Your search keyword '"Mikhailovsky, Alexander"' showing total 11 results

1. Molecular Origins of Near-Infrared Luminescence in Molybdenum and Tungsten Oxyhalide Perovskites

Author

Morgan, Emily E, Morgan, Emily E, Brumberg, Alexandra, Panuganti, Shobhana, Kent, Greggory T, Zohar, Arava, Mikhailovsky, Alexander A, Kanatzidis, Mercouri G, Schaller, Richard D, Chabinyc, Michael L, Cheetham, Anthony K, Seshadri, Ram, Morgan, Emily E, Morgan, Emily E, Brumberg, Alexandra, Panuganti, Shobhana, Kent, Greggory T, Zohar, Arava, Mikhailovsky, Alexander A, Kanatzidis, Mercouri G, Schaller, Richard D, Chabinyc, Michael L, Cheetham, Anthony K, and Seshadri, Ram

Published

2024

2. Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM.

Author

Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, Ford, Peter C, Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, and Ford, Peter C

Abstract

Multiphoton excitation allows one to access high energy excited states and perform valuable tasks in biological systems using tissue penetrating near-infrared (NIR) light. Here, we describe new photoactive manganese tricarbonyl complexes incorporating the ligand 4'-p-N,N-bis(2-hydroxyethyl)amino-benzyl-2,2':6',2″-terpyridine (TPYOH), which can serve as an antenna for two photon NIR excitation. Solutions of Mn(CO)3(TPYOH)X (X = Br- or CF3SO3-) complexes are very photoactive toward CO release under visible light excitation (405 nm, 451 nm). The same responses were also triggered by multiphoton excitation at 750 and 800 nm. In this context, we discuss the potential applications of these complexes as visible/NIR light photoactivated carbon monoxide releasing moieties (photoCORMs). We also report the isolation and crystal structures of the TPYOH complexes Mn(TPYOH)Cl2 and [Mn(TPYOH)2](CF3SO3)2, to illustrate a possible photolysis product(s).

Published

2019

3. Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM.

Author

Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, Ford, Peter C, Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, and Ford, Peter C

Abstract

Multiphoton excitation allows one to access high energy excited states and perform valuable tasks in biological systems using tissue penetrating near-infrared (NIR) light. Here, we describe new photoactive manganese tricarbonyl complexes incorporating the ligand 4'-p-N,N-bis(2-hydroxyethyl)amino-benzyl-2,2':6',2″-terpyridine (TPYOH), which can serve as an antenna for two photon NIR excitation. Solutions of Mn(CO)3(TPYOH)X (X = Br- or CF3SO3-) complexes are very photoactive toward CO release under visible light excitation (405 nm, 451 nm). The same responses were also triggered by multiphoton excitation at 750 and 800 nm. In this context, we discuss the potential applications of these complexes as visible/NIR light photoactivated carbon monoxide releasing moieties (photoCORMs). We also report the isolation and crystal structures of the TPYOH complexes Mn(TPYOH)Cl2 and [Mn(TPYOH)2](CF3SO3)2, to illustrate a possible photolysis product(s).

Published

2019

4. Near-Infrared and Visible Photoactivation to Uncage Carbon Monoxide from an Aqueous-Soluble PhotoCORM.

Author

Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, Ford, Peter C, Jiang, Qin, Jiang, Qin, Xia, Yingzi, Barrett, Jacob, Mikhailovsky, Alexander, Wu, Guang, Wang, Daqi, Shi, Pengfei, and Ford, Peter C

