Faculty Research: 51爆料下载, Greater Cincinnati Region

Faculty regularly receive support for undergraduate research through internally and externally funded grants, and publish numerous articles, most of which include 51爆料下载 undergraduate students as co-authors.

Explore resources below to learn about faculty research interests, funding opportunities, and additional resources to help your research run smoothly.

Dr. Charlisa Daniels, Chemistry and Biochemistry Faculty

Smart Molecules, Smarter Materials: Tracking Tiny Movements to Build Better Tech

Exploring how small molecules behave in shifting environments to engineer adaptive, high-tech materials.

Charlisa Daniels, Ph.D.

Dr. Kebede Gemene, Chemistry and Biochemistry Faculty

Tiny Sensors, Big Impact: Detecting What Matters in the Body

Creating electrochemical tools to spot key biomolecules for better health monitoring.

Kebede Gemene, Ph.D.

Dr. Michael Guy, Chemistry and Biochemistry Faculty

Cracking the Genetic Code's Fine Print: How RNA Tweaks Affect Disease

Studying subtle changes in RNA to uncover their role in conditions like cancer and developmental disorders.

Michael Guy, Ph.D.

Dr. Patrick Hare, Chemistry and Biochemistry Faculty

Light Meets Molecules: Shining a Spotlight on Environmental Chemistry

Using light and simulations to understand how pollutants and pharmaceuticals behave in nature.

Patrick Hare, Ph.D.

Dr. Isabelle Lagadic, Chemistry and Biochemistry Faculty

Tiny Materials with a Big Job: Building Smart Nanostructures for Medicine and the Environment

Designing next-gen nanomaterials for drug delivery, cleaner environments, and tougher materials.

Isabelle Lagadic, Ph.D.

Dr. Lili Ma, Chemistry and Biochemistry Faculty

Hunting for a Cure: Designing New Weapons Against Breast Cancer

Combining chemistry and computer modeling to discover promising new cancer drugs.

Lili Ma, Ph.D.

Dr. Amber Onorato, Chemistry and Biochemistry Faculty

Nature-Inspired Medicine: Crafting New Drugs from Natural Molecules

Synthesizing natural compounds to fight infections and inflammation in collaboration with biomedical research.

Amber Onorato, Ph.D.

Dr. K.C. Russell, Chemistry and Biochemistry Faculty

Molecules with a Mission: Building the Future of Nanoelectronics

Creating unusual molecules that could power tomorrow鈥檚 tiny tech like molecular wires and memory chips.

K.C. Russell, Ph.D.

Dr. Catie Shelton, Chemistry and Biochemistry Faculty

Disarming Superbugs: Targeting Enzymes in Deadly Bacteria

Studying key bacterial enzymes to develop new antibiotics and outsmart dangerous pathogens.

Catie Shelton, Ph.D.

Faculty Research Interests

Recent Projects

View abstracts and highlights from recent projects with faculty and students featured at Heather Bullen Summer Celebration of Research.

2024 | 2023 | 2022

If a faculty member's research interests you, feel free to contact them for more information.

Daniels, Charlisa

Smart Molecules, Smarter Materials: Tracking Tiny Movements to Build Better Tech

Exploring how small molecules behave in shifting environments to engineer adaptive, high-tech materials.

The Daniels group engages in a combination of physical and analytical chemistry research that utilizes Capillary Electrophoresis and Capillary Electrochromatography to measure the kinetics and dynamics of small molecules within mobile phases and the solid/liquid interface when a stationary phase is present. By focusing on external stimuli responsive polymers, this research can be used to understand how small molecules interact with adaptive materials in efforts to engineer smarter technology.

Contact Dr. Daniels

Capillary Electrophoresis Instrument Diagram

Gemene, Kebede

Tiny Sensors, Big Impact: Detecting What Matters in the Body

Creating electrochemical tools to spot key biomolecules for better health monitoring.

Research in the Gemene group utilizes analytical chemistry techniques to develop electrochemical sensors that can be used in biomedical applications. Recent interests include the measurement of biomedically important polyions (e.g., heparin, protamine) and the detection of anions (e.g., chloride, bicarbonate) in challenging physiological samples.

Contact Dr. Gemene

Electrochemical Sensor Diagram

Guy, Michael

Cracking the Genetic Code's Fine Print: How RNA Tweaks Affect Disease

Studying subtle changes in RNA to uncover their role in conditions like cancer and developmental disorders.

Research in the Guy group focuses on the role of posttranscriptional tRNA modifications in eukaryotic cells where defects are often associated with diseases such as intellectual disability and cancer. The group uses a variety of biochemical, molecular biological, and genetic techniques to study proteins and nucleic acids to discover new aspects of tRNA biology.

