, J., Nesterov, V.N., D'Souza, F., Wang, H. (2022). Aromatic heterobicycle-fused porphyrins: impact on aromaticity and excited state electron transfer leading to long-lived charge separation. Chemical Science. 13 (34) 9880--9890. Royal Society of Chemistry.
  • Davis, J., Gharaee, M., Karunaratne, Chamini, V, Vazquez, J.C., Haynes, M., Luo, W., Nesterov, V.N., Cundari, T.R., Wang, H. (2022). Asymmetric Synthesis of Chromans Through Bifunctional Enamine-Metal Lewis Acid Catalysis. Other. 28 (27)
  • Han, T., Jang, Y., Arvidson, J., D’Souza, F., Wang, H. (2022). Optical and photophysical properties of platinum benzoporphyrins with C 2 v and D 2 h symmetry. Journal of Porphyrins and Phthalocyanines. 26 (06n07) 458--468. World Scientific Publishing Company.
  • Han, T., Jang, Y., Arvidson, J., D’Souza, F., Wang, H. (2022). Optical and photophysical properties of platinum benzoporphyrins with C 2 v and D 2 h symmetry. Journal of Porphyrins and Phthalocyanines. A--K. World Scientific Publishing Company.
  • Moss, A.E., Nevonen, D.E., Hu, Y., Nesterov, V.N., Nemykin, V., Wang, H. (2022). Unsymmetrical Pentacene- and Pentacenequinone-Fused Porphyrins: Understanding the Effect of Cross- and Linear-Conjugation.
  • Cortes Vazquez, J., Alharbi, W.S., Davis, J., Moore, A., Nesterov, V.N., Cundari, T.R., Wang, H., Luo, W. (2022). Three Component Cascade Reaction of Cyclohexanones, Aryl Amines, and Benzoylmethylene Malonates: Cooperative Enamine-Brønsted Acid Approach to Tetrahydroindoles.. ACS Omega. 7 (49) 45341-45346.
  • Wang, H., Moss, A., Nesterov, V.N. (2022). Unsymmetrical Pentacene- and Pentacenequinone-Fused Porphyrins: Understanding the Effect of Cross- and Linear-Conjugation. 2 (6) 468-481.
  • Hu, Y., Alsaleh, A., Trinh, O., D'Souza, F., Wang, H. (2021). $\beta$-Functionalized push--pull opp-dibenzoporphyrins as sensitizers for dye-sensitized solar cells: the push group effect. Other. 9 (48) 27692--27700. Royal Society of Chemistry.
  • Fernando, E.N., Cortes Vazquez, J., Davis, J., Luo, W., Nesterov, V.N., Wang, H. (2021). Can Primary Arylamines Form Enamine? Evidence, $\alpha$-Enaminone, and [3+ 3] Cycloaddition Reaction. The Journal of Organic Chemistry. 86 (21) 14617--14626. American Chemical Society.
  • Cortes Vazquez, J., Davis, J., Nesterov, V.N., Wang, H., Luo, W. (2021). Sc (OTf) 3-Catalyzed Formal [3+ 3] Cycloaddition Reaction of Diaziridines and Quinones for the Synthesis of Benzo [e][1, 3, 4] oxadiazines. Organic Letters. 23 (8) 3136--3140. American Chemical Society.
  • Kumar, S., Webre, W., Stewart, C., D’Souza, F., Wang, H. (2020). A Synthetic Approach to $\beta$-Functionalized Naphtho [2, 3] porphyrins. Organic Letters. 22 (18) 7078--7082. American Chemical Society.
  • Hu, Y., Thomas, M.B., Weber, W.A., Moss, A.E., Jinadasa, W.R., Nesterov, V.N., D'Souza, F., Wang, H. (2020). Bisporphyrin-Fused Pentacenes Exhibiting Abnormal High Stability.
  • Wang, H., Hu, Y., Thomas, M., Webre, W., Moss, A., Jinadasa, R., Nesterov, V., D'Souza, F. (2020). Bisporphyrin-Fused Pentacenes Exhibiting Abnormal High Stability.. Other.
  • Thomas, M.B., Kumar, S., Esquivel, T., Wang, H., D’Souza, F. (2020). Excited state electron transfer in A2 and A2B2 functionalized zinc porphyrins carrying rigid and flexible $\beta$-pyrrole $\pi$-extended substituents. Journal of Porphyrins and Phthalocyanines. 24 (05n07) 904--919. World Scientific Publishing Company.
  • Luo, W., Sun, Z., Fernando, E. H. Nisala, Nesterov, V.N., Cundari, T.R., Wang, H. (2020). Formal oxo- and aza-[3+2] reactions of aenaminones and quinones: a double divergent process and the roles of chiral phosphoric acid and molecular sieves. Chemical Science. 11 (35) 9386-9394.
  • Hu, Y., Thomas, M.B., Webre, W., Moss, A., Jinadasa, R.W., Nesterov, V.N., D'Souza, F., Wang, H. (2020). Nickel (II) Bisporphyrin-Fused Pentacenes Exhibiting Abnormal High Stability. Other. 132 (45) 20250--20257.
  • Moss, A.E., Zhou, Z., Jiang, L., Vicente, G., Wang, H. (2020). Synthesis of highly water soluble tetrabenzoporphyrins and their application toward photodynamic therapy.