Abstract

Multiphoton excitation allows one to access high energy excited states and perform valuable tasks in biological systems using tissue penetrating near-infrared (NIR) light. Here, we describe new photoactive manganese tricarbonyl complexes incorporating the ligand 4'-p-N,N-bis(2-hydroxyethyl)amino-benzyl-2,2':6',2″-terpyridine (TPYOH), which can serve as an antenna for two photon NIR excitation. Solutions of Mn(CO)3(TPYOH)X (X = Br- or CF3SO3-) complexes are very photoactive toward CO release under visible light excitation (405 nm, 451 nm). The same responses were also triggered by multiphoton excitation at 750 and 800 nm. In this context, we discuss the potential applications of these complexes as visible/NIR light photoactivated carbon monoxide releasing moieties (photoCORMs). We also report the isolation and crystal structures of the TPYOH complexes Mn(TPYOH)Cl2 and [Mn(TPYOH)2](CF3SO3)2, to illustrate a possible photolysis product(s).

Published

2019

5. Photoreactivity of a quantum dot-ruthenium nitrosyl conjugate.

Author

Franco, Lilian Pereira, Franco, Lilian Pereira, Cicillini, Simone Aparecida, Biazzotto, Juliana Cristina, Schiavon, Marco A, Mikhailovsky, Alexander, Burks, Peter, Garcia, John, Ford, Peter C, da Silva, Roberto Santana, Franco, Lilian Pereira, Franco, Lilian Pereira, Cicillini, Simone Aparecida, Biazzotto, Juliana Cristina, Schiavon, Marco A, Mikhailovsky, Alexander, Burks, Peter, Garcia, John, Ford, Peter C, and da Silva, Roberto Santana

Abstract

We describe the use of cadmium telluride quantum dots (CdTe QDs) as antennas for the photosensitization of nitric oxide release from a ruthenium nitrosyl complex with visible light excitation. The CdTe QDs were capped with mercaptopropionic acid to make them water-soluble, and the ruthenium nitrosyl complex was cis-[Ru(NO)(4-ampy)(bpy)2](3+) (Ru-NO; bpy is 2,2'-bipyridine, and 4-ampy is 4-aminopyridine). Solutions of these two components demonstrated concentration-dependent quenching of the QD photoluminescence (PL) as well as photoinduced release of NO from Ru-NO when irradiated by 530 nm light. A NO release enhancement of ∼8 times resulting from this association was observed under longer wavelength excitation in visible light range. The dynamics of the quenching determined by both PL and transient absorption measurements were probed by ultrafast flash photolysis. A charge transfer mechanism is proposed to explain the quenching of the QD excited states as well as the photosensitized release of NO from Ru-NO.

Published

2014

6. Photoreactivity of a quantum dot-ruthenium nitrosyl conjugate.

Author

Franco, Lilian Pereira, Franco, Lilian Pereira, Cicillini, Simone Aparecida, Biazzotto, Juliana Cristina, Schiavon, Marco A, Mikhailovsky, Alexander, Burks, Peter, Garcia, John, Ford, Peter C, da Silva, Roberto Santana, Franco, Lilian Pereira, Franco, Lilian Pereira, Cicillini, Simone Aparecida, Biazzotto, Juliana Cristina, Schiavon, Marco A, Mikhailovsky, Alexander, Burks, Peter, Garcia, John, Ford, Peter C, and da Silva, Roberto Santana

Abstract

We describe the use of cadmium telluride quantum dots (CdTe QDs) as antennas for the photosensitization of nitric oxide release from a ruthenium nitrosyl complex with visible light excitation. The CdTe QDs were capped with mercaptopropionic acid to make them water-soluble, and the ruthenium nitrosyl complex was cis-[Ru(NO)(4-ampy)(bpy)2](3+) (Ru-NO; bpy is 2,2'-bipyridine, and 4-ampy is 4-aminopyridine). Solutions of these two components demonstrated concentration-dependent quenching of the QD photoluminescence (PL) as well as photoinduced release of NO from Ru-NO when irradiated by 530 nm light. A NO release enhancement of ∼8 times resulting from this association was observed under longer wavelength excitation in visible light range. The dynamics of the quenching determined by both PL and transient absorption measurements were probed by ultrafast flash photolysis. A charge transfer mechanism is proposed to explain the quenching of the QD excited states as well as the photosensitized release of NO from Ru-NO.