Contact Dr. Guy

UPLC Chromatogram Diagram

Hare, Patrick

Light Meets Molecules: Shining a Spotlight on Environmental Chemistry

Using light and simulations to understand how pollutants and pharmaceuticals behave in nature.

The Hare group uses a variety of spectroscopic and computational techniques to study how molecules and light interact. Most of Hare's research focuses on molecules of environmental interest, such as estrogens and pharmaceuticals.

Contact Dr. Hare

Molecular Energy Surface Diagram

Lagadic, Isabelle

Tiny Materials with a Big Job: Building Smart Nanostructures for Medicine and the Environment

Designing next-gen nanomaterials for drug delivery, cleaner environments, and tougher materials.

The Lagadic group deals with the development of functional hybrid organic-inorganic silicate-based nanomaterials, with 1) applications as drug delivery systems, 2) engineered polymer composites, and 3) environmental adsorbents.

Contact Dr. Lagadic

Inorganic Framework Diagram

Ma, Lili

Hunting for a Cure: Designing New Weapons Against Breast Cancer

Combining chemistry and computer modeling to discover promising new cancer drugs.

The Ma group is interested in the design and development of anticancer drug candidates with a special focus on anti-breast cancer drug discovery. A combination of modern techniques such as organic synthesis, biochemistry and computer modeling are utilized in our lab to investigate bioactive chemicals and drug molecules.

Contact Dr. Ma

Drug Synthesis Schematic Diagram

Onorato, Amber

Nature-Inspired Medicine: Crafting New Drugs from Natural Molecules

Synthesizing natural compounds to fight infections and inflammation in collaboration with biomedical research.

Research in the Onorato group encompasses organic synthesis, medicinal chemistry, and strong collaborations with biology and cardiovascular research. Our main focus is the synthesis of biologically relevant natural products and their analogues, with the long term goal of developing lead compounds for the treatment of invasive fungal infections and chronic inflammation.

Contact Dr. Onorato

Organic Reaction Scheme Diagram

Russell, K.C.

Molecules with a Mission: Building the Future of Nanoelectronics

Creating unusual molecules that could power tomorrow鈥檚 tiny tech like molecular wires and memory chips.

The Russell Group studies the synthesis and characterization of dehydroheteroarylannulenes, compounds possessing benzene rings separated by carbon-carbon triple bonds. These compounds have unusual chemical and physical properties and are expected to be very important in the design and manufacture of nanoelectronics, such as molecule size wires, logic gates, and memory storage devices.

Contact Dr. Russell

Dehydroheteroarylannulenes Diagram

Shelton, Catie

Disarming Superbugs: Targeting Enzymes in Deadly Bacteria

Studying key bacterial enzymes to develop new antibiotics and outsmart dangerous pathogens.

The Shelton Lab studies the MST family of bacterial enzymes (menaquinone, siderophore, tryptophan). The MST enzymes use chorismate (center) to generate precursors for multiple biosynthetic pathways. These enzymes are found in pathogenic organisms (Pseudomonas aeruginosa, Mycobacterium tuberculosis, and Yersinia spp.) and represent potential targets for new antibiotics. The subset of MST enzymes we study (red) perform either the isomerase reaction or both the isomerase and the lyase reactions. AroQ, the non-MST enzyme that generates prephenate, is also of interest because its mechanism provides an important comparison for the lyase-competent MST enzymes. To understand more about these enzymes and how they work we utilize X-ray crystallography, circular dichroism, and LC-MS (liquid chromatography-mass spectroscopy).

Contact Dr. Shelton

MST Enzymes Diagram

Faculty Publications

View by Year

2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | 2015 | 2014 | 2013 | 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2005 | 2004 | 2003

2023

Feltner, M.*; Hare, P. M.; Good, A.*; Foster, E. G.*; Clough, K.*; Perry, J.*; Honaker, A.*; Kyntchev, A.*; Kowalski, M.*; Curran, C. P. 鈥淒ifferential Susceptibility to Benzo[a]pyrene Exposure during Gestation and Lactation in Mice with Genetic Variations in the Aryl Hydrocarbon Receptor and Cyp1&苍产蝉辫;骋别苍别蝉,鈥�&苍产蝉辫;toxics 2023, 11, 778.