  • Moss, A., Zhou, Z., Jiang, L., Vicente, G.H., Wang, H. (2020). Synthesis of highly water soluble tetrabenzoporphyrins and their application toward photodynamic therapy. Journal of Porphyrins and Phthalocyanines. no.
  • Luo, W., Sun, Z., Fernando EHN, Nesterov, V.N., Cundari, T.R., Wang, H. (2020). Formal oxo- and aza-[3 + 2] reactions of α-enaminones and quinones: a double divergent process and the roles of chiral phosphoric acid and molecular sieves.. Chemical Science. 11 (35) 9386-9394.
  • Hu, Y., Webre, W., Thomas, M.B., Moss, A., Hancock, S.N., Schaffner, J., D'Souza, F., Wang, H. (2019). $\beta$-Functionalized push--pull opp-dibenzoporphyrins as sensitizers for dye-sensitized solar cells: the role of the phenylethynyl bridge. Other. 7 (17) 10712--10722. Royal Society of Chemistry.
  • Kumar, S., Webre, W., Schaffner, J., Islam, S.M., D’Souza, F., Wang, H. (2019). A2 and A2B2 Benzoporphyrins as sensitizers for dye-sensitized solar cells. Journal of Porphyrins and Phthalocyanines. 23 (04n05) 599--610. World Scientific Publishing Company.
  • Kumar, S., Webre, W., Schaffner, J., Islam, S.M., D’Souza, F., Wang, H. (2019). A2 and A2B2 Benzoporphyrins as sensitizers for dye-sensitized solar cells. Journal of Porphyrins and Phthalocyanines. 23 (04n05) 599--610. World Scientific Publishing Company.
  • Thomas, M.B., Hu, Y., Shan, W., Kadish, K.M., Wang, H., D’Souza, F. (2019). Acceleration and Stabilization of Electron Transfer Products with Improved Quantum Yields upon Cation Binding to a Fused Bis-Zinc Porphyrin-Quinone Donor--Acceptor Conjugate. The Journal of Physical Chemistry C. 123 (36) 22066--22073. American Chemical Society.
  • Thomas, M.B., Hu, Y., Shan, W., Kadish, K.M., Wang, H., D’Souza, F. (2019). Acceleration and Stabilization of Electron Transfer Products with Improved Quantum Yields upon Cation Binding to a Fused Bis-Zinc Porphyrin-Quinone Donor--Acceptor Conjugate. The Journal of Physical Chemistry C. 123 (36) 22066--22073. American Chemical Society.
  • Luo, W., Sun, Z., Fernando, E.N., Nesterov, V.N., Cundari, T.R., Wang, H. (2019). Asymmetric ring-opening of Donor--Acceptor cyclopropanes with primary arylamines catalyzed by a Chiral heterobimetallic catalyst. ACS Catalysis. 9 (9) 8285--8293. American Chemical Society.
  • Luo, W., Sun, Z., Fernando, E. H. Nisala, Nesterov, V.N., Cundari, T.R., Wang, H. (2019). Asymmetric Ring-Opening of Donor-Acceptor Cyclopropanes with Primary Arylamines Catalyzed by a Chiral Heterobimetallic Catalyst. ACS Catalysis. 9 (9) 8285-8293.
  • Kumar, S., Jiang, X., Shan, W., Jinadasa, R.W., Kadish, K.M., Wang, H. (2018). $\beta$-Functionalized trans-A2B2 push--pull tetrabenzoporphyrins. Chemical Communications. 54 (42) 5303--5306. Royal Society of Chemistry.
  • Torres King, J.H., Wang, H., Yezierski, E.J. (2018). Asymmetric Aldol Additions: A Guided-Inquiry Laboratory Activity on Catalysis. Journal of Chemical Education. NO. 95 (1) 158-163.
  • Torres King, J.H., Wang, H., Yezierski, E.J. (2018). Asymmetric aldol additions: A guided-inquiry laboratory activity on catalysis. Journal of Chemical Education. 95 (1) 158--163. American Chemical Society and Division of Chemical Education, Inc..
  • Thomas, M.B., Jindasa, R.W., Hu, Y., Schmitz, B., Wang, H., D’Souza, F. (2018). Investigation of the push--pull effects on $\beta$-functionalized zinc porphyrin coordinated to C60 donor--acceptor conjugates. Canadian Journal of Chemistry. 96 (9) 881--889. NRC Research Press.
  • Thomas, M.B., Jindasa, R.W., Hu, Y., Schmitz, B., Wang, H., D’Souza, F. (2018). Investigation of the push--pull effects on $\beta$-functionalized zinc porphyrin coordinated to C60 donor--acceptor conjugates. Canadian Journal of Chemistry. (999) 1--9. NRC Research Press.
  • Kumar, S., Jiang, X., Shan, W., Jinadasa, R., KADISH, K.M., Wang, H. (2018). “beta, beta-Functionalized Trans-A2B2 Push-Pull Tetrabenzoporphyrins. Chemical Communications. 54 5303-5306.
  • Hu, Y., Yellappa, S., Thomas, M.B., Jinadasa, R.W., Matus, A., Shulman, M., D'Souza, F., Wang, H. (2017). $\beta$-Functionalized Push--Pull opp-Dibenzoporphyrins as Sensitizers for Dye-Sensitized Solar Cells. Other. 12 (20) 2749--2762. Wiley Online Library.
