深圳大学光电工程学院博士后招聘; 深圳大学“柔性可拉伸电子”方向招聘青年教师及博士后; 深圳大学光电子器件与系统教育部重点实验室拟招聘博士后研究人员1-2名; 深圳大学光电工程学院“光子技术与器件”研究方向博士后招聘; 深圳大学光电子器件与系统教育部重点实验室,国家“青年千人”获得者、深圳大学特聘教授王科拟招聘博士后研究人员1-2名;

TYMISH Y. OHULCHANSKYY

发表于 2017-03-25 11:22


 TYMISH Y. OHULCHANSKYY (泰梅石 , TYMISH YU. OGUL’CHANSKY, TYMISH Y.OHULCHANSKY, TYMISH Y. OHULCHANSKKY, TYMISH Y. OHUL’CHANSKYY, TYMISH YU.OGUL’CHANSKI),  深圳大学,光电工程学院,特聘教授

教育经历

2001/10-2004/02,美国纽约州立大学布法罗分校,激光、光子学与生物光子学研究所,博士后,导师:P. N. Prasad1996/09-2001/06,乌克兰基辅大学,实验物理系,博士,导师:V. M. Yashchuk
1984/09-1991/06,乌克兰基辅大学,物理学系光学专业,硕士/学士,导师:V. M.Yashchuk
1. 2016/05-至今,深圳大学,光电工程学院,特聘教授
2. 2013/09-至今,纽约州立大学布法罗分校, 激光、光子学与生物光子学研究所,研究副教授
3. 2008/09-2016/04,纽约州立大学布法罗分校,激光、光子学与生物光子学研究所,副所长
4. 2008/07-2013/08,纽约州立大学布法罗分校,激光、光子学与生物光子学研究所,研究助理教授
5. 2004/03-2008/06,纽约州立大学布法罗分校,激光、光子学与生物光子学研究所,研究员
6. 2001/10-2004/02,纽约州立大学布法罗分校,激光、光子学与生物光子学研究所,博士后研究员,合作导师:Paras N. Prasad
7. 1996/09-2001/09,基辅大学,实验物理系,高级工程师及助教
8. 1991/09-1996/08,基辅大学,实验物理系,高级工程师及助教,工程师及助教

主持或参加科研项目(课题)及人才计划项目情况
1.美国国立卫生研究院项目,1R21EY026411,近红外可见光转换纳米粒子实现大脑电位光声成像, 2015/09-2017/06,294603美元,在研, 参加
“Potentiometric photoacoustic imaging of brain activity enabled by near infrared tovisible light converting nanoparticles”, 1R21EY026411 awarded by NIH for09.01.2015– 06.30.2017 ($294,603), Co-Investigator (PI: Prof. P. N. Prasad).
2.美国国家科学基金会项目,1337860,磁性粒子和磁标记生物材料定量表征仪器的研制及其新的应用,2013/09-2016/08,535315美元,已结题,共同主持"Major Research Instrumentation: Development of an Instrument for Quantitative Characterization of Behavior of Magnetic Particles and Magnetically-LabeledBiomaterials in Emerging Applications", grant 1337860 awarded by National Science Foundation (NSF) for 2013/09-2016/08 ($535,315). Co-Principal Investigator
(Principal Investigator: Prof. M. T. Swihart).
3.美国纽约州立大学卓越项目,1127716-1-72697, 纳米材料用于实时功能成像和光遗传学,2015/10-2016/09,450000美元,已结题,参“Nanomaterials Enabled Functional Imaging and Optogenetics for Real-Time Mapping”, grant 1127716-1-72697 awarded by SUNY Brain Network of Excellence for 2015/10-2016/09 ($450,000), Co-Investigator (PI: Prof.P. N. Prasad).
4.John R. Oishei 基金项目,无,通过纳米技术开发医学成像新进展,2006/09-2009/08,1108820美元,已结题,参加“ Developing new advances in medical Imaging through nanotechnology ” , grant awarded  by  John  R.  Oishei  Foundation  ($1108820),  2006/09-2009/08,Co-Investigator (PI: Prof. P. N. Prasad).
5.美国国立卫生研究院项目,R01CA119397,多功能纳米粒子在胰腺癌诊断和治疗中的应用,2005/09-2011/07,3585569美元,已结题,参加“ Multifunctional Nanoparticles in Diagnosis and Therapy of Pancreatic Cancer ” ,grant  R01CA119397  awarded  by  NIH  ($3585569)  for  2005/09-2011/07,Co-Investigator (PI: Prof .P. N. Prasad).
6.美国国立卫生研究院项目,1R01CA119358,用于光动力治疗和成像的新型癌症纳米技术平台,2005/09-2011/07,3246286美元,已结题,参加“ Novel Cancer Nanotechnology Platforms for Photodynamic Therapy and Imaging ” ,grant  1R01CA119358  awarded  by  NIH  for  2005/09-2011/07,  $3246286,Co-Investigator (PIs: Prof. A. R. Oseroff, Prof. R. K. Pandey).
代表性研究成果和学术奖励情况(每项均按时间倒序排序)
一、期刊论文
1.  第一作者论文(仅不列此项时可删除该标题)
1) A. Pliss # , T.Y.Ohulchanskyy # , G.Chen # , J.Damasco, C.Bass, P.N. Prasad.Subcellular  Optogenetics  Enacted  by  Targeted  Nanotransformers  of Near-Infrared  Light, ACS  Photonics,  Just  Accepted  Manuscript, DOI:10.1021/acsphotonics.6b00475, Publication Date (Web): February 1, 2017.
2) Ohulchanskyy, T. Y. # ; Kopwitthaya, A. # ; Jeon, M.; Guo, Moran; Law, W.-C.,Furlani, E. P.*, Kim, C.*, Prasad, P. N.* Phospholipid micelle-based magneto-plasmonic  nanoformulation  for  magnetic  field-directed,imaging-guided photo-induced cancer therapy. Nanomedicine: Nanotechnology,Biology, and Medicine (2013), 9 (8), 1192–1202.
3) Ohulchanskyy, T.Y*. Roy, I.; Yong, K.-T.; Pudavar, H.E.; Prasad, P.N.High-resolution light microscopy using luminescent nanoparticles, Wiley
Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology (2010), 2 (2),162–175.
4) Ohulchanskyy, T. Y.; Roy, I.; Goswami, L. N.; Chen, Y.; Bergey, E. J.; Pandey, R.K.*; Oseroff, A. R.*; Prasad, P. N.* Organically Modified Silica Nanoparticles with Covalently Incorporated Photosensitizer for Photodynamic Therapy of
Cancer. Nano Letters (2007), 7(9), 2835-2842.
5) Ohulchanskyy, T. Y.; Gannon, M. K., II; Ye, M.; Skripchenko, A.; Wagner, S. J.;Prasad, P. N.*; Detty, M. R.* "Switched-On" Flexible Chalcogenopyrylium Photosensitizers. Changes in Photophysical Properties upon Binding to DNA.Journal of Physical Chemistry B (2007), 111(32), 9686-9692.
6) Ohulchanskyy, T. Y.; Donnelly, D. J.; Detty, M. R.; Prasad, P. N.* Heteroatom Substitution Induced Changes in Excited-State Photophysics and Singlet Oxygen Generation in Chalcogenoxanthylium Dyes: Effect of Sulfur and Selenium Substitutions. Journal of Physical Chemistry B (2004), 108(25), 8668-8672.
7) Ohulchanskyy, T. Y.*; Pudavar, H. E.; Yarmoluk, S. M.; Yashchuk, V. M.; Bergey, E.J.; Prasad, P. N. A monomethine cyanine dye cyan 40 for two-photon-excited fluorescence detection of nucleic acids and their visualization in live cells.Photochemistry and Photobiology (2003), 77(2), 138-145.
