References

From the laboratory of Dr. David Lacy

• Magnetoelectric radical hydrocarbons
  Guan, Y.-S.; Zhong, G.; Hu, Y.; Cannella, A. F.; Li, C.; Lee, N.; Jia,* Q.; Lacy,* D. C.; Ren,* S. Adv. Mater. 2018 DOI: 10.1002/adma.201806263
• Bis-phosphine phenol and phenolate Mn(I) complexes: manganese(I) catalyzed Tishchenko reaction
  Kadassery, K. J., MacMillan, S. N.; Lacy,* D. C. Dalton Trans. 2018, 47, 12652-12655
• Deciphering the mechanism of O₂ reduction with electronically tunable non-heme iron enzyme model complexes
  Surendhran, R.;^‡ D’Arpino, A. A.;^‡ Bao, Y. S.;^‡ Cannella, A. F.; MacMillan, S. N.; Lacy,* D. C. Chem. Sci. 2018, 9, 5773–5780.
• Photochemical water-splitting with organomanganese complexes
  Kadassery, K. J.; Dey, S. K.; Cannella, A. F.; Surendhran, R.;^‡ Lacy,* D. C. Inorg. Chem. 2017, 56, 9954-9965.
• Exploring the role of carbonate in the formation of an organomanganese tetramer
  Kadassery, K. J.; Dey, S. K.; Friedman, A. E.; Lacy,* D. C. Inorg. Chem. 2017, 56, 8748-8751

From the laboratory of Dr. Janet Morrow

• CoCEST: Cobalt(II) Amide-appended ParaCEST MRI Contrast Agents
  Dorazio, S. J.; Olatunde, A. O.; Spernyak, J. A.; Morrow, J. R.  “CoCEST: Cobalt(II) Amide-appended ParaCEST MRI Contrast Agents”  Chem. Commun. 2013, 49, 10025-10027.
• A redox-activated MRI Contrast Agent that Switches between Paramagnetic and Diamagnetic States
  Tsitovich, P. B.; Spernyak, J. A.; Morrow, J. R.  “A redox-activated MRI Contrast Agent that Switches between Paramagnetic and Diamagnetic States” Angew. Chem. Int. Ed. 2013, 52, 13997-14000.   
• Comparison of Divalent Transition metal ion paraCEST MRI Contrast Agents
  Dorazio, S. J.; Olatunde, A. O.; Tsitovich, P. B.; Morrow, J. R.  “Comparison of Divalent Transition metal ion paraCEST MRI Contrast Agents” J. Biol. Inorg. Chem. 2014, 19, 191-205.
• Seven-Coordinate Co^II, Fe^II and Six-Coordinate Ni^II Amide-Appended Macrocyclic Complexes as ParaCEST Agents in Biological Media
  Olatunde, A. O.;  Cox, J. M.; Daddario, M. D;  Spernyak, J. A.; Benedict, J. B.; Morrow, J. R. Inorg. Chem. 2014, 53, 8311-8321.  
• Selective binding of Zn(II) complexes to   Human Telomeric G-quadruplex DNA
  Siters, K. E.; Fountain, M. A.; Morrow, J. R.  Inorg. Chem. 2014, 53, 11540-11551.
• Bifunctional Zn(II) Complexes for Recognition of Non-Canonical Thymines in DNA Bulges and G-Quadruplexes
  Siters, K. E.; Sander, S. A.; Devlin, J.; Morrow, J. R.  Dalton Trans. 2014, 3708-3716.
• Zn²⁺ Selective Switch of Duplex to Hairpin DNA
  Sander, S. A.; Van Hall, A. K.; Morrow, J. R.  Inorg. Chem. 2015, 54, 3084-3086.
• Co^II, Fe^II and Ni^II Amide-Appended Tetraazamacrocyclic Complexes as ParaCEST Agents for Thermometry
  Olatunde, A. O.;  Bond, C. J.; Dorazio, S. J.; Daddario, M. D.; Spernyak, J. A.; Cox, J. M.; Benedict, J. B.; Morrow, J. R.  Chem. Eur. J. 2015, 21, 18290-18300.
• Six-coordinate Co(II) and Fe(II) paraSHIFT agents for temperature measurement.
  Tsitovich, P. B.;  Cox, J. M.; Benedict, J. B.; Spernyak, J. A.;  Morrow, J. R.  Inorg. Chem. 2015, 55, 700-716.
  