2022

Funk H.M.; DiVita D.J.*; Sizemore H.E.*; Wehrle K.*; Miller C.L.; Fraley M.E.*; Mullins, A.K.*; Guy; A.R.; Phizicky, E.M. and Guy, P.M. Identification of a Trm732 Motif Required for 2鈥�-O-methylation of the tRNA Anticodon Loop by Trm7. ACS Omega. 2022 Apr 13. DOI: 10.1021/acsomega.1c07231
Wehrle, R; Rosen^,A.;* Nguyen^,T.;* Koons, K.;* Jump, E.;* Stockfish, A. Hare, P.; Atesin, A;, Ate艧in T.A.; and Lili Ma. 鈥淚nvestigation on the Synthesis, Application and Structural Features of Heteroaryl 1,2-Diketones鈥�. ACS Omega 2022, 7, 26650鈥�26660.
Shelton, C. L.; Meneely, K. M.; Ronnebaum, T. A.; Chilton, A. S.; Riley, A. P.; Prisinzano, T. E.; Lamb, A. L. Rational inhibitor design for Pseudomonas aeruginosa salicylate adenylation enzyme PchD. JIBC Journal of Biological Inorganic Chemistry, 2022. DOI:

2021

Daniels, C.; Li, S. Y.; Iba, B.; Zhao, Y.; Kuklinski, N.; Bushey, M. M., A thermodynamic study of capillary electrochromatographic retention of aromatic hydrocarbons on a lauryl acrylate porous polymer monolithic column with measured phase ratio. J. Sep. Sci. 2021, 44 (16), 3098-3106. DOI: 10.1002/jssc.202001285
Gordon, E.; Segal, S.; Sabou, A.-K.; Gemene, K. L., Quantitative determination of dextran sulfate and pentosan polysulfate and their binding with protamine using chronopotentiometry with polyion-selective electrodes. Anal. Chim. Acta 2021, 1149, 338208.DOI: 10.1016/j.aca.2021.338208

2020

Funk, H. M.; Thomas, M.; Spigelmyer, S. M.; Sebree, N. J.; Bales, R. O.; Burchett, J. B.;Mamaril, J. B.; Guy, M. P.; Zhao, R.; Limbach, P. A., Identification of the enzymes responsible for m2,2G and acp3U formation on cytosolic tRNA from insects and plants. PLoS One 2020, 15 (11), e0242737.
Hartman, C. J.; Mester, J. C.; Cohen, A. I.; Hare, P. M., Novel inactivation of the causative fungal pathogen of white-nose syndrome with methoxsalen plus ultraviolet A or B radiation. PLoS One 2020, 15 (9), e0239001.
Soper-Hopper, M. T.; Vandegrift, J.; Baker, E. S.; Fernandez, F. M., Metabolite collision cross section prediction without energy-minimized structures. Analyst 2020, 145 (16), 5414-5418. doi: 10.1039/d0an00198h
Rosen, A.; Lindsay, K.; Quillen, A.; Nguyen, Q.; Neiser, M.; Ramirez, S.; Costan, S.; Johnson, N.; Do, T. D.; Ma, L., A microwave-assisted direct heteroarylation of ketones using transition metal catalysis. J. Visualized Exp. 2020, (156), e60441/1-e60441/8. doi: 10.3791/60441.

2019

Quillen, A.; Nguyen, Q.; Neiser, M.; Lindsay, K.; Rosen, A.; Ramirez, S.; Costan, S.; Johnson, N.; Do, T. D.; Rodriguez, O.; Rivera, D.; Atesin, A.; Atesin, T. A.; Ma, L., Palladium-Catalyzed Direct 伪-C(sp3) Heteroarylation of Ketones under Microwave Irradiation. J. Org. Chem. 2019, 84 (12), 7652-7663
Choi, W.; Villegas, V.; Istre, H.; Heppler, B.; Gonzalez, N.; Brusman, N.; Snider, L.; Hogle, E.; Tucker, J.; Onate, A.; Onate, S.; Ma, L.; Paula, S., Synthesis and characterization of CAPE derivatives as xanthine oxidase inhibitors with radical scavenging properties. Bioorg Chem 2019, 86, 686-695. DOI: 10.1016/j.bioorg.2019.02.049
Daniels, C. R.; Waguespack, B. L.; Hodges, S. A.; Bushey, M. M., Temperature effects on retention and efficiency of butyl and lauryl acrylate porous polymer monoliths in capillary electrochromatography. Journal of Separation Science 2019, 42 (24), 3703- 3711. DOI: 10.1002/jssc.20190083