  • Hu, Y., Yellappa, S., Thomas, M.B., Jinadasa, R.W., Matus, A., Shulman, M., D'Souza, F., Wang, H. (2017). $\beta$-Functionalized Push--Pull opp-Dibenzoporphyrins as Sensitizers for Dye-Sensitized Solar Cells. Other. 12 (20) 2749--2762.
  • Hu, Y., Thomas, M.B., Jinadasa, R.W., Wang, H., D'Souza, F. (2017). Competitive Energy and Electron Transfer in $\beta$-Functionalized Free-Base Porphyrin--Zinc Porphyrin Dimer Axially Coordinated to C60: Synthesis, Supramolecular Formation and Excited-State Processes. Other. 23 (52) 12805--12814. Wiley Online Library.
  • Hu, Y., Thomas, M.B., Jinadasa, R.W., Wang, H., D'Souza, F. (2017). Competitive Energy and Electron Transfer in $\beta$-Functionalized Free-Base Porphyrin--Zinc Porphyrin Dimer Axially Coordinated to C60: Synthesis, Supramolecular Formation and Excited-State Processes. Other. 23 (52) 12805--12814.
  • Hu, Y., Thomas, M.B., Jinadasa, R.W., Wang, H., D'Souza, F. (2017). Cover Feature: Competitive Energy and Electron Transfer in $\beta$-Functionalized Free-Base Porphyrin--Zinc Porphyrin Dimer Axially Coordinated to C60: Synthesis, Supramolecular Formation and Excited-State Processes (Chem. Eur. J. 52/2017). Other. 23 (52) 12679--12679.
  • Jinadasa, R.W., Thomas, M.B., Hu, Y., D'Souza, F., Wang, H. (2017). Investigation of the push--pull effects on $\beta$-functionalized benzoporphyrins bearing an ethynylphenyl bridge. Physical Chemistry Chemical Physics. 19 (20) 13182--13188. Royal Society of Chemistry.
  • Jinadasa, R.W., Thomas, M.B., Hu, Y., D'Souza, F., Wang, H. (2017). Investigation of the push--pull effects on $\beta$-functionalized benzoporphyrins bearing an ethynylphenyl bridge. Physical Chemistry Chemical Physics. 19 (20) 13182--13188. Royal Society of Chemistry.
  • Jinadasa, R.W., Thomas, M.B., Hu, Y., DSouza, F., Wang, H. (2017). Investigation of the push-pull effects on $β$-functionalized benzoporphyrins bearing ethynylphenyl bridge. Physical Chemistry Chemical Physics. Royal Society of Chemistry.
  • Karunaratne, C.V., Sarkisian, R.G., Reeves, J., Deng, Y., Wheeler, K.A., Wang, H. (2017). Multicomponent reaction through cooperative trio catalysis incorporating enamine, Br\onsted acid and metal Lewis acid catalysis: a concise route to access chromans. Other. 15 (23) 4933--4936. Royal Society of Chemistry.
  • Karunaratne, 1.V., Sarkisian, R.G., Reeves, J., Deng, Y., Wheeler, K.A., Wang, H. (2017). Multicomponent Reaction through Cooperative Trio Catalysis Incorporating Enamine, Brønsted Acid and Metal Lewis Acid Catalysis. Organic & Biomolecular Chemistry. 15 4933-4936.
  • Schmitz, B., Li, B., Waruna Jinadasa, R., Lalvani, S.B., Kerr, L.L., Wang, H. (2016). Benzoporphyrins bearing pyridine or pyridine-N-oxide anchoring groups as sensitizers for dye-sensitized solar cell. Journal of Porphyrins and Phthalocyanines. 20 (01n04) 542–555. World Scientific Publishing Company.
  • Schmitz, B., Li, B., Waruna Jinadasa, R., Lalvani, S.B., Kerr, L.L., Wang, H. (2016). Benzoporphyrins bearing pyridine or pyridine-N-oxide anchoring groups as sensitizers for dye-sensitized solar cell. Journal of Porphyrins and Phthalocyanines. 20 (01n04) 542--555. World Scientific.
  • Frigerio, C., Santos, J.P., Quaresma, P., Rebelo, S.L., Gomes, A., Eaton, P., Pereira, E., Carvalho, Patr\'\icia A, Shelnutt, J.A., Jiang, L., others. (2016). Ionic self-assembly reactions of a porphyrin octacation. Tetrahedron. 72 (44) 6988--6995. Pergamon.
  • Jinadasa, R., Li, B., Schmitz, B., Kumar, S., Hu, Y., Kerr, L., Wang, H. (2016). Monobenzoporphyrins as Sensitizers for Dye-Sensitized Solar Cells: Observation of Significant Spacer-Group Effect. ChemSusChem. 9 (16) 2239–2249.
  • Jinadasa, R.W., Li, B., Schmitz, B., Kumar, S., Hu, Y., Kerr, L., Wang, H. (2016). Monobenzoporphyrins as Sensitizers for Dye-Sensitized Solar Cells: Observation of Significant Spacer-Group Effect. ChemSusChem. 9 (16) 2239--2249. Wiley Online Library.
  • Jinadasa, R.W., Fang, Y., Kumar, S., Osinski, A.J., Jiang, X., Ziegler, C.J., Kadish, K.M., Wang, H. (2015). Other. 80 (24) 12076–12087. American Chemical Society.
