Publications_zotero
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Total publications: 76
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Sivaguru, J
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Lewis, B., Lakshmy Kannadi Valloli, Manal, K. & Sivaguru, Jayarman. Student presentation: Optimizing photoreaction of cyclic enaminones for uncovering new photochemical reactions. (Poster presentation by Brieanna Lewis, July 12, 2022). in (2022). Cite
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Lakhsmy Kannadi Valloli, Kandappa, S., Mannal, K. & Sivaguru, Jayarman. Student presentation: Exploiting excited state processes to uncover new photochemical reactivity by changing the course of the De Mayo reaction. (Oral presentation by Kannadi Valloli, L Baburaj, July 12, 2022). in (2022). Cite
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Lewis, B., Lakshmy Kannadi Valloli, Manal, K. & Sivaguru, Jayarman. Student presentation: Optimizing photoreaction of cyclic enaminones for uncovering new photochemical reactions. (Poster presentation by Brieanna Lewis, July 12, 2022). in (2022). Cite
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Mallik N, Baburaj, S. & Sivaguru, Jayarman. Student presentation: Utilizing novel photocatalyst for [4+2] photodimerization (Poster presentation by Niharika Mallik, July 11, 2022). in (2022). Cite
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Kannadi, Valloli. L., Kandappa, S., Jockusch, S. & Sivaguru, J. Student presentation: Exploiting excited state processes to uncover new photochemical reactivity by changing the course of the De Mayo reaction. (Poster Presented by Kannadi, Valloli., July 18, 2022). in (2022). Cite
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Lakhsmy Kannadi Valloli & Sivaguru, Jayarman. Student presentation: Exploiting Excited State Processes to Uncover New Photochemical Reactivity (presentation by Lakshmy Kannadi Valloli, April 8, 2022). in (2022). Cite
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Lewis, B., Lakshmy Kannadi Valloli, Manal, K. & Sivaguru, Jayarman. Student presentation: Optimizing photoreaction of cyclic enaminones for uncovering new photochemical reactions. (Poster presentation by Brieanna Lewis, July 12, 2022). in (2022). Cite
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Lakhsmy Kannadi Valloli & Sivaguru, Jayarman. Student presentation: Exploiting Excited State Processes to Uncover New Photochemical Reactivity (presentation by Lakshmy Kannadi Valloli, April 8, 2022). in (2022). Cite
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Bradshaw, B. Student presentation - “Evaluating Excited State Reactivity of Indoles’’ parents involvement with children nurturing intellectual curiosity in science (PICNICS) presentation, Bowling Green, OH August 13, 2021. (Poster presentation by Brie Bradshaw on August 13, 2021. in (2021). Cite
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Sivaguru, J. Lighting Up New Reaction Pathways: Channeling New Excited State Processes Towards Productive Chemical Pathways. in (2021). Cite
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Sivaguru, J. Exploring new photoreactivity through rational molecular design (Talk by J. Sivaguru, July 22, 2022). in (2022). Cite
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Sivaguru, J. Building Privileged Molecular Skeletons with Light (Virtural seminar Presented by J. Sivaguru). in (2022). Cite
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Sivaguru, J. RadTech Award presentation – Nature’s Creation for Curing (Virtually presented by Jayaraman Sivaguru, Apr 28, 2021). in (2021). Cite
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Sivaguru, J. Lighting Up New Reaction Pathways – A Journey Towards Developing New Excited State Processes In Molecules And Materials (Honda-Fujishima Lectureship award Lecture by J. Sivaguru on September 15, 2021). in (2021). Cite
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Sivaguru, J. Designing chromophores to uncover novel excited state reactivity (Virtual talk Presented by J. Sivaguru on Dec 16, 2021). in (2021). Cite
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Sivaguru, J. Enforcing molecular behavior to uncover new excited state reactivity (keynote lecture (Virtual) by Jayaraman Sivaguru on Oct 13, 2020). in (2020). Cite
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Sivaguru, J. Uncovering new light driven transformations through rational design of chromophores (Plenary talk by Jayaraman Sivaguru on Aug 22, 2020). in (2020). Cite
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Sivaguru, J. Uncovering New Excited State Reactivity Through Rationale Design of Molecules (Virtual talk, May 5, 2022; Presented by J. Sivaguru). in (2022). Cite
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Sivaguru, J. Designing chromophores to uncover novel excited state reactivity. in (2019). Cite
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Shailaja, J. ; S., J. ;. Ramamurthy, V. Asymmetric photoreactions inside zeolites. in (2000). Cite
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Sivaguru, J. ; R., V. Asymmetric photoreaction of 2,3-diphenylcyclopropane-1-carboxylic acid derivatives inside zeolites. in (2001). Cite