Published

2014

7. Nitric oxide releasing materials triggered by near-infrared excitation through tissue filters.

Author

Burks, Peter T, Burks, Peter T, Garcia, John V, GonzalezIrias, Ricardo, Tillman, Jason T, Niu, Mutong, Mikhailovsky, Alexander A, Zhang, Jinping, Zhang, Fan, Ford, Peter C, Burks, Peter T, Burks, Peter T, Garcia, John V, GonzalezIrias, Ricardo, Tillman, Jason T, Niu, Mutong, Mikhailovsky, Alexander A, Zhang, Jinping, Zhang, Fan, and Ford, Peter C

Abstract

Novel materials for the phototherapeutic release of the bioregulator nitric oxide (nitrogen monoxide) are described. Also reported is a method for scanning these materials with a focused NIR beam to induce photouncaging while minimizing damage from local heating. The new materials consist of poly(dimethylsiloxane) composites with near-infrared-to-visible upconverting nanoparticles (UCNPs) that are cast into a biocompatible polymer disk (PD). These PDs are then impregnated with the photochemical nitric oxide precursor Roussin's black salt (RBS) to give UCNP_RBS_PD devices that generate NO when irradiated with 980 nm light. When the UCNP_RBS_PD composites were irradiated with NIR light through filters composed of porcine tissue, physiologically relevant NO concentrations were released, thus demonstrating the potential of such devices for minimally invasive phototherapeutic applications.

Published

2013

8. Nitric oxide releasing materials triggered by near-infrared excitation through tissue filters.

Author

Burks, Peter T, Burks, Peter T, Garcia, John V, GonzalezIrias, Ricardo, Tillman, Jason T, Niu, Mutong, Mikhailovsky, Alexander A, Zhang, Jinping, Zhang, Fan, Ford, Peter C, Burks, Peter T, Burks, Peter T, Garcia, John V, GonzalezIrias, Ricardo, Tillman, Jason T, Niu, Mutong, Mikhailovsky, Alexander A, Zhang, Jinping, Zhang, Fan, and Ford, Peter C

Abstract

Novel materials for the phototherapeutic release of the bioregulator nitric oxide (nitrogen monoxide) are described. Also reported is a method for scanning these materials with a focused NIR beam to induce photouncaging while minimizing damage from local heating. The new materials consist of poly(dimethylsiloxane) composites with near-infrared-to-visible upconverting nanoparticles (UCNPs) that are cast into a biocompatible polymer disk (PD). These PDs are then impregnated with the photochemical nitric oxide precursor Roussin's black salt (RBS) to give UCNP_RBS_PD devices that generate NO when irradiated with 980 nm light. When the UCNP_RBS_PD composites were irradiated with NIR light through filters composed of porcine tissue, physiologically relevant NO concentrations were released, thus demonstrating the potential of such devices for minimally invasive phototherapeutic applications.

Published

2013

9. Lanthanide modification of CdSe/ZnS core/shell quantum dots

Author

Dethlefsen, Johannes Rytter, Mikhailovsky, Alexander A., Burks, Peter T., Døssing, Anders Rørbæk, Ford, Peter C., Dethlefsen, Johannes Rytter, Mikhailovsky, Alexander A., Burks, Peter T., Døssing, Anders Rørbæk, and Ford, Peter C.