  • Jinadasa, R.W., Fang, Y., Kumar, S., Osinski, A.J., Jiang, X., Ziegler, C.J., Kadish, K.M., Wang, H. (2015). $\beta$-Functionalized Push--Pull opp-Dibenzoporphyrins. The Journal of Organic Chemistry. 80 (24) 12076--12087. American Chemical Society.
  • Deng, Y., Karunaratne, C.V., Csatary, E., Tierney, D.L., Wheeler, K., Wang, H. (2015). Chiral Bimetallic Catalysts Derived from Chiral Metal Phosphates: Enantioselective Three-Component Asymmetric Aza-Diels--Alder Reactions of Cyclic Ketones. The Journal of Organic Chemistry. 80 (16) 7984--7993. American Chemical Society.
  • Deng, Y., Karunaratne, C.V., Csatary, E., Tierney, D.L., Wheeler, K., Wang, H. (2015). Chiral Bimetallic Catalysts Derived from Chiral Metal Phosphates: Enantioselective Three-Component Asymmetric Aza-Diels–Alder Reactions of Cyclic Ketones. Journal of Organic Chemistry. 80 (16) 7984–7993. American Chemical Society.
  • Daka, P., Liu, A., Karunaratne, C., Csatary, E., Williams, C., Xiao, H., Lin, J., Xu, Z., Page, R.C., Wang, H. (2015). Design, synthesis and evaluation of XZH-5 analogues as STAT3 inhibitors. Bioorganic & Medicinal Chemistry. 23 (6) 1348–1355. Pergamon.
  • Daka, P., Liu, A., Karunaratne, C., Csatary, E., Williams, C., Xiao, H., Lin, J., Xu, Z., Page, R.C., Wang, H. (2015). Design, synthesis and evaluation of XZH-5 analogues as STAT3 inhibitors. Other. 23 (6) 1348--1355. Pergamon.
  • Deng, Y., Kumar, S., Wheeler, K., Wang, H. (2015). Trio Catalysis Merging Enamine, Br\onsted Acid, and Metal Lewis Acid Catalysis: Asymmetric Three-Component Aza-Diels--Alder Reaction of Substituted Cinnamaldehydes, Cyclic Ketones, and Arylamines. Other. 21 (21) 7874--7880. Wiley Online Library.
  • Deng, Y., Kumar, S., Wheeler, K., Wang, H. (2015). Trio Catalysis Merging Enamine, Brønsted Acid, and Metal Lewis Acid Catalysis: Asymmetric Three-Component Aza-Diels–Alder Reaction of Substituted Cinnamaldehydes, Cyclic Ketones, and Arylamines. Chemistry - A European Journal. 21 (21) 7874–7880. WILEY-VCH Verlag.
  • Jinadasa, R.W., Fang, Y., Deng, Y., Deshpande, R., Jiang, X., Kadish, K.M., Wang, H. (2015). Unsymmetrically functionalized benzoporphyrins. RSC Advances. 5 (64) 51489–51492. Royal Society of Chemistry.
  • Jinadasa, R.W., Fang, Y., Deng, Y., Deshpande, R., Jiang, X., Kadish, K.M., Wang, H. (2015). Unsymmetrically functionalized benzoporphyrins. RSC Advances. 5 (64) 51489--51492. Royal Society of Chemistry.
  • Liu, L., Daka, P., Sarkisian, R., Deng, Y., Wheeler, K., Wang, H. (2014). Oxa-Diels--Alder Reaction of Isatins and Acyclic $\alpha$, $\beta$-Unsaturated Methyl Ketones through Cooperative Dienamine and Metal Lewis Acid Catalysis. Other. 46 (10) 1339--1347. \copyright Georg Thieme Verlag.
  • Liu, L., Daka, P., Sarkisian, R., Deng, Y., Wheeler, K., Wang, H. (2014). Oxa-Diels–Alder Reaction of Isatins and Acyclic $α$, $β$-Unsaturated Methyl Ketones through Cooperative Dienamine and Metal Lewis Acid Catalysis. Other. 46 (10) 1339–1347. Georg Thieme Verlag.
  • Jiang, L., Engle, J.T., Zaenglein, R.A., Matus, A., Ziegler, C.J., Wang, H., Stillman, M.J. (2014). Pentacene-Fused Diporphyrins. Chemistry - A European Journal. 20 (43) 13865–13870. WILEY-VCH Verlag.
  • Jiang, L., Engle, J.T., Zaenglein, R.A., Matus, A., Ziegler, C.J., Wang, H., Stillman, M.J. (2014). Pentacene-Fused Diporphyrins. Other. 20 (43) 13865--13870. Wiley Online Library.
  • Deng, Y., Kumar, S., Wang, H. (2014). Synergistic--cooperative combination of enamine catalysis with transition metal catalysis. Chemical Communications. 50 (33) 4272--4284. Royal Society of Chemistry.
  • Deng, Y., Kumar, S., Wang, H. (2014). Synergistic–cooperative combination of enamine catalysis with transition metal catalysis. Chemical Communications. 50 (33) 4272–4284. Royal Society of Chemistry.
  • Wang, X., Dong, S., Yao, Z., Feng, L., Daka, P., Wang, H., Xu, Z. (2014). Synthesis of spiroaminals and spiroketals with bimetallic relay catalysis. Organic Letters. 16 (1) 22--25. American Chemical Society.
