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My publications

Papers in books
1) Makarov N.S. "Generation of anti-Stokes SRS radiation in conditions of quasi-phase matching", in book "Problems of coherent and nonlinear optics", SPb, 2000, pp. 180-190.
2) Makarov N.S. "Analytical solution of quasi-phase matching anti-Stokes SRS amplification in silica fiber", in book "Modern technologies", SPb, 2001, pp. 166-175.
3) Makarov N.S. "Quasi-phase matched multiwave transient stimulated Raman scattering", in book "Problems of coherent and nonlinear optics", SPb, 2002, pp. 204-210.
4) Makarov N.S. "The equations of forward and backward multiwave stimulated Raman scattering", in book "Modern technologies", SPb, 2003, pp. 168-176.
5) Makarov N.S. "Quasi-phase matched anti-Stokes SRS generation in photonic crystals", in book "Problems of coherent and nonlinear optics", SPb, 2004, pp. 237-242.
Papers in refereed journals
1) Makarov N.S., Bespalov V.G., "SRS generation of anti-Stokes radiation under phase quasi-matching conditions", Opt. & Spectr., vol. 90, ¹ 6, 2001, pp. 938-941.
2) Makarov N.S., Bespalov V.G., "Combined Stokes-anti-Stokes Raman amplification in fiber", izv. RAS, ser. fiz. vol. 66, ¹ 3, 2002, pp. 350-352.
3) Makarov N.S., Bespalov V.G., "Quasi-phase matching generation of blue coherent radiation at stimulated Raman scattering", Optics Communications 203 (3-6)(2002) pp. 413-420.
4) Makarov N.S., Bespalov V.G., "Multiwave Stimulated Raman Scattering under Quasi-Phase-Matching Conditions", Opt. & Spectr., vol. 95, ¹ 3, 2003, pp. 474-479.
5) Makarov N.S., Bespalov V.G., "Multiwave quasi-phase-matched anti-Stokes stimulated Raman scattering", J. Opt. A: Pure Appl. Opt., 5, 2003, S250-S255.
6) Makarov N.S., Bespalov V.G., "Effective method of anti-Stokes generation by quasi-phase-matched stimulated Raman scattering", J. Opt. Soc. Am. B, vol. 22, ü 4, 2005, pp. 835-843.
7) Drobizhev M., Makarov N.S., Stepanenko Y., Rebane A., "Near-infrared two photon absorption in phtalocyanines: Enhancement of lowest gerade-gerade transition by symmetrical electron-accepting substitution", J. Chem. Phys., vol. 124, 2006, 224701.
8) Makarov N.S., Rebane A., Drobizhev M., Wolleb H., Spahni H., "Optimizing two-photon absorption for volumetric optical data storage", J. Opt. Soc. Am. B, vol. 24, ü 8, 2007, pp. 1874-1885.
9) Rogers J.E., Slagle J.E., Krein D.M., Burke A.R., Hall B.C., Fratini A., McLean D.G., Fleitz P.A., Cooper T.M., Drobizhev M., Makarov N.S., Rebane A., Kim K.-Y., Farley R., Schanze K.S., "Platinum acetylide two-photon chromophores", Inorganic Chem., vol. 46, 2007, pp. 6483-6494.
10) Drobizhev M., Makarov N.S., Rebane A., Wolleb H., Spahni H., "Very efficient two-photon induced photo-tautomerization in non-symmetrical phthalocyanines", J. Luminescence, vol. 128, 2008, 217-222.
11) Drobizhev M, Makarov N.S., Rebane A, de la Torre G., Torres T., "Strong two-photon absorption in push-pull phthalocyanines: role of resonance enhancement and permanent dipole moment change upon excitation", J. Phys. Chem. C, vol. 112, 2008, 848-859.
12) Drobizhev M., Makarov N.S., Hughes T., Rebane A., "Resonance Enhancement of Two-Photon Absorption in Fluorescent Proteins", J. Phys. Chem. B, vol. 111, 2007, 14051-14054.
13) Makarov N.S., Drobizhev M, Rebane A, "Two-photon absorption standards in the 550-1600 nm excitation wavelength range", Opt. Expr., vol. 16, 2008, 4029-4047.
14) Rebane A., Makarov N.S., Drobizhev M., Spangler B., Tarter E.S., Reeves B.D., Spangler C.W., Meng F., Suo Z., "Quantitative prediction of two-photon absorption cross section based on linear spectroscopic properties", J. Phys. Chem. C, vol. 112, 2008, 7997-8004.
15) Rebane A., Drobizhev M., Makarov N.S., Koszarna B., Tasior M., Gryko D.T., "Two-photon absorption properties of meso-substituted A3-corroles", Chem. Phys. Lett., vol. 462, 2008, 246-250.
16) Drobizhev M., Tillo S., Makarov N.S., Hughes T.E., Rebane A., "Absolute Two-Photon Absorption Spectra and Two-Photon Brightness of Orange and Red Fluorescent Proteins", J. Phys. Chem. B, vol. 113, 2009, 855-859.
