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PUBLICATIONS

 

15. “9-Borabicyclononane Bipyridyl Complexes: Syntheses, Photophysical, and Electronic Characterization” Chrzanowski, M.J, Collins, S.J., Gray, T.G. Eur. J. Inorg. Chem., 2020, 39, 3738-3745

 

14. “Ultrasonic-assisted Transesterification: A Green Miniscale Organic Laboratory Experiment” Wang, X.S.; Chrzanowski, M.J.; Liu, Y.J. J. Chem. Ed., 2020, 97, 1123-1127 

13. "LEARNING IN THE TERTIARY LEVEL CHEMISTRY LABORATORY: WHAT WE HAVE LEARNT FROM PHENOMENOLOGY RESEARCH" SANDI-URENA, S.; CHRZANOWSKI, M. SCIENCE EDUCATION RESEARCH AND PRACTICAL WORK, 2016, 181-192

12. "REFORM IN GENERAL CHEMISTRY LABORATORY: HOW DO STUDENTS EXPERIENCE CHANGE IN INSTRUCTIONAL APPROACH?” CHOPRA, I.; O’CONNOR, J.; PANCHO, R.; CHRZANOWSKI, M.; SANDI-URENA, S. CHEM. EDUC. RES. PRACT., 2017, 18, 113-126.

11. "APPLICATIONS OF METAL-ORGANIC FRAMEWORKS FEATURING MULTI-FUNCTIONAL SITES” LI, B.; CHRZANOWSKI, M.; ZHANG, Y.; MA, S.* COORD. CHEM. REVIEWS, 2016, 307, 106-129

10. "CREATING EXTRA PORES IN MICROPOROUS CARBON VIA A TEMPLATE STRATEGY FOR REMARKABLE ENHANCEMENT OF AMBIENT-PRESSURE CO2 UPTAKE" LI, B.; ZHANG, Y.; MA, D.; ZHU, L.; ZHANG, D.; CHRZANOWSKI, M.; SHI, Z.; MA, S.* CHEM. COMM., 2015, 51, 8683-8686

9. “METAL-ORGANIC FRAMEWORK BASED UPON THE SYNERGY OF A BRØNSTED ACID FRAMEWORK AND LEWIS ACID CENTERS AS A HIGHLY EFFICIENT HETEROGENEOUS CATALYST FOR FIXED-BED REACTIONS” LI, B.; LENG, K.; ZHANG, Y.; DYNES, J.J.; WANG, J.; HU, Y.; MA, D.; SHI, Z.; ZHU, L.; ZHANG, D.; SUN, Y.; CHRZANOWSKI, M.; MA, S.* J. AM. CHEM. SOC., 2015, 12, 4243-4248.

8. “INVESTIGATION OF PROTOTYPAL MOFS CONSISTING OF POLYHEDRAL CAGES WITH ACCESSIBLE LEWIS-ACID SITES FOR QUINOLONE SYNTHESIS” GAO, W.-Y.; LENG, K.; CASH, L.; CHRZANOWSKI, M.; STACKHOUSE, C.A.; SUN, Y; MA, S.* CHEM. COMM. 2015, 51, 4827-4829

7. “INTRODUCTION OF Π-COMPLEXATION INTO POROUS AROMATIC FRAMEWORK FOR HIGHLY SELECTIVE ADSORPTION OF ETHYLENE OVER ETHANE” LI, B.; ZHANG, Y.; KRISHNA, R.; YAO, K.; HAN, Y.; ZILI, W.; MA, D.; SHI, Z.; PHAM, T.; SPACE, B.; LIU, J.; THALLAPALLY, P.K.; LIU, J.; CHRZANOWSKI, M.; MA, S.* J. AM. CHEM. SOC., 2014, 136, 8654-8660.

6. “COVALENT HEME FRAMEWORK AS HIGHLY ACTIVE HETEROGENEOUS BIOMIMETIC OXIDATION CATALYSTS” WANG, X.-S.; CHRZANOWSKI, M., YUAN, D.; SWEETING, B.; MA, S.* CHEM. MATER., 2014, 26, 1639-1644.

5. “METAL-METALLOPORPHYRIN FRAMEWORKS: RESURGING CLASS OF FUNCTIONAL MATERIALS” GAO, W.-Y.; CHRZANOWSKI, M., MA, S. * CHEM. SOC. REV., 2014, 43, 5841-5866

4. "FORMATION OF A METALLOPORPHYRIN-BASED NANOREACTOR BY POST-SYNTHETIC METAL-ION EXCHANGE OF A POLYHEDRAL-CAGE CONTAINING METAL-METALLOPORPHYRIN FRAMEWORK" WANG, X.-S.; CHRZANOWSKI, M.; WOJTAS, L.; CHEN, Y.-S.; MA, S.* CHEM. EUR. J. 2013, 19, 3297-3301.