  • Deng, Y., Liu, L., Sarkisian, R.G., Wheeler, K., Wang, H., Xu, Z. (2013). Arylamine-Catalyzed Enamine Formation: Cooperative Catalysis with Arylamines and Acids. Angewandte Chemie International Edition. 52 (13) 3663–3667. WILEY-VCH Verlag.
  • Deng, Y., Liu, L., Sarkisian, R.G., Wheeler, K., Wang, H., Xu, Z. (2013). Arylamine-Catalyzed Enamine Formation: Cooperative Catalysis with Arylamines and Acids. Other. 125 (13) 3751--3755. WILEY-VCH Verlag Weinheim.
  • Ham, B., Junkaew, A., Arroyave, R., Chen, J., Wang, H., Wang, P., Majewski, J., Park, J.G., Zhou, H., Arvapally, R.K., others. (2013). Hydrogen sorption in orthorhombic Mg hydride at ultra-low temperature. International Journal of Hydrogen Energy. 38 (20) 8328–8341. Pergamon.
  • Liu, L., Sarkisian, R., Deng, Y., Wang, H. (2013). Sc (OTf) 3-Catalyzed Three-Component Cyclization of Arylamines, $\beta$, $\gamma$-Unsaturated $\alpha$-Ketoesters, and 1, 3-Dicarbonyl Compounds for the Synthesis of Highly Substituted 1, 4-Dihydropyridines and Tetrahydropyridines. The Journal of Organic Chemistry. 78 (11) 5751--5755. American Chemical Society.
  • Liu, L., Sarkisian, R., Deng, Y., Wang, H. (2013). Sc (OTf) 3-Catalyzed Three-Component Cyclization of Arylamines, $β$, $γ$-Unsaturated $α$-Ketoesters, and 1, 3-Dicarbonyl Compounds for the Synthesis of Highly Substituted 1, 4-Dihydropyridines and Tetrahydropyridines. Journal of Organic Chemistry. 78 (11) 5751–5755. American Chemical Society.
  • Wang, X., Yao, Z., Dong, S., Wei, F., Wang, H., Xu, Z. (2013). Synthesis of fused bicyclic aminals through sequential gold/Lewis acid catalysis. Organic Letters. 15 (9) 2234--2237. American Chemical Society.
  • Wang, X., Dong, S., Yao, Z., Feng, L., Daka, P., Wang, H., Xu, Z. (2013). Synthesis of spiroaminals and spiroketals with bimetallic relay catalysis. Organic Letters. 16 (1) 22–25. American Chemical Society.
  • Deng, Y., Liu, L., Sarkisian, R., Wheeler, K., Wang, H., Xu, Z. (2013). Y (III)–Arylamine System for Cooperative Enamine–Lewis Acid Asymmetric Catalysis. Other. 9 (06) 0631–0631. Georg Thieme Verlag.
  • Liu, L., Sarkisian, R., Xu, Z., Wang, H. (2012). Asymmetric Michael addition of ketones to alkylidene malonates and allylidene malonates via enamine--metal Lewis acid bifunctional catalysis. The Journal of Organic Chemistry. 77 (17) 7693--7699. American Chemical Society.
  • Liu, L., Sarkisian, R., Xu, Z., Wang, H. (2012). Asymmetric Michael addition of ketones to alkylidene malonates and allylidene malonates via enamine–metal Lewis acid bifunctional catalysis. Journal of Organic Chemistry. 77 (17) 7693–7699. American Chemical Society.
  • Deshpande, R., Wang, B., Dai, L., Jiang, L., Hartley, C.S., Zou, S., Wang, H., Kerr, L. (2012). Opp-Dibenzoporphyrins as a Light-Harvester for Dye-Sensitized Solar Cells. Chemistry An Asian Journal. 7 (11) 2662–2669. WILEY-VCH Verlag.
  • Deshpande, R., Wang, B., Dai, L., Jiang, L., Hartley, C.S., Zou, S., Wang, H., Kerr, L. (2012). Opp-Dibenzoporphyrins as a Light-Harvester for Dye-Sensitized Solar Cells. Other. 7 (11) 2662--2669. Wiley Online Library.
  • Jiang, L., Zaenglein, R.A., Engle, J.T., Mittal, C., Hartley, C.S., Ziegler, C.J., Wang, H. (2012). Water-soluble ionic benzoporphyrins. Chemical Communications. 48 (55) 6927–6929. Royal Society of Chemistry.
  • Jiang, L., Zaenglein, R.A., Engle, J.T., Mittal, C., Hartley, C.S., Ziegler, C.J., Wang, H. (2012). Water-soluble ionic benzoporphyrins. Chemical Communications. 48 (55) 6927--6929. Royal Society of Chemistry.
  • Zieglerb, C.J., Wang, H. (2012). Water-soluble ionic benzoporphyrins. Other. 48 (69276929)
  • Liu, A., Liu, Y., Jin, Z., Hu, Q., Lin, L., Jou, D., Yang, J., Xu, Z., Wang, H., Li, C., others. (2012). XZH-5 inhibits STAT3 phosphorylation and enhances the cytotoxicity of chemotherapeutic drugs in human breast and pancreatic cancer cells. PLOS One. 7 (10) e46624. Public Library of Science.