Abstract

Lanthanide-modified CdSe quantum dots (CdSe(Ln) QDs) have been prepared by heating a solution of Cd(oleate)(2), SeO2, and Ln(bipy)(S2CNEt2)(3) (bipy = 2,2'-bipyridine) to 180-190 degrees C for 10-15 min. The elemental compositions of the resulting CdSe(Ln) cores and CdSe(Ln)/ZnS core/shell QDs show this route to be highly reproducible. The optical absorption spectra of these composite materials are similar to those of the unmodified nanocrystals, but the QD-centered band edge photoluminescence (PL) is partially quenched. The time-gated emission and excitation spectra of the CdSe(Ln) cores display sensitized lanthanide-centered PL upon higher energy excitation of the nanocrystal host but not upon excitation at the lowest energy QD absorption band. Growth of the ZnS shell led to the depletion of about 60% of the lanthanide ions present together with depletion of nearly all of the lanthanide-centered PL. On these bases, we conclude that the lanthanide-centered PL from the CdSe(Ln) cores originates with Ln(3+)-related trap states associated with the QD surface.

Published

2012

10. Lanthanide modification of CdSe/ZnS core/shell quantum dots

Author

Dethlefsen, Johannes Rytter, Mikhailovsky, Alexander A., Burks, Peter T., Døssing, Anders Rørbæk, Ford, Peter C., Dethlefsen, Johannes Rytter, Mikhailovsky, Alexander A., Burks, Peter T., Døssing, Anders Rørbæk, and Ford, Peter C.

Abstract

Lanthanide-modified CdSe quantum dots (CdSe(Ln) QDs) have been prepared by heating a solution of Cd(oleate)(2), SeO2, and Ln(bipy)(S2CNEt2)(3) (bipy = 2,2'-bipyridine) to 180-190 degrees C for 10-15 min. The elemental compositions of the resulting CdSe(Ln) cores and CdSe(Ln)/ZnS core/shell QDs show this route to be highly reproducible. The optical absorption spectra of these composite materials are similar to those of the unmodified nanocrystals, but the QD-centered band edge photoluminescence (PL) is partially quenched. The time-gated emission and excitation spectra of the CdSe(Ln) cores display sensitized lanthanide-centered PL upon higher energy excitation of the nanocrystal host but not upon excitation at the lowest energy QD absorption band. Growth of the ZnS shell led to the depletion of about 60% of the lanthanide ions present together with depletion of nearly all of the lanthanide-centered PL. On these bases, we conclude that the lanthanide-centered PL from the CdSe(Ln) cores originates with Ln(3+)-related trap states associated with the QD surface.

Published

2012

11. Meeting Threat Detection Needs For The Army: Using Conjugated Polymers To Improve Diagnostics

Author

SIRIGEN INC SANTA BARBARA CA, Sun, ChengJun, Hong, Janice, Fu, Tsu-Ju, Gaylord, Brent, Chi, Chunyan, Mikhailovsky, Alexander, Bazan, Guillermo, Horsmon, Jennifer, Sekowski, Jennifer, SIRIGEN INC SANTA BARBARA CA, Sun, ChengJun, Hong, Janice, Fu, Tsu-Ju, Gaylord, Brent, Chi, Chunyan, Mikhailovsky, Alexander, Bazan, Guillermo, Horsmon, Jennifer, and Sekowski, Jennifer

Abstract

The focus of this work is on the development of an integrated biological detection system that can meet the needs of Army to detect biological threats. This detection system will be based on a heterogeneous microarray format, which allows for the simultaneous detection of multiple threat agents, and cationic conjugated polymers (CCPs), which serve either to enhance microarray systems (both commercially available and custom-printed) by increasing signal output of a reporter dye via Forster resonance energy transfer (FRET) or to provide a means for reporting in label-free microarray systems that could greatly reduce the cost for time and materials. For labeled systems, amplified signal intensities of reporting dyes should translate to either a higher sensitivity or lower requirements for optical specifications. Simplification of the optics would not only reduce the overall cost of testing, but opens the door for the overriding goal of design and development of portable and/or point-of-care testing devices. These types of diagnostic devices would have the potential to perform field-deployable, simple, and cost-effective testing in a timely fashion for bio-threat agents., See also ADM002075. Presented at the Army Science Conference (25th) held in Orlando, FL on 27-30 November 2006. The original document contains color images.

Published

2006