• Virtual issue on Emerging investigators in Bioinorganic Chemistry
  Morrow, J. R. Inorg. Chem. 2015, 54(23), 11039-11042.
• Preparation of Cobalt(II) Cages: An Undergraduate Laboratory Experiment that Produces a paraSHIFT  Agent for Magnetic Resonance Spectroscopy
  Burns, P. J.; Tsitovich, P. B.; Morrow, J. R.   J. Chem. Educ. 2016,  93, 1115-1119.
• Zn(II) Complexes that trigger a DNA conformational Switch
  Sanders, S. A; Morrow, J. R.   Submitted to special issue on metal nucleic acid interactions: state of the art in Inorg. Chim. Acta. 2016, 452, 90-97.
• Gearing up for pH Shift: a Responsive Iron(II) 2-amino-6-picolyl-appendent Macrocyclic paraCEST Agent
  Tsitovich, P. B.; Cox. J. M.  Morrow, J. R.  Inorg. Chem. 2016, 55, 12001-10.
  
• Imidazole-appended macrocyclic complexes of Fe(II), Co(II) and Ni(II) as paraCEST agents
  Burns, P. J.; Cox, J. M.; Morrow, J. R.    “Imidazole-appended macrocyclic complexes of Fe(II), Co(II) and Ni(II) as paraCEST agents”  Inorg. Chem. 2017, 56, 4545-4554.
  
• An Fe(III) Aza-macrocyclic Complex as pH-Tunable Catholyte and Anolyte for Redox-Flow Battery Applications
  Tsitovich,  P. B.; Kosswattaarachchi, A. M.; Crawley, M. R.; Tittiris, T. Y.; Cook, T. R.; Morrow, J. R.  Chem. Eur. J. 2017, 23(61):15327-15331.
• Fe(II) and Co(II) N-methylated CYCLEN complexes as paraSHIFT agents with large temperature dependent shifts
  Tsitovich, P. B.; Tittiris, T. Y.; Cox, J. M.; Benedict, J. B.;  Morrow, J. R., Dalton Trans. 2018, 47, 916-924.
• Co(II) complexes with innersphere and outersphere water interactions for CEST MRI applications
  Abozeid, S. M.; Snyder, E. M.;  Tittiris, T. Y.; Steuerwald, C.M.;  Nazarenko, A. Y.; Morrow, J. R., Inorg. Chem. 2018, 57, 2085-2095.
• Nickel(II) complexes as paramagnetic shift and paraCEST agents
  Abozeid, S. M.; Snyder E. M.;  Lopez, A. P.; Steuerwald, C. M.; Sylvester, E.;  Ibrahim, K. M;  Zaky, R. R; Abou-El-Nadar, H. M.; Morrow, J. R. Eur. J. Inorg. Chem. 2018, 1902-1908.  
• Low Spin Fe(III) Macrocyclic Complexes of Imidazole-appended TACN as Paramagnetic Probes
  Tsitovich, P. B.;  Gendron F.; Nazarenko, A. Y.; Livesay, B. N.; Lopez, A. P.; Shores, M. P.; Autschbach, J. A.; Morrow, J. R.  Inorganic Chemistry 2018, 57, 8364-8374.