  • Liu, A., Liu, Y., Jin, Z., Hu, Q., Lin, L., Jou, D., Yang, J., Xu, Z., Wang, H., Li, C., others. (2012). XZH-5 inhibits STAT3 phosphorylation and enhances the cytotoxicity of chemotherapeutic drugs in human breast and pancreatic cancer cells. PLOS One. 7 (10) e46624. Public Library of Science.
  • Xu, Z., Wang, H. (2011). Asymmetric inverse-electron-demand Hetero-Diels-Alder reaction via enamine-metal Lewis acid bifunctional catalysis. Other. 2011 (20) 2907--2912. \copyright Georg Thieme Verlag Stuttgart˙ New York.
  • Xu, Z., Liu, L., Wheeler, K., Wang, H. (2011). Asymmetric Inverse-Electron-Demand Hetero-Diels–Alder Reaction of Six-membered Cyclic Ketones: An Enamine/Metal Lewis Acid Bifunctional Approach. Angewandte Chemie International Edition. 123 (15) 3546–3550. Wiley Online Library.
  • Xu, Z., Liu, L., Wheeler, K., Wang, H. (2011). Bifunctional Lewis Acid/Enamine Catalysis of Hetero-Diels-Alder Reaction. Other. 2011 (07) 0747–0747. Georg Thieme Verlag Stuttgart? New York.
  • Daka, P., Xu, Z., Alexa, A., Wang, H. (2011). Direct Aldol Reaction Catalyzed by a Chiral Bifunctional Catalyst System. Other. 2011 (04) 0401–0401. Georg Thieme Verlag Stuttgart? New York.
  • Liu, A., Liu, Y., Xu, Z., Yu, W., Wang, H., Li, C., Lin, J. (2011). Novel small molecule, XZH-5, inhibits constitutive and interleukin-6-induced STAT3 phosphorylation in human rhabdomyosarcoma cells. Other. 102 (7) 1381–1387. Wiley Online Library.
  • Liu, A., Liu, Y., Xu, Z., Yu, W., Wang, H., Li, C., Lin, J. (2011). Novel small molecule, XZH-5, inhibits constitutive and interleukin-6-induced STAT3 phosphorylation in human rhabdomyosarcoma cells. Other. 102 (7) 1381--1387. Wiley Online Library.
  • Daka, P., Xu, Z., Alexa, A., Wang, H. (2011). Primary amine-metal Lewis acid bifunctional catalysts based on a simple bidentate ligand: direct asymmetric aldol reaction. Chemical Communications. 47 (1) 224–226. Royal Society of Chemistry.
  • Daka, P., Xu, Z., Alexa, A., Wang, H. (2011). Primary amine-metal Lewis acid bifunctional catalysts based on a simple bidentate ligand: direct asymmetric aldol reaction. Chemical Communications. 47 (1) 224--226. Royal Society of Chemistry.
  • Jiang, L., Engle, J.T., Sirk, L., Hartley, C.S., Ziegler, C.J., Wang, H. (2011). Triphenylene-fused porphyrins. Organic Letters. 13 (12) 3020–3023. American Chemical Society.
  • Jiang, L., Engle, J.T., Sirk, L., Hartley, C.S., Ziegler, C.J., Wang, H. (2011). Triphenylene-fused porphyrins. Organic Letters. 13 (12) 3020--3023. American Chemical Society.
  • Liu, Y., Liu, A., Xu, Z., Yu, W., Wang, H., Li, C., Lin, J. (2011). XZH-5 inhibits STAT3 phosphorylation and causes apoptosis in human hepatocellular carcinoma cells. Other. 16 (5) 502–510. Springer.
  • Shulaev, V., Sargent, D.J., Crowhurst, R.N., Mockler, T.C., Folkerts, O., Delcher, A.L., Jaiswal, P., Mockaitis, K., Liston, A., Mane, S.P., Burns, P., Davis, T., Slovin, J.P., Bassil, N., Hellens, R.P., Evans, C., Harkins, T., Kodira, C., Desany, B., Crasta, O.R., Jensen, R.V., Allan, A.C., Michael, T.P., Setubal, J.C., Celton, J.M., Rees, D.J., Williams, K.P., Holt, S.H., Ruiz Rojas, J.J., Chatterjee, M., Liu, B., Silva, H., Meisel, L., Adato, A., Filichkin, S.A., Troggio, M., Viola, R., Ashman, T.L., Wang, H., Dharmawardhana, P., Elser, J., Raja, R., Priest, H.D., Bryant, Jr, D.W., Fox, S.E., Givan, S.A., Wilhelm, L.J., Naithani, S., Christoffels, A., Salama, D.Y., Carter, J.R., Lopez Girona, E., Zdepski, A., Wang, W., Kerstetter, R.A., Schwab, W., Korban, S.S., Davik, J., Monfort, A., Denoyes-Rothan, B., Arus, P., Mittler, R., Flinn, B., Aharoni, A., Bennetzen, J.L., Salzberg, S.L., Dickerman, A.W., Velasco, R., Borodovsky, M., Veilleux, R.E., Folta, K.M. (2011). The genome of woodland strawberry (Fragaria vesca).. Nature Genetics. 43 (2) 109-16.