3. "QUEST FOR HIGHLY POROUS METAL-METALLOPORPHYRIN FRAMEWORK BASED UPON A CUSTOM-DESIGNED OCTATOPIC PORPHYRIN LIGAND" WANG, X.-S.; CHRZANOWSKI, M.; KIM, C.; GAO, W.-Y.; WOJTAS, L.; CHEN, Y.-S.; ZHANG, X. P.; MA, S.* CHEM. COMMUN., 2012, 48, 7173-7175.

2. "VERTEX-DIRECTED SELF-ASSEMBLY OF A HIGH SYMMETRY SUPERMOLECULAR BUILDING BLOCK USING A CUSTOM-DESIGNED PORPHYRIN" WANG, X.-S.; CHRZANOWSKI, M.; GAO, W.-Y.; WOJTAS, L.; CHEN, Y.-S.; ZAWOROTKO, M. J.; MA, S.* CHEM. SCI., 2012, 3, 2823-2827.

1. "THREE-DIMENSIONAL POROUS METAL-METALLOPORPHYRIN FRAMEWORK CONSISTING OF NANOSCOPIC POLYHEDRAL CAGES" WANG, X.-S.; MENG, L.; CHENG, Q.; KIM, C.; WOJTAS, L.; CHRZANOWSKI, M.; CHEN, Y.-S.; ZHANG, X. P.; MA, S.* J. AM. CHEM. SOC., 2011, 133, 16322-16325.

PRESENTATIONS

11. “INVESTIGATION OF THE EFFECT AUROPHILIC INTERACTIONS HAVE ON PHOTOPHYSICAL PROPERTIES OF ORGANOGOLD(I) COMPLEXES BEARING A BENZOTHIAZOLE-2,7,-FLUORENYL MOIETY” ACS NATIONAL MEETING & EXPOSITION, PHILADELPHIA, PA, USA; MARCH 2020

10. “GENERAL CHEMISTRY LABORATORY CURRICULA AND PRACTICES ACROSS BORDERS” ACS NATIONAL MEETING & EXPOSITION, PHILADELPHIA, PA, USA; MARCH 2020

9. “EMERGENCE OF MINDFULNESS AND MINDLESSNESS IN MULTIPLE, DIVERSE LABORATORY ENVIRONMENTS AND ITS IMPACT ON EVIDENCE-BASED CURRICULA DESIGN” ACS NATIONAL MEETING & EXPOSITION, ORLANDO, FL, USA; MARCH 2019

8. “ANALYSIS OF DIVERSE AND INDEPENDENT LABORATORY LEARNING ENVIRONMENTS USING LANAGER’S MINDFULNESS THEORY” ACS NATIONAL MEETING & EXPOSITION, NEW ORLEANS, LA, USA; MARCH 2018

7. “REFORM IN GENERAL CHEMISTRY LABORATORY INSTRUCTION: HOW DO STUDENTS EXPERIENCE CHANGE?" IUPAC 45TH WORLD CHEMISTRY CONGRESS, BUSAN, SOUTH KOREA; AUGUST 2015

6. “REFORM IN GENERAL CHEMISTRY LABORATORY INSTRUCTION: HOW DO STUDENTS EXPERIENCE CHANGE BETWEEN AN EXPOSITORY LABORATORY AND A COOPERATIVE PROJECT-BASED LABORATORY?” ACS NATIONAL MEETING & EXPOSITION, DENVER, CO, USA; MARCH 2015

5. “3-DIMENSIONAL 4,4 CONNECTED PORPHYRIN BASED COVALENT-ORGANIC FRAMEWORK” SOUTHEAST REGIONAL ACS MEETING, NASHVILLE, TN, USA; OCTOBER 2014

4. “3-DIMENSIONAL 4,4 CONNECTED PORPHYRIN BASED COVALENT-ORGANIC FRAMEWORK” FLORIDA INORGANIC & MATERIALS SYMPOSIUM, GAINESVILLE, FL, USA; OCTOBER 2014

3. “INTERDISCIPLINARY RESEARCH IN SCIENCES (IRIS) – DESIGNING AN EFFECTIVE INTRODUCTORY LEVEL COURSE TO PREPARE FUTURE RESEARCHERS” BIENNIAL CONFERENCE ON CHEMICAL EDUCATION, ALLENDALE, MI, USA; AUGUST 2014

2. “INTERDISCIPLINARY RESEARCH IN SCIENCES (IRIS) – DESIGNING AN EFFECTIVE INTRODUCTORY LEVEL COURSE TO PREPARE FUTURE RESEARCHERS” FLORIDA ANNUAL MEETING AND EXPOSITION, INNISBROOK, FL, USA; MAY 2014

1. “THREE-DIMENSIONAL POROUS METAL-METALLOPORPHYRIN FRAMEWORK CONSISTING OF NANOSCOPIC POLYHEDRAL CAGES” FLORIDA INORGANIC & MATERIALS SYMPOSIUM, GAINESVILLE, FL, USA; OCTOBER, 2011

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