2018

Han, L.; Guy, M. P.; Kon, Y.; Phizicky, E. M., Lack of 2'-O-methylation in the tRNA anticodon loop of two phylogenetically distant yeast species activates the general amino acid control pathway. PLoS Genet 2018, 14 (3), e1007288. DOI: 10.1371/journal.pgen.1007288
Russell, K. C.; Biros, S. M., The TIM Consortium: A Dispersed REU Site at Primarily Undergraduate Institutes. In Best Practices for Chemistry REU Programs, American Chemical Society: 2018; Vol. 1295, pp 59-71.
M. J. Payea; M. F. Sloma; Y. Kon; D. L. Young; M. P. Guy; X. Zhang; T. De Zoysa; S. Fields; D. H. Mathews; E. M. Phizicky 鈥淲idespread temperature sensitivity and tRNA decay due to mutations in a yeast tRNA,鈥� RNA, 2018, 24, 410-422. DOI: 10.1261/rna.064642.117
McLane, R. D.; Boyle, M. S.; Le, C.-L. L.; Lanzillotta, L.; Taylor, Z. L.; Anthony, S. R.; Tranter, M.; Onorato, A. J., Synthesis and PGE2 inhibitory activity of novel diarylheptanoids. Bioorg Med Chem Lett 2018, 28 (3), 334-338. DOI: 10.1016/j.bmcl.2017.12.046

2017

Cahill, K.; Suttmiller, R.; Oehrle, M.; Sabelhaus, A.; Gemene, K. L., Pulsed Chronopotentiometric Detection of Thrombin Activity Using Reversible Polyion Selective Electrodes. Electroanalysis 2017, 29 (2), 448-455. DOI: 10.1002/elan.201600401
I. Mohammad; J. Mun; A. J. Onorato; M. D. Morton; A. I. Saleh; M. B. Smith 鈥淭he influence of distal substitution on the base-induced isomerization of long-chain terminal alkynes,鈥� Tetrahedron Letters, 2017, 58, 4162-4165. DOI: 10.1016/j.tetlet.2017.09.026

2016

E. Hofmann*; J. Webster*; T. Do*; R. Kline*; L. Snider*; Q. Hauser*; G. Higginbottom; A. Campbell; L. Ma; S. Paula 鈥淗ydroxylated chalcones with dual properties: Xanthine oxidase inhibitors and radical scavengers,鈥� Bioorganic & Medicinal Chemistry, 2016, 24, 578-587. DOI: 10.1016/j.bmc.2015.12.024
K. L. Gemene 鈥淭he Need for Synthetic Anticoagulants/Antidotes and Simple, Inexpensive and Reliable Sensors for These Biological Polyions,鈥� Journal Research Analytical, 2016, 2, e102.
L. Survant*; M. Andrejevic; J. Picker; J. Van den Hoeck; E. Fossum; I. Lagadic 鈥淪urfaceinitiated polymerization of styrene from one-step prepared thiol-functionalized organoclays,鈥� Polyhedron, 2016, 114, 37-41. DOI: 10.1016/j.poly.2015.09.027

2015

R. Shaheen; G. M. Abdel-Salam; M. P. Guy; R. Alomar; M. S. Abdel-Hamid; H. H. Afifi; S. I. Ismail; B. A. Emam; E. M. Phizicky; F. S. Alkuraya 鈥淢utation in WDR4 impairs tRNA m(7)G46 methylation and causes a distinct form of microcephalic primordial dwarfism,鈥� Genome Biology, 2015, 16, 210. DOI: 10.1186/s13059-015-0779-x PMID: 26416026
M. P. Guy; M. Shaw; C. L. Weiner*; L. Hobson; Z. Stark; K. Rose; V. M. Kalscheuer; J. Gecz; E. M. Phizicky 鈥淒efects in tRNA Anticodon Loop 2'-O-Methylation are Implicated in Non-Syndromic X-Linked Intellectual Disability Due to Mutations in FTSJ1,鈥� Human Mutation, 2015, 36, 1176-1187. DOI: 10.1002/humu.22897 PMID: 26310293
T. Dunn*; T. Do*; Q. Hauser*; K. C. Russell; L. Ma 鈥淎 rapid one-step synthesis of isoflavanone compounds under microwave irradiation,鈥� Current Microwave Chemistry, 2015, 2, 150-158. DOI: 10.2174/2213335602666141217222452
C. A. Basinger*; K. Sullivan*; S. Siemer*; S. A. Oehrle; K. A. Walters 鈥淪ynthesis and preliminary characterization of a PPE-type polymer containing substituted fullerenes and transition metal ligation sites,鈥� Journal of Chemistry, 2015, Article ID 672654. DOI: 10.1155/2015/672654

2014

E. Amato*; T. Bankemper*; R. Kidney*; T. Do*; A. Onate*; F. S. Thowfeik; E. J. Merino; S. Paula; L. Ma 鈥淚nvestigation of fluorinated and bifunctionalized 3-phenylchroman-4-one (isoflavanone) aromatase inhibitors,鈥� Bioorganic & Medicinal Chemistry, 2014, 22, 126鈥� 134. DOI: 10.1016/j.bmc.2013.11.045