17) Drobizhev M., Tillo S., Makarov N.S., Hughes T.E., Rebane A., "Color hues in red fluorescent proteins are due to internal quadratic Stark effect", J. Phys. Chem. B, vol. 113, 2009, 12860-12864.
18) Kuimova M.K., Collins H.A., Balaz M., Dahlstedt E., Levitt J.A., Sergent N., Suhling K., Drobizhev M., Makarov N.S., Rebane A., Anderson H.L., Phillips D., “Photophysical properties and intracellular imaging of water-soluble porphyrin dimers for two-photon excited photodynamic therapy”, Org. Biomol. Chem., vol. 7, 2009, 889-896.
19) Tillo S.E., Hughes T.E., Makarov N.S., Rebane A., Drobizhev M., "A new approach to dual-color two-photon microscopy with fluorescent proteins", BMC Biotech., vol. 10:6, 2010, http://www.biomedcentral.com/1472-6750/10/6.
20) Rebane A., Drobizhev M.A., Makarov N.S., Beuerman E., Nacke C., Pahapill J., "Modeling non-Lorentzian two-photon absorption line shape in dipolar chromophores", J. Luminescence, vol. 130, 2010, 1055-1059.
21) Rebane A., Drobizhev M.A., Makarov N.S., Beuerman E., Tillo S., Hughes T., "New all-optical method for measuring molecular permanent dipole moment difference using two-photon absorption spectroscopy", J. Luminescence, vol. 130, 2010, 1619-1623.
22) Kim K.-Y., Shelton A.H., Drobizhev M., Makarov N., Rebane A., Schanze K.S., "Optimizing simultaneous two-photon absorption and transient triplet-triplet absorption in platinum acetylide chromophores", J. Phys. Chem. A, vol. 114, 2010, 7003-7013.
23) Ji Z., Li Y., Pritchett T.M., Makarov N.S., Haley J.E., Li Z., Drobizhev M., Rebane A., Sun W., "One-photon photophysics and two-photon absorption of 4-[9,9-Di-(2-ethylhexyl)-7-diphenylaminofluoren-2-yl]-2,2':6',2''-terpyridine and their platinum chloride complexes", Chem. Eur. J., vol. 17, 2011, 2479-2491.
24) Butko M.T., Drobizhev M., Makarov N.S., Rebane A., Brinkman B.C., Gleeson J.G, "Simultaneous multiple-excitation multiphoton microscopy yields increased imaging sensitivity and specificity", BMC Biotechnol., vol. 11, 2011, 20.
25) Drobizhev M.A., Makarov N.S., Tillo S.E., Hughes T., Rebane A., "Two-photon absorption properties of fluorescent proteins", Nature Methods, vol. 8, 2011, 393-399.
26) Rebane A., Drobizhev M., Makarov N.S., Beuerman E., Haley J.E., Krein D.M., Burke A.R., Flikkema J.L, Cooper T.M., "Relation between Two-Photon Absorption and Dipolar Properties in a Series of Fluorenyl-Based Chromophores with Electron Donating or Electron Withdrawing Substituents", J. Phys. Chem. A, vol. 115, 2011, 4255-4262.
27) Makarov N.S., Campo J., Hales J.M., Perry J.W., "Rapid, broadband two-photon-excited fluorescence spectroscopy and its application to red-emitting secondary reference compounds", Opt. Mater. Expr., vol. 1, 2011, 551-563.
28) Drobizhev M., Makarov N.S., Tillo S.E., Hughes T.E., Rebane A., "Describing two-photon absorptivity of fluorescent proteins with a new vibronic coupling mechanism", J. Phys. Chem. B, vol. 116, 2012, 1736-1744.
29) Makarov N.S., Mukhopadhyay S., Kada Y., Br?das J.-L., Perry J.W., Pron A., Kivala M., M?llen K., "Impact of electronic coupling, symmetry, and planarization on one- and two-photon properties of triarylamines with one, two, or three diarylboryl acceptors", J. Phys. Chem. A, v. 116, 2012, 3781-3793.
30) Starkey J.R., Makarov N.S., Drobizhev M., Rebane A., "Highly sensitive detection of cancer cells using femtosecond dual-wavelength near-IR two-photon imaging", Biomed. Opt. Expr., vol. 3, 2012, 1534-1547.
31) Zou Q., Zhao Y., Makarov N.S., Campo J., Yuan H., Fang D.-C., Perry J.W., Wu F., "Effect of alicyclic ring size on the photophysical and photochemical properties of bis(arylidene)cycloalkanone compounds", Phys. Chem. Chem. Phys., vol. 14, 2012, 11743-11752.
32) Campo J., Wenseleers W., Hales J.M., Makarov N.S., Perry J.W., "Practical model for first hyperpolarizability dispersion accounting for both homogeneous and inhomogeneous broadening effects", J. Phys. Chem. Lett., vol. 3, 2012, 2248-2252.