8) Ogul'chansky, T.Y.*; Yashchuk, V.M.; Maslyuk, A.F.; Bereznitskii, G.K.;Kachkovski, O.D. Peculiarities of triplet exciton jump mechanism in unconjugated polymers with pendant benzophenone-type groups, Molecular Crystals and Liquid Crystals Science and Technology, Section A: Molecular Crystals and Liquid Crystals (2001), 361, 25-30.
9) Ogul'chansky, T.Y*; Yashchuk, VM. Migration of the triplet excitations in macromolecules containing pendant pi-electronic systems of benzophenone type. Naukovi zapysky NAUKMA [Scientific notes of the National University of Kyiv-Mohyla Academy], (2001), 19, 48-52. [In Ukrainian].
10) Ogul'chansky, T.Y.; Losytskyy, M.Y.; Kovalska, V.B; Yashchuk, V.M.; Yarmoluk,SM.* Interactions of cyanine dyes with nucleic acids. XXIV. Aggregation of monomethine cyanine dyes in presence of DNA and its manifestation in absorption and fluorescence spectra, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy (2001), 57 (7), 1525-1532.
11) Ogul'chansky, T.Y.; Losytskyy, M.Y.; Kovalska, V.B.; Lukashov, S.S.; Yashchuk,V.M.; Yarmoluk, SM.* Interaction of cyanine dyes with nucleic acids. XVIII.Formation of the carbocyanine dye J-aggregates in nucleic acid grooves,Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy (2001), 57(13), 2705-2715.
12) Ogul'chansky, T.Y.; Yashchuk, V.M.; Losytskyy, M.Y.; Kocheshev, I.O.; Yarmoluk,S.M.* Interaction of cyanine dyes with nucleic acids. XVII. Towards an aggregation of cyanine dyes in solutions as a factor facilitating nucleic acid detection. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,2000, 56 (4), 805-814.
13) Ogul'chans'ky, T. Y.; Yashchuk, V. M.; Yarmolyuk, S. M.*; Losytskyy, M. Yu.Interaction of cyanine dyes with nucleic acids. 14. Spectral characteristics of several monomethyne benzothiazole cyanine dyes and their interaction with DNA. Biopolimery i Kletka [Biopolymers and cell] (2000), 16(5), 345-355.[in Ukrainian].
14) Ogul'chansky TY*, Vretik LO, Yashchuk VM, Syromyatnikov VG, Kolendo OY.Direct energy supply for initiation of some photochemical reactions in macromolecules. Molecular Crystals and Liquid Crystals Science and Technology, Section A: Molecular Crystals and Liquid Crystals (1998), 324,223-229.
15) Ogul'chansky, T.Y.*; Syromyatnikov, V.G.; Yashchuk, V.M.*; Savchenko, I. A.;Kolendo, A. Yu. Some macromolecules as basic elements of the molecular electronics. Ukrains'kyi Fizichnyi Zhurnal [Ukrainian Journal of Physics] 1995,40, 4, 286-288 [in Ukrainian].
2.  通讯作者论文
1) Chen, G.; Ohulchanskyy, T.Y.*; Law, W.C.; Ågren, H.; Prasad, P.N* Monodisperse NaYbF4:Tm3+/NaGdF4  core/shell  nanocrystals  with  near-infrared  to near-infrared upconversion photoluminescence and magnetic resonance properties. Nanoscale (2011), 3, 2003-2008.
2) Yashchuk V.M.*, Ogul'chansky T.Y. *, Kal'nitskiy A.Y., Kononenko YT. Capture of triplet excitons by molecular oxygen on the surface of some polymers. Dopovidi NAN Ukrainy [Reports of NAS of Ukraine], (1998), 4, 121-123.
3) Syromyatnikov V.G., Yashchuk V.M.*, Ogul'chansky T.Y.*, Vretik L.O, Kolendo A.Y. Effect of the interaction of unconjugated pi-electron systems on singlet-triplet conversion in macromolecules. Dopovidi NAN Ukrainy [Reports of NAS of Ukraine] (1998), 9, 171-174 [in Ukrainian].
3.  既非第一作者又非通讯作者论文
1) C.Saenz, R.Cheruku, T.Y.Ohulchanskyy, P.Joshi, W. Tabaczynski, J. Missert, Y.Chen, P. Pera, E. Tracy, A.Marko, D.Rohrbach, U.Sunar, H. Baumann*, R.K.Pandey*, Photosensitizers derived from bacteriochlorophyll a: Functional relevance  of  the  macrocycle  structure  identified  by  comparing 3-devinyl-3-(1’-hexyloxy)  ethyl  pyropheophorbide-a  (HPPH)  with  the corresponding ring-B reduced isomer (iso-HPPH), ACS Chemical Biology, Article ASAP. DOI: 10.1021/acschembio.7b00023, Publication Date (Web): February 6,2017
2) W. Shao, G. Chen*, T.Y. Ohulchanskyy, C. Yang, H. Agren, P.N. Prasad.* ACore-Multiple Shell Nanostructure Enabling Concurrent Upconversion and Quantum Cutting for Photon Management, Nanoscale (2017), 9, 1934-1941.
3) W.Shao, G. Chen*, A.Kuzmin, H. L. Kutscher, A.Pliss, T. Y. Ohulchanskyy, P. N.Prasad.* Tunable Narrow Band Emissions from Dye-Sensitized Core/Shell/Shell Nanocrystals in the Second Near Infrared Biological Window. J. Am. Chem. Soc.2016, 138, 16192-16195.
4) N.Patel, P. Pera, P. Joshi, M. Dukh, W. A. Tabaczynski, K. E. Siters, M. Kryman, R.R.Cheruku, F. Durrani, J.R. Missert, R.Watson, T. Y. Ohulchanskyy, E. C. Tracy, H.Baumann, R.K. Pandey*. Highly Effective Dual-Function Near-Infrared (NIR) Photosensitizer for Fluorescence Imaging and Photodynamic Therapy (PDT) of Cancer, J. Med. Chem. (2016), 59, 9774–9787.
5) James, N.S.; Joshi, P.; Ohulchanskyy, T. Y., Chen,Y.; Tabaczynski, W.; Durrani, F.;Shibata, M.; Pandey, R.K.* Photosensitizer (PS)-cyanine dye (CD) conjugates:Impact of the linkers joining the PS and CD moieties and their orientation in tumor-uptake and photodynamic therapy (PDT), European Journal of Medicinal Chemistry (2016), 122, 770-785.
6) McIver, Z.A.*; Grayson, J.M.; Coe, B.N.; Hill, J.E.; Schamerhorn, G.A.;Ohulchanskyy, T.Y.; Linder, M.K.; Davies, K.S.; Weiner, R.S.; Detty, M.R.*Targeting T cell bioenergetics by modulating P-glycoprotein selectively depletes alloreactive T cells to prevent graft-versus-host disease. The Journal of Immunology (2016), 197, 1631-1641
7) Gu, B.; Pliss, A.; Kuzmin, A.N.; Baev, A.; Ohulchanskyy, T. Y.; Damasco, J.A.; Yong,K.-T.; Wen, S.*; Prasad, P. N.* In-situ second harmonic generation by cancer cell targeting ZnO nanocrystals to effect photodynamic action in subcellular space,Biomaterials (2016), 104, 78-86.
8) Chen, G.*, Shao, W., Valiev, R. R., Ohulchanskyy, T. Y., He, G. S., Ågren, H.;Prasad, P. N.* Efficient Broadband Upconversion of Near-Infrared Light in Dye-Sensitized Core/Shell Nanocrystals. Advanced Optical Materials (2016), 4,1760–1766.