2013

E. A. Walsh*; J. R. Deye*; W. Baas*; K. Sullivan*; A. Lancaster*; K. A. Walters 鈥淪ynthesis and Spectroscopy of New Transition-Metal Fullerene Supramolecular Systems,鈥� Journal of Photochemistry and Photobiology A, 2013, 260, 24-36. DOI: 10.1016/j.jphotochem.2013.03.006
R. Hemmer*; A. Hall*; R. Spaulding*; B. Rossow*; M. Hester*; M. Caroway*; A. Haskamp*; S. Wall*; H. A. Bullen; C. A. Morris; K. L. Haik 鈥淎nalysis of BiotinylatedGeneration 4 Poly(amidoamine) (PAMAM) Dendrimer Distribution in the Rat Brain andToxicity in a Cellular Model of the Blood-Brain Barrier,鈥� Molecules, 2013, 18, 11537-11552. DOI: 10.3390/molecules180911537
K. Y. Chan*; B. Courtois*; K. Loose*; Hare, P. M. 鈥淪olvent dependent fluorescence lifetimes of estrone, 17尾-estradiol, and 17伪-ethinylestradiol,鈥� Photochemistry and Photobiology, 2013, 2, 294-299. DOI: 10.1111/php.12011

2012

K. L. Gemene; M. E. Meyerhoff 鈥淪electivity enhancement for chloride ion by In(III)- porphyrin-based polymeric membrane electrode operated in pulsed chronopotentiometric mode,鈥� Electroanalysis, 2012, 24, 643-648. DOI: 10.1002/elan.201200021
K. Y. Chan*; B. M. Gavaghan*; A. W. Stoeckel*; K. Irizarry*; P. M. Hare 鈥淪olvent effects on the steady state photophysics of estrone and 17尾-estradiol,鈥� Photochemistry and Photobiology, 2012, 88, 295-303. DOI: 10.1111/j.1751-1097.2011.01066.x
C. H. Schein; D. Chen; L. Ma; J. J. Kanalas; J. Gao; M. E. Jimenez; L. E. Sower; M. A. Walter; S. R. Gilbertson; J. W. Peterson 鈥淧harmacophore Selection and Redesign of Nonnucleotide Inhibitors of Anthrax Edema Factor,鈥� Toxins, 2012, 4, 1288-1300. DOI: 10.3390/toxins4111288
D. Chen; L. Ma; J. J. Kanalas; J. Gao; J. Pawlik; M. E. Jimenez; M. A. Walter; J. W. Peterson; S. R. Gilbertson; C. H. Schein 鈥淪tructure-based redesign of an edema toxin inhibitor,鈥� Bioorganic & Medicinal Chemistry, 2012, 20, 368-376. DOI: 10.1016/j.bmc.2011.10.091
K. Bonfield*; E. Amato*; A. Bankemper*; H. Agard*; J. Steller*; J. Keeler*; D. Roy*; A. McCallum*; S. Paula; L. Ma 鈥淒evelopment of a new class of aromatase inhibitors: design, synthesis and inhibitory activity of 3-phenylchroman-4-one (isoflavanone) derivatives,鈥� Bioorganic and Medicinal Chemistry, 2012, 20, 2603-2613. DOI: 10.1016/j.bmc.2012.02.042
C. A. Cason*; T. A. Fabre*; A. Buhrlage; K. L. Haik; H. A. Bullen 鈥淟ow-level Detection of poly(amidoamine) PAMAM Dendrimers using lmmunoimaging Scanning Probe Microscopy,鈥� International Journal of Analytical Chemistry, 2012, 2012. 1-8. Article ID 341260. DOI: 10.1155/2012/341260
H. A. Bullen 鈥淪tudent-driven independent research projects: developing a framework for success in analytical chemistry,鈥� Analytical and Bioanalytical Chemistry, 2012, 404, 927- 930. DOI: 10.1007/s00216-012-6153-x