  • Xu, Z., Buechler, T., Wheeler, K., Wang, H. (2010). A Three-Component Reaction Based on a Remote-Group-Directed Dynamic Kinetic Aza-Michael Addition: Stereoselective Synthesis of Imidazolidin-4-ones. Chemistry - A European Journal. 16 (10) 2972–2976. WILEY-VCH Verlag.
  • Xu, Z., Buechler, T., Wheeler, K., Wang, H. (2010). A Three-Component Reaction Based on a Remote-Group-Directed Dynamic Kinetic Aza-Michael Addition: Stereoselective Synthesis of Imidazolidin-4-ones. Other. 16 (10) 2972--2976. WILEY-VCH Verlag Weinheim.
  • Deshpande, R., Jiang, L., Schmidt, G., Rakovan, J., Wang, X., Wheeler, K., Wang, H. (2009). A Concise Approach to the Synthesis of opp-Dibenzoporphyrins through the Heck Reaction. Organic Letters. 11 (19) 4251–4253. American Chemical Society.
  • Deshpande, R., Jiang, L., Schmidt, G., Rakovan, J., Wang, X., Wheeler, K., Wang, H. (2009). A Concise Approach to the Synthesis of opp-Dibenzoporphyrins through the Heck Reaction. Organic Letters. 11 (19) 4251--4253. American Chemical Society.
  • Xu, Z., Daka, P., Budik, I., Wang, H., Bai, F., Zhang, H. (2009). Enamine–Metal Lewis Acid Bifunctional Catalysis: Application to Direct Asymmetric Aldol Reaction of Ketones. European Journal of Organic Chemistry. 2009 (27) 4581–4585. Wiley Online Library.
  • Xu, Z., Daka, P., Wang, H. (2009). Primary amine-metal Lewis acid bifunctional catalysts: the application to asymmetric direct aldol reactions. Chemical Communications. (44) 6825–6827. Royal Society of Chemistry.
  • Xu, Z., Daka, P., Wang, H. (2009). Primary amine-metal Lewis acid bifunctional catalysts: the application to asymmetric direct aldol reactions. Chemical Communications. (44) 6825--6827. Royal Society of Chemistry.
  • Scheinost, J.C., Wang, H., Boldt, G.E., Offer, J., Wentworth, Jr, P. (2008). Cholesterol seco-Sterol-Induced Aggregation of Methylated Amyloid-$\beta$ Peptides—Insights into Aldehyde-Initiated Fibrillization of Amyloid-$\beta$. Angewandte Chemie International Edition. 47 (21) 3919--3922. WILEY-VCH Verlag Weinheim.
  • Wang, H., Jaquinod, L., Olmstead, M.M., Vicente, M Gra\cca H, Kadish, K.M., Ou, Z., Smith, K.M. (2007). Synthesis, Characterization, and Electrochemical Studies of $\beta$, $\beta$ ‘-Fused Metallocenoporphyrins. Inorganic Chemistry. 46 (7) 2898--2913. ACS Publications.
  • Collman, J.P., Wang, H., Decreau, R.A., Eberspacher, T.A., Sunderland, C.J. (2005). Synthesis and characterization of Rh III corroles: unusual reactivity patterns observed during metalation reactions. Chemical Communications. (19) 2497--2499. Royal Society of Chemistry.
  • Vicente, M Gra\cca H, Wickramasinghe, A., Nurco, D.J., Wang, H., Nawrocky, M.M., Makar, M.S., Miura, M. (2003). Synthesis, toxicity and biodistribution of two 5, 15-di [3, 5-(nido-carboranylmethyl) phenyl] porphyrins in EMT-6 tumor bearing mice. Other. 11 (14) 3101--3108. Pergamon.
  • Wang, H., Jaquinod, L., Nurco, D.J., Vicente, M Gra\cca H, Smith, K.M. (2001). $\beta$, $\beta$′-Fused metallocenoporphyrins. Chemical Communications. (24) 2646--2647. Royal Society of Chemistry.
  • LI, S., Wang, H., LIU, D., MENG, F., YANG, Z.S. (1994). Crystal Structure and Thermode-composition Kinetics of Copper (Ⅱ) Complex with bis-(Schiff base) Derived from 3-Methoxysalicylaldehyde and Ethanolamine. Other. 10 (4) 273--279.
  • Other

  • Ngo, N., Jaquinod, L., Wang, H. (2010). Devices and methods for the synthesis of nucleic acids.
  • Xu, Z., Daka, P., Budik, I., Wang, H., Bai, F., Zhang, H. (2009). Enamine--metal Lewis acid bifunctional catalysis: application to direct asymmetric aldol reaction of ketones. WILEY-VCH Verlag Weinheim.
  • Yang, J., Feng, K., Li, Y., Zang, H., Wang, H., Chou, C., Liang, R. (2008). Fluorinated dyes or colorants and their uses.
  • Collman, J.P., Zeng, L., Wang, H., Lei, A., Brauman, J.I. (2006). Kinetics of (Porphyrin) manganese (III)-Catalyzed Olefin Epoxidation with a Soluble Iodosylbenzene Derivative. WILEY-VCH Verlag Weinheim.
  • Ngo, N., Jaquinod, L., Wang, H. (2005). Universal support for nucleic acid synthesis. Google Patents.
  • Ph.D. Thesis

  • Jiang, L. (2013). Functionalized Pi-Extended Porphyrins. Miami University.