9) Chen, G.*; Damasco, J.; Qiu, H.; Shao, W.; Ohulchanskyy, T. Y.; Valiev, R. R.; Wu,X.; Han, G.; Wang, Y.; Yang, C.; Ågren, H.; Prasad, P. N.* Energy-Cascaded
Upconversion in an Organic Dye-Sensitized Core/Shell Fluoride Nanocrystal,Nano Letters (2015), 15, 7400–7407.
10) Patel, N. J.; Manivannan, E.; Joshi, P.; Ohulchanskyy,T.Y., Nani, R. R.; Schnermann,M. J.; Pandey, R. K.* Impact of Substituents in Tumor Uptake and Fluorescence Imaging Ability, Photochemistry and Photobiology (2015), 91, 1219–1230.
11) Kryman, M.W.; Davies, K.S.; Linder, M. K.; Ohulchanskyy, T.Y.; Detty, M.R.*Selenorhodamine photosensitizers with the Texas-red core for photodynamic therapy of cancer cells, Bioorganic & Medicinal Chemistry (2015), 23,4501–4507.
12) Chen, G.*; Hans Ågren, H.; Ohulchanskyy, T.Y.; Prasad, P.N.* Light upconverting core–shell nanostructures: nanophotonic control for emerging applications,Chem. Soc. Rev. (2015), 44(6), 1680-1713.
13) Seo, Y. H.; Cho, M. J.; Cheong, O. J.; Jang, W.-D.; Ohulchanskyy, T. Y. ; Lee, S. D.;Choi, H.*; Prasad, P. N.* ; Kim, S.* Low-bandgap biophotonic nanoblend: A platform for systemic disease targeting and functional imaging, Biomaterials (2015), 39, 225-233.
14) Shao, W., Chen, G.*, Ohulchanskyy, T. Y., Kuzmin, A., Damasco, J., Qiu, H., Yang,C.*, Ågren, H. and Prasad, P. N.*, Lanthanide-doped fluoride core/multishell nanoparticles for broadband upconversion of infrared light. Advanced Optical Materials (2015), 3(4), 575–582.
15) Roy, I.*; Kumar, P.; Kumar, R.; Ohulchanskyy, T. Y.; Yong, K.-T.; Prasad, P.N.*Ormosil nanoparticles as a sustained-release drug delivery vehicle. RSC Adv.(2014), 4, 53498-53504.
16) Hill, J.E.; Linder, M.K., Davies, K.S., Sawada, G.A., Morgan, J., Ohulchanskyy, T.Y.,Detty, M.R.* Selenorhodamine Photosensitizers for Photodynamic Therapy of P-Glycoprotein-Expressing Cancer Cells, J. Med. Chem. (2014), 57 (20),8622–8634.
17) Kachynski, A. V.; Pliss, A.; Kuzmin, A. N.; Ohulchanskyy, T. Y.; Baev, A.; Qu, J.*;Prasad, P. N.* Photodynamic therapy by in situ nonlinear photon conversion,Nature Photonics (2014), 8, 455–461.
18) Kryman, M.W.; Schamerhorn, G.A.; Hill, J.E.; Calitree, B.D.; Davies, K.S.; Linder, M.K.; Ohulchanskyy,T.Y.; Detty, M.R.* Synthesis and Properties of Heavy Chalcogen Analogues of the Texas Reds and Related Rhodamines,Organometallics (2014), 33 (10), 2628–2640.
19) Shao, W.; Chen, G.*; Damasco, J.; Wang, X.; Kachynski, A.; Ohulchanskyy, T. Y.;Yang, C.*; Ågren, H.; Prasad, P. N.* Enhanced Upconversion Emission in Colloidal (NaYF4:Er3+)/NaYF4 Core/Shell Nanoparticles Excited at 1523 nm, Optics Letters(2014), 39 (6), 1386-1389.
20) Huang, H.; Song, W.; Chen, G.; Reynard, J.M.; Ohulchanskyy, T. Y., Prasad, P.N.;Bright, F.V.; Lovell, J.F.* Pd-Porphyrin-Cross-Linked Implantable Hydrogels with Oxygen-Responsive Phosphorescence. Advanced Healthcare Materials (2014), 3(6), 891–896.
21) Yu, Z.; Ohulchanskyy, T.Y.; An, P.; Prasad, P.N.; Lin, Q.* Fluorogenic, Two-Photon Triggered Photoclick Chemistry in Live Mammalian Cells. Journal of the American Chemical Society (2013), 135 (45), 16766–16769.
22) James, N.S; Ohulchanskyy, T.Y.; Chen, Y.; Joshi, P.; Zheng, X.; Goswami, L. N.;Pandey, R. K.* Comparative Tumor Imaging and PDT Efficacy of HPPH Conjugated in the Mono- and Di-Forms to Various Polymethine Cyanine Dyes:Part – 2. Theranostics (2013), 3(9), 703-718.
23) James, N.S; Chen, Y.; Joshi, P.; Ohulchanskyy, T.Y.; Ethirajan, M.; Henary, M.;Strekowski, L.; Pandey, R. K.* Evaluation of Polymethine Dyes as Potential Probes for Near Infrared Fluorescence Imaging of Tumors: Part – 1, Theranostics(2013), 3(9), 692-702.
24) Kryman, M. W.; Schamerhorn, G. A.; Yung, K.; Sathyamoorthy, B.; Sukumaran, D.K.; Ohulchanskyy,T.Y.; Benedict, J. B.; Detty, M. R.* OrganotelluriumFluorescence Probes for Redox Reactions: 9-Aryl-3,6-diaminotelluroxanthylium Dyes and Their Telluroxides, Organometallics (2013), 32 (15), 4321–4333.
25) Shen, J.; Chen, G.; Ohulchanskyy, T.Y.; Kesseli, S. J.; Buchholz, S.; Li, Z.; Prasad,P.N.; Han, G.* Tunable Near Infrared to Ultraviolet Upconversion LuminescenceEnhancement in (α-NaYF4:Yb,Tm)/CaF2 Core/Shell Nanoparticles for In SituReal-time Recorded Biocompatible Photoactivation, Small (2013), 9 (19),3213–3217.
26) Ethirajan, M.; Chen, P.; Ohulchanskyy, T. Y.; Goswami, L. N.; Gupta, A.; Srivatsan,A.; Dobhal, M. P.; Missert, J. R.; Prasad, P. N.; Kadish, K. M.*; Pandey, R. K.*Regioselective Synthesis and Photophysical and Electrochemical Studies of 20-Substituted Cyanine Dye–Purpurinimide Conjugates: Incorporation of NiII into the Conjugate Enhances its Tumor-Uptake and Fluorescence-Imaging Ability,Chemistry—A European Journal (2013), 19 (21), 6670–6684.27) Liu, S.; Chen, G.; Ohulchanskyy, T.Y.; Swihart, M. T.*, Prasad, P. N.* Facile Synthesis and Potential Bioimaging Application of Hybrid Upconverting and Plasmonic NaGdF4: Yb3+, Er3+/Silica/Gold Nanoparticles. Theranostics (2013),3(4), 275-281.
28) Chen, G.; Shen, J.; Ohulchanskyy, T.Y.; Patel, N. J.; Kutikov, A.; Li, Z.; Song, J.;Pandey, R. K.; Ågren, H.; Prasad, P.N*;. Han, G.* (α-NaYbF4:Tm3+)/CaF2 Core/Shell Nanoparticles with Efficient Near-Infrared to Near-Infrared Upconversion for High-Contrast Deep Tissue Bioimaging. (2012), 6 (9),8280–8287.