2011

C. Elam*; M. Lape*; J. Deye*; J. Zultowsky; D. Stanton; S. Paula 鈥淒iscovery of novel SERCA inhibitors by virtual screening of a large compound library,鈥� European Journal of Medicinal Chemistry, 2011, 46, 1512-1523. DOI: 10.1016/j.ejmech.2011.01.069 PMID: 21353727
H. A. Bullen; R. Hemmer; A. Haskamp*; C. Cason*; S. Wall*; R. Spaulding*; B. Rossow*; M. Hester*; M. Caroway*; K. L. Haik 鈥淓valuation of Biotinylated PAMAM Dendrimer Toxicity in Models of the Blood Brain Barrier: A Biophysical and Cellular Approach,鈥� Journal of Biomaterials and Nanobiotechnology, 2011, 2, 485-493. [Invited Special Issue: Recent Advances in Drug Delivery Systems] DOI: 10.4236/jbnb.2011.225059
C. Larive; T. Wenzel; H. A. Bullen; R. S. Kelly; A. Fitch; A. Cavinato; E. Gross 鈥淓nvironmental Analysis: Lake Nakuru Flamingos,鈥� Journal of the Analytical Sciences Digital Library, 2011. ()
K. Haik; H. A Bullen 鈥淎 Risky Proposition? Undergraduate Research with Low-Income, First-Generation, Underrepresented STEM Students,鈥� CUR Quarterly, 2011, Spring.
J. N. Richardson; A. L. Drake*; C. E. Lazo-Miller*; D. W. Wolfe*; J. Hand*; T. Morgan*; I. L. Lagadic 鈥淟ead Detection in Environmental Water using an Organoclay Film-based
Attenuated Total Reflectance Sensor,鈥� Sensors & Actuators B, 2011, 158, 271-277. DOI: 10.1016/j.snb.2011.06.018

2010

P. M. Hare; E. A. Price; C. M. Stanisky; I. Janik; D. M. Bartels 鈥淪olvated electron extinction coefficient and oscillator strength in high temperature water,鈥� Journal of Physical Chemistry A, 2010, 114, 1766. DOI: 10.1021/jp909789b
M. Lape*; C. Elam*; S. Paula 鈥淐omparison of current docking tools for the simulation of inhibitor binding by the transmembrane domain of the sarco/endoplasmic reticulum calcium ATPase,鈥� Biophysical Chemistry, 2010, 150, 88-97. DOI: 10.1016/j.bpc.2010.01.011 PMID: 20167416
M. Lape*; S. Paula; W. J. Ball, Jr. 鈥淎 molecular model for cocaine binding by the immunotherapeutic human/mouse chimeric monoclonal antibody 2E2,鈥� European Journal of Medicinal Chemistry, 2010, 45, 2291-2298. DOI: 10.1016/j.ejmech.2010.02.004 PMID: 20185210
K. Haik; H. A. Bullen 鈥淯ndergraduate Research at the Intersection of Disciplines: Challenges and Solutions to Research Issues at the Interface of Biology and Chemistry at Northem Kentucky University (51爆料下载),鈥� CUR Quarterly, 2010, Winter.
H. J. Gulley-Stahl*; P.A. Hogan II*; W. L. Schmidt*; S. J. Wall*; A. Buhrlage*; H. A. Bullen 鈥淪urface Complexation of Catechol to Metal Oxides: An ATR-FTIR, Adsorption, and Dissolution Study,鈥� Environmental Science & Technology, 2010, 44, 4166-4121. DOI: 10.1021/es902040u
E. D. Banks*; N. M. Taylor*; J. Gulley; B. R. Lubbers; J. G. Giarrizo; H. A. Bullen; T . M. Hoehler; H. A. Barton 鈥淏acterial Calcium Carbonate Precipitation in Cave Environments: A Function of Calcium Homeostasis,鈥� Geomicrobiology Journal, 2010, 27, 444-454. DOI: 10.1080/01490450903485136

2009

S. Paula; J. Abell*; J. Deye*; C. Elam*; M. Lape*; J. Purnell*; R. Ratliff*; K. Sebastian*; J. Zultowsky; R. J. Kempton 鈥淒esign, synthesis, and biological evaluation of hydroquinone derivatives as novel inhibitors of the sarco/endoplasmic reticulum calcium ATPase,鈥� Bioorganic and Medicinal Chemistry, 2009, 17, 6613-6619. DOI: 10.1016/j.bmc.2009.07.075 PMID: 19699645
J. Deye*; C. Elam*; M. Lape*; R. Ratliff*; K. Evans*; S. Paula 鈥淪tructure-based virtual screening for novel inhibitors of the sarco/endoplasmic reticulum calcium ATPase and their experimental evaluation,鈥� Bioorganic and Medicinal Chemistry, 2009, 17, 1353- 1360. DOI: 10.1016/j.bmc.2008.12.010 PMID: 19117760