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Lakshminarasimhan, P. H. ; S., J. ;. Kaanumalle, L. S. ;. Ramamurthy, V. Control of Photochemical Reactions Via Confinement And Cation-Organic Interactions: Photoisomerization of 1,2-diphenylcyclopropanes. in (2001). Cite
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Sivaguru, J. ; S., T. ;. Yoshimi, Y. ;. Scheffer, J. R. ;. Ramamurthy, V. Asymmetric photoreaction of 2,3-diphenylcyclopropane-1-benzoylcyclopropane derivatives inside zeolites. in Presentation (2001). Cite
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Sivaguru, J. ; R., V. Stereoselective Photoisomerization of Diphenylcyclopropane Derivatives. A Study In Isotropic And Organized media. in (2003). Cite
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Franz, R. ; P., T. ;. Sivaguru, J. ;. Jockusch, S. ;. Turro, N. J. ,. Adam, W. Mechanistic insights into the diastereoselective photooxidation of enecarbamates. in (2005). Cite
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Sivaguru, J. ; R., V. Asymmetric Photoreaction in Isotropic and organized media. Photochemistry of Diphenylcyclopropane Derivatives. in (2003). Cite
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Chin, V. C. ; K., K. ;. Sivaguru, J. ;. Turro, N. J. ,. Flynn, G. Scanning tunneling microscopy: A tool to identify the chirality of absorbed molecules on graphite. in (2005). Cite
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Hooper, C. ; P., T. ;. Franz, R. ;. Sivaguru, J. ;. Jockusch, S. ;. Turro, N. J. ;. Adam, W. Mechanistic insight on the stereoselective photooxidation of enecarbamates using PTAD, a singlet oxygen analog. in (2005). Cite
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Ayitou, A. J. ; S., J. Imprinting Molecular Chirality in Light Induced Transformations. in (2007). Cite
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Wobbemma, A. ; A., A. J. ;. Sivaguru, J. Imprinting Molecular Chirality in Light Induced Transformations. in (2007). Cite
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Ayitou, A. J. ; B., N. ;. Pemberton, B. C. ;. Sivaguru, J. Controlling Photochemistry in Solution and in Water Soluble Nano-Containers. in (2008). Cite
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Barooah, N. ; S., J. Controlling Photoreactivity of Coumarins in Water Soluble Nano-Cavities. in (2008). Cite
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Ayitou, A. J. ; S., J. Molecular Chiral Transfer: 6π-photocyclizaton of acrylanilides. in (2009). Cite
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Pemberton, B. C. ; B., N. ;. Johnson, A. C. ;. Sivaguru, J. Photodimerization and Dynamics of Coumarin Derivatives in Water Soluble Cucurbit[8]uril Nanocavities. in (2009). Cite
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Ayitou, A. J. ; S., J. Photophysics & Photochemistry of Molecularly Chiral α-Substituted Acrylanilides. in (2010). Cite
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Ayitou, A. J. ; J., J. L. ;. Sivaguru, J. Enantiospecific Photochemical Transformations in Solution. in (2009). Cite
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Ayitou, A. J. ; S., J. Enantiospecific Photochemical Transformations and Photophysics of Molecularly Chiral Acrylanilides”. in (2010). Cite
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Pemberton, B. C. ; S., J. Supramolecular Photocatalysis by Nano-encapsulation. in (2010). Cite
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Ayitou, A. J. ; S., J. Enantiospecific Chiral Transfer: Role of Reaction Media, Reactive Spin States and Heavy Atom(s) in the 6π-Photocyclization of Axially Chiral Acrylanilides. in (2011). Cite
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Sivaguru, J. Selective Light Induced Reactions in Solution and in Water Soluble Nano-containers. in (2010). Cite
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Ayitou, A. J. ; S., J. Light Induced Enantiospecific 6π-Photocyclization of Axially Chiral Acrylanilides in the Solid State. in (2011). Cite
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Ayitou, A. J. ; S., J. Heavy Atom(s) Induced Enantiospecific 6π-Photocyclization of Molecularly Chiral Acrylanilides. in (2011). Cite
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Kumarasamy, E. ; S., J. Light induced enantiospecific [4π]-ring closure of molecularly chiral-2-pyridones. in (2011). Cite
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Ayitou, A. J. ; S., J. Heavy Atom(s) Induced Enantiospecific Chiral Transfer: 6π-Photocyclization of Axially Chiral a-Substituted Acrylanilides. in (2011). Cite
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Kumarasamy, E. ; S., J. Light induced enantiospecific [4π]-ring closure of molecularly chiral-2-pyridones. in (2011). Cite
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Pemberton, B. C. ; S., J. Insights into Photocatalysis: Turning Nanocavities Into Photocatalysts. in (2011). Cite
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Pemberton, B. C. ; S., J. Turning Nanocavities Into Photocatalysts Quebec. in (2011). Cite
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Sivaguru, J. From cavity to catalyst: supramolecular photocatalysis within cucurbiturils. in (2011). Cite
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Pemberton, B. C. ; S., J. Supramolecular Photocatalysis: Mechanism Studies of Cucurbit[8]uril Facilitating the [2+2] Photodimerization of 6-methylcoumarin. in (2011). Cite