29) Pliss, A.; Zhao, L.; Ohulchanskyy,T.Y.; Qu, J.*; Prasad, P.N. *FluorescenceLifetime of Fluorescent Proteins as an Intracellular Environment Probe Sensing the Cell Cycle Progression. ACS Chem. Biol. (2012), 7 (8), 1385–1392.
30) Yuan, C.; Chen, G.*; Prasad, P. N.; Ohulchanskyy, T. Y.; Ning, Z.*; Tian, H.; Sun, L.;Ågren, H.* Use of colloidal upconversion nanocrystals for energy relay solar cell light harvesting in the near-infrared region. J. Mater. Chem.(2012), 22,16709-16713.
31) Braz, A.K.S.; de Araujo, R.E.; Ohulchanskyy, T.Y.; Shukla, S.; Bergey, E. J.;Gomes, A.S.L.; Prasad, P.N.* In situ gold nanoparticles formation: contrast agent for dental optical coherence tomography. Journal of Biomedical Optics (2012),17(6), 066003.
32) Chen, G.; Ohulchanskyy, T.Y.; Liu, S.; Law, W.C.; Wu, F.; Swihart, M.T.; Ågren,H.; Prasad, P.N.* Core/Shell NaGdF4:Nd3+/NaGdF4 Nanocrystals with Efficient Near-Infrared to Near-Infrared Downconversion Photoluminescence for Bioimaging Applications. ACS Nano (2012), 6 (4), 2969–2977.
33) Gupta, A.; Wang, S.; Pera, P.; Rao, K.V.R.; Patel, N.; Ohulchanskyy, T. Y.; Missert,J.; Morgan, J.; Koo-Lee, Y.-E.; Kopelman, R.; Pandey, R. K.* Multifunctional nanoplatforms for fluorescence imaging and photodynamic therapy developed by  post-loading  photosensitizer  and  fluorophore  to  polyacrylamide nanoparticles. Nanomedicine: Nanotechnology, Biology, and Medicine (2012) 8(6), 941–950 .
34) Chen, G.; Ohulchanskyy, T.Y.; Kachynski, A.; Ågren, H.; Prasad, P.N.* Intense Visible and Near-Infrared Upconversion Photoluminescence in Colloidal LiYF4:Er3+ Nanocrystals under Excitation at 1490 nm. ACS Nano (2011), 5 (6),4981–4986.
35) Gupta, A.; Goswami, L. N.; Ethirajan, M.; Missert, J.; Rao, K.V.R.;Ohulchanskyy, T.; Roy, I.; Morgan, J.; Prasad, P. N. ; Pandey, R. K.*Organically modified silica nanoparticles as drug delivery vehicles in photodynamic therapy. Journ. of Porphyrins and Phthalocyanines (2011), 15(5-6), 401-411.
36) Wang, Y.; Zhao, L.; Chen, T.; Xu, G.; Pliss, A.; Ohulchanskyy, T.Y.; Prasad, P.N.;Qu, J.; Niu, H. Study on cell cycle using fluorescence lifetime imaging microscopic
system based on a streak camera. Zhongguo Jiguang (Chinese Journal of Lasers)(2011), 38 (3), 0304002.
37) Li, Q.*; Ohulchanskyy, T. Y.; Liu, R.*; Koynov, K.; Dongqing Wu, D.; Best, A.;Kumar, R.; Bonoiu, A.; Prasad. P. N.* Photoluminescent Carbon Dots asBiocompatible Nanoprobes for Targeting Cancer Cells in Vitro. J. Phys. Chem. C(2010), 114 (28), 12062–12068.
38) Tokar, V.P.; Losytskyy, M.Y.; Ohulchanskyy, T.Y.; Kryvorotenko, D.V.; Kovalska,V.B.; Balanda, A.O.; Dmytruk, I.M.; Prokopets, V.M.; Yarmoluk, S. M.*; Yashchuk,V. M Styryl dyes as two-photon excited fluorescent probes for DNA detectionand two-photon laser scanning fluorescence microscopy of living cells. Journal of Fluorescence (2010), 20 (4), 865-872.
39) Kumar, R.; Ohulchanskyy, T.; Turowski, S.; Thompson, M.E.; Seshadri, M.*;Prasad, P.N.* Combined magnetic resonance and optical imaging of head and neck tumor xenografts using Gadolinium-labelled phosphorescent polymeric nanomicelles, Head and Neck Oncology (2010) 2, 35.
40) Chen, G.; Ohulchanskyy, T.Y.; Kumar, R.; Ågren, H.; Prasad, P.N.* Ultrasmall monodisperse NaYF4: Yb3+/Tm3+ nanocrystals with enhanced near-infrared to near-infrared upconversion photoluminescence. ACS Nano (2010), 4 (6),3163-3168.
41) Kumar, R.; Roy, I.; Ohulchanskky, T.Y.; Vathy, L. A.; Bergey, E. J.; Sajjad, M.;Prasad; Paras N.* In Vivo Biodistribution and Clearance Studies Using Multimodal Organically Modified Silica Nanoparticles. ACS Nano (2010), 4 (2),699–708.
42) Shukla, S.; Ohulchanskyy, T.Y.; Sahoo, Y.; Samoc, M.; Thapa, R.; Cartwright, A. N.;Prasad, P. N.* Polymeric Nanocomposites Involving a Physical Blend of IR Sensitive Quantum Dots and Carbon Nanotubes for Photodetection. J. Phys.Chem. C (2010), 114 (7), 3180–3184
43) Kumar, R.; Ohulchanskyy, T.Y.; Roy, I.; Gupta, S.K.; Borek, C.; Thompson, M.E.;Prasad, PN.* Near-infrared phosphorescent polymeric nanomicelles: efficient optical probes for tumor imaging and detection. ACS Applied Materials &Interfaces (2009) 1 (7), 1474-1481.
44) Kumar, R.; Nyk, M.; Ohulchanskyy, T. Y.; Flask, C. A.; Prasad, P.N.*Combined optical and MR bioimaging using rare earth ion doped NaYF4 nanocrystals. Advanced Functional Materials (2009), 19(6), 853-859.
45) Kim, S.; Ohulchanskyy, T. Y.; Bharali, D.; Chen, Y.; Pandey, R. K.; Prasad, P. N.*Organically Modified Silica Nanoparticles with Intraparticle Heavy-Atom Effect on the Encapsulated Photosensitizer for Enhanced Efficacy of Photodynamic Therapy. Journal of Physical Chemistry C (2009), 113(29), 12641-12644.
46) Kim, S.; Ohulchanskyy,T.Y.; Baev, Alexander; Prasad, P. N.* Synthesis and nanoparticle encapsulation of 3,5-difuranylvinyl-boradiaza-s-indacenes for near-infrared fluorescence imaging, Journal of Materials Chemistry (2009),19(20), 3181-3188.
47) Kim, W. Jin; Kang, M. S.; Kim, H. K.u; Kim, Y.; Chang, T.; Ohulchanskyy, T.; Prasad,P. N.*; Lee, K.-S.* Water-soluble porphyrin-polyethylene glycol conjugates with enhanced cellular uptake for photodynamic therapy, Journal of Nanoscience and Nanotechnology (2009), 9(12), 7130-7135.
48) Nyk, M.; Kumar, R.; Ohulchanskyy, T.Y.; Bergey, E. J.; Prasad, P. N.* High Contrast in Vitro and in Vivo Photoluminescence Bioimaging Using Near Infrared to Near Infrared Up-Conversion in Tm3+ and Yb3+ Doped Fluoride Nanophosphors. Nano Letters (2008), 8(11), 3834-3838.