2008

C. A. Cason*; S. A. Oehrle; T. A. Fabr茅*; C. D. Girten*; K. A. Walters; D. A. Tomalia; K. H. Martines; H. A. Bullen 鈥淚mproved Methodology for Monitoring Poly(amidoamine) Dendrimers Surface Transformations and Product Quality by Ultra Performance Liquid Chromatography,鈥� Journal of Nanomaterials, 2008, Article ID 456082. DOI: 10.1155/2008/456082
M. G. Lauer*; J. W. Leslie*; A. Mynar*; S. A. Stamper*; A. D. Martinez*; A. J. Bray*; S. Negassi*; K. McDonald*; E. Ferraris*; A. Muzny*; S. McAvoy*; E. Wang; B. Nuez; C. Parish; K. A. Walters; K. C. Russell 鈥淪ynthesis, Spectroscopy, and Theoretical Calculations for a Series of Push-Pull [14]-pyridoannulenes,鈥� Journal of Organic Chemistry, 2008, 73, 474-484. DOI: 10.1021/jo7019724
J. R. Deye*; A. N. Shiveley*; S. A. Oehrle; K. A. Walters 鈥淪eparation of Substituted Fullerenes using Normal-Phase HPLC-MS,鈥� Journal of Chromatography A, 2008, 1181, 159-161. DOI: 10.1021/ic7018555
H. A. Bullen; K. A. Walters 鈥淒evelopment of a Nanomaterials One-Week Intersession Course,鈥� Journal of Chemical Education, 2008, 85, 1406-1409. DOI: 10.1021/ed085p1406
J. R. Deye*; A. N. Shiveley*; S. M. Goins*; L. Rizzo*; S. A. Oehrle; K. A. Walters 鈥淪ynthesis of a New Ligand for Transition-Metal Fullerene Supramolecular Systems,鈥� Inorganic Chemistry, 2008, 47, 23-25. DOI: 10.1016/j.chroma.2007.12.052
M. Lape*; C. Elam*; M. Versluis*; R. Kempton; S. Paula 鈥淢olecular determinants of sarco/ endoplasmic reticulum calcium ATPase inhibition by hydroquinone-based compounds,鈥� Proteins: Structure, Function, and Bioinformatics, 2008, 70, 639-649. DOI: 10.1002/prot.21542 PMID: 17879345
H. J. Gulley-Stahl*; W. L. Schmidt*; H. A. Bullen 鈥淐haracterization and Reactivity of Chromia Nanoparticles prepared by Urea Forced Hydrolysis,鈥� Journal of Material Science, 2008, 43, 7066-7072. DOI: 10.1007/s10853-008-3056-5
C. Morris*; B. J. Sieve; H. A. Bullen 鈥淓-Learning Module: Introduction to X-ray Diffraction,鈥� Journal of the Analytical Science Digital Library, 2008, Article ID 100047.http://www.asdlib.org/onlineArticles/ecourseware/Bullen_XRD/XRDModule_index.htm
J. Nordling; R. L. Millen; H. A. Bullen; M. Tondra; M. Granger; M. D. Porter 鈥淕iant Magnetoresistance Sensors: 1. Internally Calibrated Readout of Scanned Magnetic Arrays,鈥� Analytical Chemistry, 2008, 80, 7930-7939. DOI: 10.1021/ac8009577
R. L. Millen; J. Nordling; H. A. Bullen; M. Tondra; M. Granger; M. D. Porter 鈥淕iant Magnetoresistive Sensors: 2. Detection of Biorecognition vents at Self-Referencing and Magnetically Tagged Arrays,鈥� Analytical Chemistry, 2008, 80, 7940-7946. DOI: 10.1021/ac800967t
H. A. Bullen; S. A. Oehrle; A. F. Bennett*; N. M. Taylor*; H. A. Barton 鈥淭he Use of Attenuated Total Reflectance Fourier Transformed Infrared (ATR-FTIR) Spectroscopy to Identify Microbial Metabolic Products on Carbonate Mineral Surfaces,鈥� Applications in Environmental Microbiology, 2008, 74, 4553. DOI: 10.1128/AEM.02936-07