  • Deshpande, R.A. (2010). A New Approach to the Benzoporphyrins: Towards Dye Sensitized Solar Cells. Miami University.
  • Technical Report

  • Wang, H., Kerr, L. (2018). Pi-Extended Porphyrins: Functionalization and applications in DSSC. SC0010800-Final. Miami Univ., Oxford, OH (United States).

Contracts, Grants and Sponsored Research

    Grant - Research

  • Wang, H., "“pi-Extended Porphyrins: The Impact of Aromatic Heterocycles on the Properties of the Largely pi-Extended Structures," sponsored by Department of Energy, Federal, $350000 Funded. (2023 - 2024).
  • Wang, H. (Principal), D'Souza, F. (Co-Principal), "Largely pi-Extended Molecular Systems: Porphyrins Fused with PAHs," sponsored by Department of Energy, Federal, $693000 Funded. (2020 - 2023).
  • Wang, H. (Principal), "Merging Enamine Catalysis with Metal Lewis Acid Catalysis for Asymmetric Organic Transformations," sponsored by National Science Foundation, Federal, $490000 Funded. (2020 - 2023).
  • Slaughter, L.M. (Principal), Wang, H. (Co-Principal), "REU Site: Team-Mentored Interdisciplinary Research Experiences in Chemistry for Early-Stage Undergraduates," sponsored by National Science Foundation, Federal, $279576 Funded. (2018 - 2023).
  • Wang, H. (Principal), D'Souza, F., "“π-Extended porphyrins: functionalization and applications in DSSC," sponsored by Department of Energy, Federal, $630000 Funded. (2016 - 2020).
  • Slaughter, L.M., D'Souza, F., Omary, M.A., Richmond, M.G., Wang, H., "MRI: Acquisition of a Microfocus X-Ray Diffractometer as a Regionwide Resource for Chemistry and Materials Research," sponsored by National Science Foundation, Federal, $262689 Funded. (2017 - 2020).
  • Wang, H. (Principal), Omary, M.A. (Co-Principal), D'Souza, F. (Co-Principal), "Cyclically Conjugated 2D Covalent Organic Frameworks," sponsored by AMMPI, University of North Texas, $15000 Funded. (2016 - 2017).
  • Wang, H. (Principal), "Enamine-metal Lewis acid bifunctional catalysts for asymmetric organic transformations," sponsored by National Science Foundation, Federal, $559899 Funded. (2011 - 2017).
  • Wang, H. (Principal), Page, R. (Co-Principal), "CAS Health-Related Grants," sponsored by Miami University, State, $120000 Funded. (2014 - 2016).
  • Wang, H. (Principal), "Push-pull π-extended porphyrins for solar energy conversion," sponsored by Department of Energy, Federal, $670000 Funded. (2013 - 2016).
  • Wang, H., "Research Incentive Fund," sponsored by Ohio Board of Regents, State, $40000 Funded. (2011 - 2013).
  • Wang, H., "CRF Faculty Research Grant," sponsored by Miami University, State, $40000 Funded. (2008 - 2009).
  • Wang, H. (Principal), "Cooperative Enamine-Hard Metal Lewis Acid Catalysis for New Asymmetric Organic Transformations," sponsored by National Science Foundation, FED, Funded. (2020 - 2023).
  • Wang, H. (Principal), D'Souza, F. (Co-Principal), "Largely pi-Extended Molecular Systems: Porphyrins Fused with PAHs," sponsored by Department of Energy, Federal, Funded. (2020 - 2023).
  • Wang, H. (Principal), "Merging Enamine Catalysis with Metal Lewis Acid Catalysis for Asymmetric Organic Transformations," sponsored by National Science Foundation, Federal, Funded. (2020 - 2023).
  • Wang, H. (Co-Principal), Slaughter, L.M. (Principal), "REU Site: Team-Mentored Interdisciplinary Research Experiences in Chemistry for Early-Stage Undergraduates," sponsored by National Science Foundation, FED, Funded. (2018 - 2022).
  • D'Souza, F. (Principal), Wang, H. (Principal), "Extended Porphyrins: Functionalization and Applications in DSSC," sponsored by U.S. Department of Energy, FED, Funded. (2016 - 2022).
  • D'Souza, F. (Principal), Wang, H. (Co-Principal), Slaughter, L.M. (Principal), Richmond, M.G. (Co-Principal), Omary, M.A. (Co-Principal), "MRI: Acquisition of a Microfocus X-Ray Diffractometer as a Regionwide Resource for Chemistry and Materials Research," sponsored by National Science Foundation, FED, Funded. (2017 - 2020).
  • Wang, H. (Principal), "Enamine-Metal Lewis Acid Bifunctional Catalysts for Asymmetric Organic Transformations," sponsored by National Science Foundation, FED, Funded. (2016 - 2017).
,
Overall
Summative Rating
Challenge and
Engagement Index
Response Rate

out of 5

out of 7
%
of
students responded
  • Overall Summative Rating (median):
    This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
    • The course as a whole was
    • The course content was
    • The instructor’s contribution to the course was
    • The instructor’s effectiveness in teaching the subject matter was
  • Challenge and Engagement Index:
    This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
    • Do you expect your grade in this course to be
    • The intellectual challenge presented was
    • The amount of effort you put into this course was
    • The amount of effort to succeed in this course was
    • Your involvement in course (doing assignments, attending classes, etc.) was
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