49) Zheng, Q.; Bonoiu, A.; Ohulchanskyy,T.Y.; He, G. S.; Prasad, P. N.*Water-Soluble Two-Photon Absorbing Nitrosyl Complex for Light-Activated Therapy through Nitric Oxide Release. Molecular Pharmaceutics (2008), 5(3),389-398.
50) Kumar, R.; Roy, I.; Ohulchanskyy, T. Y.; Goswami, L. N.; Bonoiu, A. C.; Bergey, E.J.; Tramposch, K. M.; Maitra, A.; Prasad, P. N.* Covalently Dye-Linked,Surface-Controlled, and Bioconjugated Organically Modified Silica Nanoparticles as Targeted Probes for Optical Imaging. ACS Nano (2008), 2(3),449-456.
51) Qian, J.;Yong, K.-T.; Roy, I.; Ohulchanskyy, T.Y.; Bergey, E. J.; Lee, H. Hi;Tramposch, K. M.; He, S.; Maitra, A.; Prasad, P. N.* Imaging Pancreatic Cancer Using Surface-Functionalized Quantum Dots. Journal of Physical Chemistry B (2007), 111(25), 6969-6972.
52) Gryshuk, A.; Chen, Y.; Goswami, L. N.; Pandey, S.; Missert, J. R.; Ohulchanskyy, T.;Potter, W.; Prasad, P. N.; Oseroff, A.; Pandey, R. K.* Structure-Activity
Relationship  Among  Purpurinimides  and  Bacteriopurpurinimides:Trifluoromethyl Substituent Enhanced the Photosensitizing Efficacy. Journal of Medicinal Chemistry (2007), 50(8), 1754-1767.
53) Zheng, Q.; Ohulchanskyy,T.Y.; Sahoo, Y.; Prasad, P. N.* Water-Dispersible Polymeric Structure Co-encapsulating a Novel Hexa-peri-hexabenzocoronene Core Containing Chromophore with Enhanced Two-Photon Absorption and Magnetic Nanoparticles for Magnetically Guided Two-Photon Cellular Imaging.Journal of Physical Chemistry C (2007), 111(45), 16846-16851.
54) McKnight, R. E.*; Ye, M.; Ohulchanskyy, T. Y.; Sahabi, S.; Wetzel, B.R.; Wagner, S.J.; Skripchenko, A.; Detty, M. R.* Synthesis of analogues of a flexible thiopyrylium photosensitizer for purging blood-borne pathogens and binding mode and affinity studies of their complexes with DNA. Bioorganic &Medicinal Chemistry (2007), 15(13), 4406-4418.
55) Baba, K.; Pudavar, H. E.; Roy, I.; Ohulchanskyy, T. Y.; Chen, Y.; Pandey, R. K.;Prasad, P. N.* New Method for Delivering a Hydrophobic Drug for Photodynamic Therapy Using Pure Nanocrystal Form of the Drug. Molecular Pharmaceutics (2007), 4(2), 289-297.
56) Kim, S.; Ohulchanskyy,T.Y.; Pudavar, H. E.; Pandey, R. K.; Prasad, P. N.*Organically Modified Silica Nanoparticles Co-encapsulating Photosensitizing Drug and Aggregation-Enhanced Two Photon Absorbing Fluorescent Dye Aggregates for Two-Photon Photodynamic Therapy. Journal of the American Chemical Society (2007), 129(9), 2669-2675.
57) Cho, N.; Choudhury, K. R.; Thapa, R. B.; Sahoo, Y.; Ohulchanskyy, T. Y.; Lee,K. S.*; Prasad, P. N.* Efficient Photodetection at Infrared Wavelengths by Incorporation  of  PbSe-Carbon-nanotube  Conjugate  in  a  Polymeric Nanocomposite. Advanced Materials (2007), 19, 202-206.
58) Oar, M.l A.; Dichtel, W. R.; Serin, J.M.; Fréchet*, J. M. J.; Rogers, J. E.; Slagle,J. E.; Fleitz, P. A.; Tan, L.-S.; Ohulchanskyy, T.Y.; Prasad, P.N.Light-Harvesting Chromophores with Metallated Porphyrin Cores for Tuned Photosensitization of Singlet Oxygen via Two-Photon Excited FRET, Chemistry of Materials (2006), 18(16), 3682-3692.
59) Cinteza, L. O.; Ohulchanskyy, T. Y.; Sahoo, Y.; Bergey, E. J.; Pandey, R. K.; Prasad,P. N.* Diacyllipid Micelle-Based Nanocarrier for Magnetically Guided Delivery of Drugs in Photodynamic Therapy. Molecular Pharmaceutics (2006), 3(4),415-423.
60) Rosenfeld, A.; Morgan, J.; Goswami, L. N.; Ohulchanskyy, T.; Zheng, X.; Prasad,P. N.; Oseroff, A.; Pandey* ; R. K.* Photosensitizers Derived From 132-Oxo-Methyl Pyropheophorbide-a Photochemistry and Photobiology (2006),82 (3), 626-634.
61) Shi, W.; Zeng, H.*; Sahoo, Y.; Ohulchanskyy, T. Y.; Ding, Y.; Wang, Z. L.; Swihart,M.*; Prasad, P. N.* A General Approach to Binary and Ternary Hybrid Nanocrystals. Nano Letters (2006), 6(4), 875-881.
62) Gryshuk, A. L.; Chen, Y.; Potter, W.; Ohulchansky, T.; Oseroff, A.*; Pandey, R. K.*In  Vivo  Stability  and  Photodynamic  Efficacy  of  Fluorinated Bacteriopurpurinimides Derived from Bacteriochlorophyll-a. Journal of Medicinal Chemistry (2006), 49(6), 1874-1881.
63) Yashchuk, V.*; Kudrya, V.; Losytskyy, M; Suga, H.; Ohulchanskyy, T. The nature of the electronic excitations capturing centres in the DNA, Journal of Molecular Liquids (2006), 127 (1-3), 79–83.
64) Chen, Y.; Gryshuk, A.; Achilefu, S.l; Ohulchansky,T.; Potter, W.; Zhong, T.;Morgan, J.; Chance, B.; Prasad, P. N.; Henderson, B. W.; Oseroff, A.; Pandey, R.K.* A Novel Approach to a Bifunctional Photosensitizer for Tumor Imaging and Phototherapy. Bioconjugate Chemistry (2005), 16(5), 1264-1274.
65) Gibson, S. L.; Holt, J. J.; Ye, M.; Donnelly, D. J.; Ohulchanskyy, T. Y.; You, Y.;Detty, M.R.* Structure-activity studies of uptake and phototoxicity with heavy-chalcogen analogues of tetramethylrosamine in vitro in chemosensitive and multidrug-resistant cells. Bioorganic & Medicinal Chemistry (2005),3(23), 6394-6403.
66) Choudhury, K. Roy; Sahoo, Y.; Ohulchanskyy, T. Y.; Prasad, P. N.* Efficient photoconductive devices at infrared wavelengths using quantum dot-polymer nanocomposites. Applied Physics Letters (2005), 87(7), 073110/1-073110/3
67) Oar, M. A.; Serin, J. M.; Dichtel, W. R.; Frechet, J. M. J.*; Ohulchanskyy, T. Y.;Prasad, P. N. Photosensitization of Singlet Oxygen via Two-Photon-Excited Fluorescence Resonance Energy Transfer in a Water-Soluble Dendrimer.Chemistry of Materials (2005), 17(9), 2267-2275.
68) You, Y.; Gibson, S. L.; Hilf, R.; Ohulchanskyy, T. Y.; Detty, M. R.*Core-modified porphyrins. Part 4: Steric effects on photophysical and biological properties in vitro. Bioorganic & Medicinal Chemistry (2005), 13(6),2235-2251.