2007

J. H. Niewahner; K. A. Walters 鈥淟aboratory Instruction of an Experiment Using a Glove Box: Synthesis of Bis(1,2-dimethylimidazole)copper(I) hexafluorophosphate,鈥� Journal of Chemical Education, 2007, 84, 702-703. DOI: 10.1021/ed084p702
J. H. Niewahner; K. A. Walters; A. Wagner* 鈥淚mproved Synthesis of Geodken鈥檚 Macrocycle and the Synthesis of its Dichloride Salt,鈥� Journal of Chemical Education, 2007, 84, 477-479. DOI: 10.1021/ed084p477
J. R. Deye*; K. A. Walters 鈥淧hotoluminescence and Electroluminescence, Solid State,鈥� in Application of Physical Methods to Inorganic and Bioinorganic Chemistry, R. A. Scott and C. M. Lukehart (Editors), John Wiley & Sons, 2007, 461-468.
D. Stanton; J. Ankenbauer*; D. Rothgeb*; M. Draper*; S. Paula 鈥淚dentification and characterization of novel sodium/potassium-ATPase inhibitors by virtual screening of a compound database,鈥� Bioorganic and Medicinal Chemistry, 2007, 15, 6062-6070. DOI: 10.1016/j.bmc.2007.06.050 PMID: 17618121
R. A. Wilson*; H. A. Bullen 鈥淟earning Module: Introduction to Scanning Probe Microscopy,鈥� Journal of the Analytical Sciences Digital Library, 2007, Article ID 100043. ()
H. A. Bullen 鈥淭eaching surface characterization to undergraduates,鈥� Analytical and Bioanalytical Chemistry, 2007, 387, 1579-1581. DOI: 10.1007/s00216-006-1096-8

2005

S. M. Keenan; R. K. Delisle; W. J. Ball; S. Paula; W. J. Welsh 鈥淓lucidation of the Na+, K+- ATPase digitalis binding site,鈥� Journal of Molecular Graphics and Modeling, 2005, 23, 465-475. DOI: 10.1016/j.jmgm.2005.02.001 PMID: 15886034
S. Paula; M. R. Tabet; W. J. Ball, Jr. 鈥淚nteractions between cardiac glycosides and sodium/ potassium-ATPase: 3D structure-activity relationship models for ligand binding to the E2-Pi form of the enzyme versus activity inhibition,鈥� Biochemistry, 2005, 44, 498- 510. DOI: 10.1021/bi048680w PMID: 15641774
M. E. Bardgett; P. J. Schultheis, P. J.; D. L. McGill; R. E. Richmond; J. R. Wagge* 鈥淢agnesium deficiency impairs fear conditioning in mice,鈥� Brain Research, 2005, 1038, 100-106.DOI: 10.1016/j.brainres.2005.01.020
E. Ferraris*; D. L. McGill 鈥淪tudies of an Engineered H+,K+ ATPase/Na+K+ATPase Chimeric Enzyme Expressed in HeLa Cells,鈥� Norse Scientist, 2005, 3, 35-40.

2004

P. J. Schulthies; T. J. Hagen; K. K. O'Toole*; A. Tachibana; C. R. Burke*; D. L. McGill; G. W. Okunade; G. E. Shull 鈥淐haracterization of the P5 subfamily of P-type transport ATPases in mice,鈥� Biochemical Biophysical Research Communications, 2004, 323, 731- 738. DOI: 10.1016/j.bbrc.2004.08.156 D. L. McGill 鈥淒ouble-Dipping as a Means of Creating Research Time,鈥� CUR Quarterly, 2004, 24, 176.

2003

K. A. Walters; Y. J. Kim; J. T. Hupp 鈥淢anipulation of the Distance of Light-Induced Electron Transfer Within a Semi-Rigid Donor(Amine)/Acceptor(Terpyridine) Assembly via Complexation of Di-positive and Tri-positive Metal Ions,鈥� Journal of Electroanalytical Chemistry, 2003, 554-555, 449-458. DOI: 10.1016/S0022-0728(03)00315-2
K. A. Walters 鈥淪tark Spectroscopy,鈥� in Comprehensive Coordination Chemistry II, T. J. Meyer and J. A. McCleverty (Editors), Eleviser, 2003, Volume 2, 303-313.

Funding Opportunities

Internal Funding

51爆料下载's CINSAM provides the following opportunties for 51爆料下载 faculty to obtain research funding:

UR-STEM

Each year, the Undergraduate Research in STEM (UR-STEM) program requests proposals to fund students in research projects either underway, or new projects appropriate for novice students.

Many faculty members have had success adding a UR-STEM student to their existing research team. Students that participate in this program have been retained at significantly higher levels than those who do not participate.

CINSAM Research Grants

Each year, CINSAM seeks proposals CINSAM Research Grants, which provides support for STEM faculty research with students. The goals of the program are to:

help faculty establish new research programs,
promote faculty advancement (especially early-career faculty), and
offer students high-quality research experiences.

External Funding

Over the last decade, research faculty have received over three million dollars in externally funded grants from agencies, including (but not limited to):

Additional Resources for 51爆料下载 STEM Faculty/Staff

Request technical support for:

Research Poster Printing
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Lab Equipment

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Science Center

IT Assistance
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Reserve Chemistry Instruments

Visit the Instrument Schedules webpage to reserve equipment needed for class and research projects.