From the laboratory of Dr. Andrew Murkin

• The Nitro Group as a Masked Electrophile in Covalent Enzyme Inhibition
  Ray, S., Kreitler, D. F., Gulick, A. M., & Murkin, A. S., 2018, ACS Chemical Biology, 13(6), 1470–1473.
• The role of phosphate in a multistep enzymatic reaction: reactions of the substrate and intermediate in pieces.
  Kholodar, S. A., Allen, C. L., Gulick, A. M., & Murkin, A. S. (2015). Journal of the American Chemical Society, 137(7), 2748–2756.

From the laboratory of Dr. David Watson

• Aminoalkanoic Acids as Alternatives to Mercaptoalkanoic Acids for the Linker-Assisted Attachment of Quantum Dots to TiO2
  Natalia Rivera-González, Saurabh Chauhan, and David F. Watson, Langmuir 2016 32 (36), 9206-9215

From the laboratory of Dr. Troy Wood

• Activity of the Integrated On-line Trypsin Microreactor and Nanoelectrospray Emitter in Acetonitrile-Water Co-solvent Mixtures
  Long, Y.; Wood, T. D. Microfluid Nanofluid 2013, 15, 57-64.
• The Hunt for Biomarkers of Autism Spectrum Disorders
  Rudolph, H. L.; Friesen, W. L.; Wood, T. D. J. Metabol. Sys. Biol. 2013, 1, 11.
• Formation of Mercury(II)-Glutathione Conjugates Examined Using High Mass Accuracy Mass Spectrometry
  Fine, Z.; Wood, T. D. Int. J. Anal. Mass Spectrom. Chromatogr. 2013, 1, 90-94.
• Immobilized Pepsin Microreactor for Rapid Peptide Mapping with Nanoelectrospray Ionization Mass Spectrometry
  Long, Y.; Wood, T. D. J. Am. Soc. Mass. Spectrom. 2015, 26, 194-197.
• MS Detection of Waste in Public Swimming Facilities
  Rudolph, H. L.; Wood, T. D. Current Trends Mass Spectrom. 2015, 13, 28-32.
• Two-dimensional Graphene as a Matrix for MALDI Imaging Mass Spectrometry
  Friesen, W. L.; Schultz, B. J.; Destino, J. F.; Alivio, T. E. G.; Steet, J. R.; Banerjee, S.; Wood, T. D. J. Am. Soc. Mass. Spectrom. 2015, 26, 1963-1966.
• High Throughput Metabolic Profiling of Soybean Leaves by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry (FT-ICR MS)
  Yilmaz, A.; Rudolph, H. L.; Hurst, J. J.; Wood, T. D. Anal. Chem. 2016, 88, 1188-1194.
• Stable ¹⁸O-labeling of Stercobilin and Other Bilins for Metabolomics
  Rudolph, H. L.; Sekera, E. R.; Wood, T. D. Rapid Commun. Mass Spectrom. 2016, 30, 1469-1474.
• Depletion of Stercobilin in Fecal Matter from a Mouse Model of Autism Spectrum Disorders
  Sekera, E. R.; Rudolph, H. L.; Carro, S. D.; Morales, M. J.; Rasmusson, R. L.; Bett, G. C. L.; Wood, T. D. Metabolomics 2017, 13, 132.
• Tandem Copper and Gold Nanoclusters for Two-Color Ratiometric Explosives Detection
  Essener, J. B.; Chen, X.; Wood, T. D.; Baker, G.A. Analyst 2018, 143, 1036-1041.
• Synthesis and Characterization of Deuterium-Labeled Stercobilin: A Potential Biomarker for Autism
  Coffey, J. M.; Vadas, A. J.; Puleo, T. R.; Lewis, K. P.; Pirone, G. F.; Helms, E. D.; Wood, T. D.; Flynn-Charlebois, A. J. Labelled Compd. Radiopharm. 2018, 61, 742-748.
• Examination of the Fragmentation Behavior of Hemin and Bilin Tetrapyrroles by Electrospray Ionization and Collision-induced Dissociation
  Sekera, E. R.; Wood, T. D. Mass Spectrom. Lett. 2018, 9, 91-94.