69) Sahoo, Y.; Goodarzi, A.; Swihart, M.T.; Ohulchanskyy, T. Y.; Kaur, N.; Furlani, E.dP.; Prasad, P. N.* Aqueous Ferrofluid of Magnetite Nanoparticles:Fluorescence Labeling and Magnetophoretic Control. Journal of PhysicalChemistry B (2005), 109(9), 3879-3885.
70) Roy, I.; Ohulchanskyy, T. Y.; Bharali, D. J.; Pudavar, H. E.; Mistretta, R. A.; Kaur,N.; Prasad, P. N.* Optical tracking of organically modified silica nanoparticles as DNA carriers: A nonviral, nanomedicine approach for gene delivery.Proceedings of the National Academy of Sciences of the United States of America(2005), 102(2), 279-284.
71) Detty, M. R.*; Prasad, P. N.; Donnelly, D. J.; Ohulchanskyy, T.; Gibson, S. L.; Hilf,R. Synthesis, properties, and photodynamic properties in vitro of heavy-chalcogen analogues of tetramethylrosamine. Bioorganic & Medicinal Chemistry (2004), 12(10), 2537-2544.
72) Dichtel, W.R.; Serin, J. M.; Edder, C.; Frechet, J. M. J.*; Matuszewski, M.; Tan,L.-S.; Ohulchanskyy, T. Y.; Prasad, P. N. Singlet Oxygen Generation via Two-Photon Excited FRET. Journal of the American Chemical Society (2004),126(17), 5380-5381.
73) Kuzmin, A. N.; Kachynski, A. V.; Ohulchanskyy, T. Y.; Roy, I.; Prasad, P. N.*;Bruckenstein, S. Two-photon fluorescence-guided laser tweezers for study of cluster growth and gelation process. Applied Physics Letters (2004),84(13), 2454-2456.
74) You, Y.; Gibson, S. L.; Hilf, R.; Davies, S. R.; Oseroff, A. R.; Roy, I.; Ohulchanskyy, T.Y.; Bergey, E.J.; Detty, M. R.* Water Soluble, Core-Modified Porphyrins. 3.Synthesis, Photophysical Properties, and in Vitro Studies of Photosensitization,Uptake, and Localization with Carboxylic Acid-Substituted Derivatives.Journal of Medicinal Chemistry (2003), 46(17), 3734-3747.
75) Roy, I.; Ohulchanskyy, T. Y.; Pudavar, H. E.; Bergey, E. J.; Oseroff, A. R.; Morgan,J.; Dougherty, T. J.; Prasad, P. N.* Ceramic-based nanoparticles entrapping water-insoluble photosensitizing anticancer drugs: a novel drug-carrier system for photodynamic therapy. Journal of the American Chemical Society (2003),125(26), 7860-7865.
76) Pudavar, H.E.; Ohulchanskyy, T.Y.; Bergey, E.J.; Prasad, P.N.* Biophotonics:An Exciting Frontier (Review Article), Nonlinear Optics, Quantum Optics (2003),30, 115-147.
77) Bogdal D*, Yashchuk V, Pielichowski J, Ogul'chansky T, Warzala M, Kudrya V Synthesis and spectral investigation of alkyl methacrylates with halogenated carbazolyl pendant groups for photonics applications, Journal of Applied Polymer Science 2002, 84 (9), 1650-1656.
78) Bogdal, D.*; Yashchuk, V.; Pielichowski, J.; Stepien, I.; Ogul'chansky, T.; Warzala,M.; Kudrya, V. Spectral investigation of alkyl polymethacrylates with halogenated carbazolyl pendant groups. Polimery (Warsaw, Poland) (2002),47(4), 279-281.
79) Bulavin, L.A.; Adamenko, I.I.; Yashchuk, V.M. Ogul'chansky, T.Y.; Prylutskyy,Yu.I.; Durov, S.S.; Scharff, P.* Self-organization C 60 nanoparticles in toluene solution. Journal of Molecular Liquids (2001), 93 (1-3), 187-191.
80) Yarmoluk, SM.*; Kovalska, VB.; Kryvorotenko, DV.; Balanda, AO.; Ogul'chansky,T.Y. Interaction of cyanine dyes with nucleic acids. XXV. Influence ofaffinity-modifying  groups  in  the  structure  of benzothiazol-4-[2,6-dimethylpyridinium] dyes on the spectral properties of the dyes in the presence of nucleic acids, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy (2001), 57 (7), 1533-1540.
81) Yarmoluk, S.M.*; Lukashov, S.S; Ogul'chansky, T.Y.; Losytskyy, M.Y.;Kornyushyna, O.S. Interaction of cyanine dyes with nucleic acids. XXI.Arguments for half-intercalation model of interaction, Biopolymers (2001), 62, 4,219-227.
82) Yashchuk VM*, Syromyatnikov VG , Ogul'chansky TY, Kolendo AY, Prot T,Blazejowski J, Kudrya VY Multifunctional macromolecules and structures as one-way exciton conductors. Molecular Crystals and Liquid Crystals Science and Technology, Section A: Molecular Crystals and Liquid Crystals (2000), 353,287-299.
83) Syromyatnikov VG, Yashchuk VM*, Ogul'chansky TY, Novikova OO, Piryatinsky  YP, Kolendo OY. Nature of 2-aminoxanthone fluorescence. Journal of Fluorescence (1999), 9 (2), 93-98.
84) Prilutski, Yu. I.*; Durov, S. S.; Yashchuk, V. N.; Ogul'chansky, T. Y.; Pogorelov, V.E.; Astashkin, Yu. A.; Buzaneva, E. V.; Kirghisov, Yu. D.; Andrievsky, G. V.; Scharff,P. Theoretical predictions and experimental studies of self-organized C60 nanoparticles in water solution and on the support. European Physical Journal D: Atomic, Molecular and Optical Physics (1999), 9(1-4), 341-343.
85) Prilutski, Yu.*; Durov, S.; Bulavin, L.; Pogorelov, V.; Astashkin, Y.; Yashchuk, V.;Ogul'chansky, T.; Buzaneva, E.; Andrievsky, G. Study of structure of colloidal particles of fullerenes in water solution. Molecular Crystals and Liquid Crystals Science and Technology, Section A: Molecular Crystals and Liquid Crystals, 1998, 324, 65-70.
86) Syromyatnikov, V. G.*; Yashchuk, V. M.; Kolendo, A.Yu.; Vretik, L. O.; Paskal', L.P.; Ogul'chansky, T. Y.; Rusin, A. G.; Savchenko, I. A. Exciton transport and destruction  -  stabilization  processes  in  styrene-based  polymers.Molecular Crystals and Liquid Crystals Science and Technology, Section A:Molecular Crystals and Liquid Crystals (1998), 324, 231-236.
87) Zheltonozhskaya, T. B.*; Romankevich, O. O.; Syromyatnikov, V. G.; Bulavin, L. A.;Kudrya, V. Y.; Ogul'chansky, T.Y.; Yashchuk, V. M. Effect of absorption of low-molecular  weight compounds  by  some  polymer  flocculants.Macromolecular Symposia (1997), 114, 263-269.88) Syromyatnikov VG*, Yashchuk VM, Ogul'chansky TY, Savchenko IO*, Kolendo OY.Some light-sensitive imide molecular systems with the determined functional properties. Molecular Crystals and Liquid Crystals (1996), 283, 293-298.
89) Savchenko, I. A.*; Kolendo, A. Yu.; Ogul'chansky,T.Y.; Yashchuk, V. N.;Syromyatnikov, V. G.* Directed intramolecular transfer of electronic triplet excitations in the 1-naphthyl acrylate-4-acetylphenyl methacrylate copolymer.Ukrainskii Khimicheskii Zhurnal [Ukrainian Chemical Journal] (1995), 61(1),53-55 [in Russian].
二、 会议论文
1) T.Y. Ohulchanskyy # , J. Qu, R. K. Pandey. Near-infrared imaging guided nanoparticles delivering photoactivated therapeutics. SPIE Photonics West, San Francisco, California, United States, 28 January - 2 February 2017.
2) T. Y. Ohulchanskyy. Molecular and nanoparticular agents to deliver optical imaging guided phototherapy, Asia Communications and Photonics conference,Wuhan, China, November 2-5, 2016 (Invited).
3) T. Y. Ohulchanskyy # , J.Qu. Nanoprobes for optical biomaging and light enacted therapy, SPIE Photonics Asia, Beijing, China, October 12- 14, 2016 (Invited).
4) T. Y. Ohulchanskyy. Optical imaging probes to guide light activated therapy.Optoelectronic Global Conference, Shenzhen, China, September 5-7, 2016(Invited).
5) T. Y. Ohulchanskyy. Optical imaging and light induced therapy with molecular and nanoparticular agents. 8th International Conference on Information Optics and Photonics (CIOP2016), Shanghai, China, July 17-20, 2016 (Invited).
6) T.Y. Ohulchanskyy # ,  P.N.Prasad.  Multifunctional  nanoparticles  and nanoformulations for biomedical applications, International conference “Nanotechnology and nanomaterials”, Bukovel, Ukraine, August 25-September 1, 2013 (Invited).
7) T.Y. Ohulchanskyy # , A. Kopwitthaya, R. Kumar, I.Roy, E. J. Bergey, P. N. Prasad.Organically modified silica nanoparticles as PDT drug delivery vehicles: effect of particle size on cellular uptake of the drug and its distribution in vivo, NCI Alliance for Nanotechnology in Cancer Investigators Meeting, Manhattan Beach,CA, Oct. 20-22, 2009.
8) T.Y. Ohulchanskyy # , P. N. Prasad. Nanostructured Molecular and Hybrid Materials for Energy Harvesting: Meeting the Energy and Healthcare Challenges of 21st Century, 2008 MRS Fall Meeting, Boston, MA, Dec. 1-5, 2008.
9) T.Y. Ohulchanskyy # , S.K.Gupta, S.Kim, R.Kumar, Y. Chen, R.K.Pandey, A.R.Oseroff,P.N.Prasad. Controlling Excitation Dynamics within Organically Modified Silica-Based Nanoparticles for Advanced Photodynamic Therapy and Imaging,NCI Alliance for Nanotechnology in Cancer Investigators Meeting, Chicago, IL,Sep.7-10, 2008.
10) T.Y. Ohulchanskyy # , R.Kumar, S.Kim, M.Nyk, S.K.Gupta, K.-T.Yong, I.Roy,E.J.Bergey, R.K.Pandey, J.Morgan, A.R.Oseroff, P.N.Prasad. Organically Modified Silica based Nanoparticles for Two-photon Induced Photodynamic Therapy, NCIAlliance for Nanotechnology in Cancer Investigators Meeting, Chapen Hill, NC Oct.16-18, 2007.
11) T.Y. Ohulchanskyy # , I.Roy, I., R. Pandey, L. Goswami, E. Bergey, J. Morgan, P. N.Prasad, A. Oseroff, Novel Cancer Nanotechnology Platforms for Photodynamic Therapy and Imaging: Organically Modified Silica (ORMOSIL) Nanoparticles for Delivery Photosensitizers for Photodynamic Therapy (PDT) and Tumor Imaging,NCI Alliance for Nanotechnology in Cancer Investigators Meeting, San-Diego, CA Oct.24-26, 2006
12) T.Yu. Ogulchansky # , V.M.Yashuchuk. Peculiarities of triplet exciton jump mechanism in unconjugated polymers with pendant benzophenone-type groups.III International Conference “Electronic processes in organic materials”(ICEPOM-3), Kharkiv, Ukraine, May 22-28, 2000.
13) T.Yu.  Ogulchansky # ,  L.O.Vretik.  V.M.Yashchuk,  V.G.  Syromyatnikov,O.Y.Kolendo. Direct energy supply for initiation of some photochemical reactions in macromolecules, 2nd International Conference "Electronic Processes in Organic Materials" (ICEPOM-2), 18-22 May 1998, Kyiv, Ukraine.
3.  既非第一作者又非通讯作者论文
1) J. Damasco # , T.Ohulchanskyy, G. Chen, H. Huang, S. Mahajan, T. Winslow, J.Lovell, P. Prasad. Ultrasmall hexagonal NaGdF4:Yb nanoparticles: A theranostic approach to radiotherapy, ECI Conference “Nanotechnology in Medicine: From Molecules to Humans”, Hernstein, Austria, July 3-7, 2016
2) A.Kopwitthaya # , T.Y. Ohulchanskyy, M. Jeon, W-C. Law, Q. Xie, R.R. Chada, X.Xue, E.P. Furlani, C. Kim, P.N. Prasad. Magneto-plasmonic Nanoplatforms for Enhanced Bioimaging and Photothermal Cancer Therapy, 2012 NSTI Conference and Expo, Santa Clara, CA, June 18-21, 2012
3) P.N.Prasad # ,  A.M.Pliss,  A.V.Kachynski,  A.N.Kuzmin,  T.Y.Ohulchanskyy.Multiphoton microscopy and multiplex, multimodal imaging: Impact on 21st century healthcare, 242nd ACS National Meeting, Denver, CO, August 28-September 1, 2011
4) P. N. Prasad # , A. N. Kuzmin, A. Pliss, A. V. Kachynski, T.Y.Ohulchanskyy.Nonlinear optical processes for bioimaging and light activation in biophotonics,238th ACS National Meeting, Washington, DC, United States, August 16-20, 2009
5) P. N. Prasad # , I. Roy, T. Y. Ohulchanskyy. Hybrid "multimodal" nanocomposites in nanomedicine, 232nd ACS National Meeting, San Francisco, CA, Sept. 10-14,2006
6) V.M. Yashchuk,  V.G. Syromyatnikov,  T.Yu. Ogulchansky # ,  O.O.Novikova,Yu.P.Piryatinsky, O.Yu.Kolendo. About nature of Aminoxanthone Fluorescence,Fifth International Conference on Methods and Applications of Fluorescence Spectroscopy (MAFS V), Berlin, Germany, September 21–24,1997
 四、授权发明专利
1) Prasad, P. N.; Ohulchanskyy, T. Y.; Chen, G.; Jee, H. Core-shell nanoparticles,methods of making same, and uses of same, 2016.07.14, US Patent Application,US20160202606A1.
2) Prasad, P. N.; Ohulchanskyy, T. Y.; Chen, G.; Jee, H. Core-shell nanoparticles,methods of making same, and uses of same, 2016.07.13, European patent application, EP3041794A1.
3) Prasad, P. N.; Ohulchanskyy, T. Y.; Chen, G.; Jee, H. Core-shell nanoparticles,methods of making same, and uses of same, 2016.07.13, China patentapplication, CN105764854A.
4) Prasad, P. N.; Ohulchanskyy, T. Y.; Chen, G.; Jee, H. Core-shell nanoparticles,methods of making same, and uses of same, 2016.07.14, International Application, 2016.05.28, WO2015076897A1.
5) Prasad, P. N.; Pliss, A.M.; Kachynski, A.V.; Ohulchanskyy, T. Y.; Kuzmin, A.N.Photodynamic therapy using in situ nonlinear photon upconversion of nir light by biological medium, 2015.11.05, International Application, WO2015168080A1.
6) P. N. Prasad, I. Roy, E. J. Bergey, T. Y. Ohulchanskyy, H. E. Pudavar, A. R. Oseroff,R. K. Pandey, J. Morgan. Ceramic based nanoparticles for entrapping therapeutic Agents for Photodynamic Therapy and Method of Using Same. 2008.04.29,United States Patent, 7,364,754, licensed to NanoBiotix (France).
7) R. Pandey, L. Goswami, A.Oseroff, J.Morgan, P. Prasad, E. Bergey,T.Ohulchanskyy, I.Roy. Organically modified silica nanoparticles with covalently incorporated photosensitizers for drug delivery in photodynamic therapy.2009.09.03, International Patent Application, WO2009038659A3.
8) P. N. Prasad, S.Kim, T. Y.Ohulchanskyy, R.K. Pandey. Nanoparticles for two-photon activated photodynamic therapy and imaging, 2008.09.25, US Patent Application, US20080233051.
9) P. N. Prasad, H. E. Pudavar, K. Baba, I. Roy, T.Y.Ohulchanskyy, R. K. Pandey, A.Oseroff. Method for delivering hydrophobic drugs via nanocrystal formulations,2008.09.04, International Application, WO2008048205.
10) P. N. Prasad, K. Baba, H. E. Pudavar, I. Roy, T.Y.Ohulchanskyy, H. Nakanishi, A.Masuhara, H. Kasai, Method of bioimaging using nanocrystals of fluorescent dyes, 2008.05.08, International Application, WO2008054341A2.
11) P. N. Prasad, S.Kim, T.Y.Ohulchanskyy, R.K. Pandey. Nanoparticules pour thérapie photodynamique et imagerie à activation biphotonique, 2008.05.02,International Application, WO2008030624A3.
12) P. N. Prasad, H. E. Pudavar, K. Baba, I. Roy, T.Y.Ohulchanskyy, R. K. Pandey, A.Oseroff. Method for delivering hydrophobic drugs via nanocrystal formulations,2007.06.14, US Patent Application, US20070134340A1.
13) P. N. Prasad, K. Baba, H. E. Pudavar, I. Roy, T.Y.Ohulchanskyy, H. Nakanishi,A. Masuhara, H. Kasai, Method of bioimaging using nanocrystals of fluorescent dyes, 2007.04.19, US Patent Application, US20070086949A1.
14) Prasad, P. N.; Bergey, E. J.; Dutta, P.; Bharali, D.J.; Stachowiak, M.; Ohulchanskyy,T.Y.; Klejbor, I.; Roy, I., 2006.10.12, International Application, WO2006017476.
15) Prasad, P. N.; Bergey, E. J.; Dutta, P.; Bharali, D.J.; Stachowiak, M.; Ohulchanskyy,T.Y.; Klejbor, I.; Roy, I. Amino functionalized ormosil nanoparticles as delivery vehicles, 2006.04.27, US Patent Application, US20060088599A1.
五、会议报告
1) T. Y. Ohulchanskyy. Emerging Applications of Biophotonics: Optical Biomaging and Light Enacted Therapy, Invited Lecture at Xidian University, Xi’an, Shaanxi,China, July 1st, 2016.
2) T. Y. Ohulchanskyy. Applications of Biophotonics: aspects of research at the State University of New York at Buffalo and College of Optoelectronic Engineering of the Shenzhen University, Invited Lecture in the Faculty of Physics,Taras Shevchenko National University of Kyiv, Kyiv, Ukraine, June 14th, 2016
3) T.Y.Ohulchanskyy.  Developing  applications  of  biophotonics:  advanced bioimaging, in situ photoactivation and light induced therapy, Invited presentation in the College of Optoelectronic Engineering of the Shenzhen University, Shenzhen, Guangdong, China, April 27th, 2016
4) T. Y. Ohulchanskyy. Multifunctional Nanoparticles in Diagnosis and Therapy of Pancreatic Cancer, Invited presentation in the Department of Clinical Science,Intervention and Technology, Karolinska University, Stockholm, Sweden,December 4, 2015
5) T.Y.Ohulchanskyy. Up- and down- conversion nanoparticles for biomedical applications, Invited presentation in the Department of Theoretical Chemistry and Biology, Royal Institute of Technology, Stockholm, Sweden, December 2,2015
六、其他成果
发表在会议文集中的文章:
1) Ohulchanskyy, T. Y.; Pliss, A. M.; Prasad, P. N.* Biophotonics: Harnessing Light for Biology and Medicine. Nonlinear Optical Imaging and Light Induced Therapy,In: Biophotonics: Spectroscopy, Imaging, Sensing, and Manipulation (NATOScience for Peace and Security Series B: Physics and Biophysics), edited by B.Di Bartolo and J. Collins, Springer, 2011, 3-17.
2) Gupta, A.; Rao, K. V. R.; Pera, P.; Wang, S. J.; Missert, J. R.; Ohulchanskyy, T.; Roy,I.; Morgan, J.; Prasad, P. N.; Kopelman, R.; Pandey, R.K.* Multifunctional ORMOSIL and PAA nanoparticles Proceedings of SPIE (2009), 7380 (Pt. 2,Photodynamic Therapy), 73805H/1-73805H/12.
3) Baba, K.; Ohulchanskyy, T. Y.; Zheng, Q.; Lin, T.-C.; Bergey, E. J.; Prasad, P. N.*Infrared emitting dye and/or two photon excitable fluorescent dye encapsulated in biodegradable polymer nanoparticles for bioimaging. Materials Research Society Symposium Proceedings (2005), 845 (Nanoscale Materials Science in Biology and Medicine), 209-214.
4) Syromyatnikov, V. G.; Yashchuk, V. M.*.; Ogul'chansky, T. Y.; Vretik, L. O.;Kolendo, A. Yu. Some functional macromolecules as exciton converters. I.The problem of initial macromolecular cell selection. Smart Materials and Structures, Proceedings of the 4th European Conference on Smart Structures and Materials, Harrogate, UK, July 6-8, 1998. Editors: Tomlinson, G. R.; Bullough, W.
A., 1998, 579-584.
5) Syromyatnikov, V.; Yashchuk, V.*; Ogul'chanski, T.; Kolendo, A.; Savchenko, I.;Kudrya, V. Some functional macromolecules as exciton converters. Proceedings of SPIE-The International Society for Optical Engineering (1996),2779 (III International Conference on Intelligent Materials, 1996), 408-413.
) 七、获得学术奖励
1)  泰梅石( TYMISH Y. OHULCHANSKYY)Western New York (WNY) “2008 Inventor of the Year Award, Life Sciences”, 2009, presented by The Niagara Frontier Intellectual Property Law Association (NFIPLA). 尼亚加拉边境知识产权法律协会(NFIPLA),纽约西部(WNY)的年度奖的发明家,2009( ( T. Y. Ohulchanskyy, H. E. Pudavar, J. Morgan, P. N. Prasad, I. Roy,E. J. Bergey, R. K. Pandey, A. Oseroff).
2)  泰梅石( TYMISH Y. OHULCHANSKYY ),Licensed Innovation Award from the Research Foundation of State University of New York at Buffalo, 2005 纽约州立大学研究基金会,许可的创新奖,2005 (I. Roy,  T.Y.Ohulchanskyy,H. E. Pudavar, E. J. Bergey, P. N. Prasad).
3)  泰梅石( TYMISH Y. OHULCHANSKYY ),Visionary Innovator Award from the Office of Science, Technology Transfer and Economic Outreach (STOR) at the State University of New York at Buffalo, 2004, 纽约州立大学布法罗分校科学技术转移与经济外展(STOR)办公室,有远见的创新奖,2004(I. Roy,  T.Y.Ohulchanskyy, H. E. Pudavar, E. J. Bergey, P. N. Prasad).

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