33) Bellier Q., Makarov N.S., Bouit P.-A., Rigaut S., Kamada K., Feneyrou P., Berginc G., Maury O., Perry J.W., Andraud C., "Excited state absorption: a key phenomenon for the improvement of biphotonic based optical limiting at telecommunication wavelengths", Phys. Chem. Chem. Phys., vol. 14, 2012, 15299-15307.
34) Leonova E.S., Makarov N.S., Fonari A., Lucero R., Perry J.W., Sammeth D.M., Timofeeva T.V., "Synthesis, structure, and one- and two-photon absorption properties of N-substituted 3,5-bisarylidenepropenpiperidin-4-ones", J. Molec. Struct., vol. 1037, 2013, 288-293.
35) Makarov N.S., Drobizhev M., Wicks G., Makarova E.A., Lukyanets E.A., Rebane A., "Alternative selection rules for one- and two-photon transitions in tribenzotetraazachlorin: quasi-centrosymmetrical ?-conjugation pathway of formally non-centrosymmetrical molecule", J. Chem. Phys., vol. 138, 2013, 214314.
36) Arias E., Moggio I., Torres R., Ziolo R.F., Maldonado J.-L., Green K., Cooper T.M., Wicks G., Rebane A., Drobizhev M., Makarov N.S., Ottonelli M., Dellepiane G., "Direct synthesis of 2,5-Bis(dodecanoxy)phenyleneethynylene-butadiynes by Sonogashira coupling reaction", Eur. J. Org. Chem., 2013, 5341-5352.
37) McDaniel H., Fuke N., Makarov N.S., Pietryga J.M., Klimov V.I., "An integrated approach to realizing high-performance liquid-junction quantum dot sensitized solar cells", Nat. Comm. vol. 4, 2013, 3887.
38) Makarov N.S., McDaniel H., Fuke N., Robel I., Klimov V.I., "Photocharging artifacts in measurements of electron transfer in quantum-dot-sensitized mesoporous titania films", J. Phys. Chem. Lett., vol. 5, 2014, 111-118.
39) Qu L., Makarov N.S., Zhong C., Perry J.W., Qin J., "Molybdenum(VI) tris(dithiolene) complexes as a new class of three-dimensional two-photon absorption chromophores at telecommunications wavelengths", J. Mater. Chem. C, vol. 2, 2014, 614-617.
40) Sartin M.M., Huang C., Marshall A.S., Makarov N.S., Barlow S., Marder S.R., Perry J.W. "Nonlinear optical pulse suppression via ultrafast photoinduced electron transfer in an aggregated perylene diimide/oligothiophene molecular triad", J. Phys. Chem. A, vol. 118, 2014, 110-121.
41) Makarov N.S., Cirloganu C., Perry J.W., Lukyanov K.A., Solntsev K.M., "Steady-state and time-resolved spectroscopic studies of green-to-red photoconversion of fluorescent protein Dendra2", J. Photochem. Photobiol. A, vol. 280, 2014, 5-13.
42) Rebane A., Drobizhev M., Makarov N.S., Wicks G., Wnuk P., Stepanenko Y., Haley J.E., Krein D.M., Fore J.L., Burke A.R., Slagle J.E., McLean D.G., Cooper T.M., "Symmetry breaking in platinum acetylide chromophores studied by femtosecond two-photon absorption spectroscopy", J. Phys. Chem. A, vol. 118, 2014, 3749-3759.
43) McDaniel H., Koposov A.Y., Draguta S., Makarov N.S., Pietryga J.M., Klimov V.I., "Simple yet versatile synthesis of CuInSexS2-x quantum dots for sunlight harvesting", J. Phys. Chem. C, vol. 118, 2014, 16987-16994.
44) Cirloganu C.M., Padilha L.A., Lin Q., Makarov N.S., Velizhanin K.A., Luo H., Robel I., Pietryga J.M., Klimov V.I. "Enhanced carrier multiplication in engineered quasi-type-II quantum dots", Nature Comm. vol. 5, 2014, 4148.
45) Devi C.L., Yesudas K., Makarov N.S., Rao V.J., Bhanuprakash K., Perry J.W. "Combined experimental and theoretical study of one- and two-photon absorption properties of D-?-A-?-D type bis(carbazolylfluorenylethynyl) arene derivatives: Influence of aromatic acceptor bridge", Dyes and Pigments, vol. 113, 2015, 682-691.
46) Makarov N.S., Lau P.C., Olson C., Velizhanin K.A., Solntsev K.M., Kieu K., Kilina S., Tretiak S., Norwood R.A., Peyghambarian N., Perry J.W., "Two-photon absorption in CdSe colloidal quantum dots compared to organic molecules", ACS Nano, vol. 8, 2014, 12572-12586.
47) Lin Q., Makarov N.S., Koh W.-k., Velizhanin K.A., Cirloganu C.M., Luo H., Klimov V.I., Pietryga J.M., "Design and synthesis of heterostructured quantum dots with dual emission in the visible and infrared", ACS Nano, vol. 9, 2015, 539-547.
48) Ji X., Makarov N.S., Wang W., Palui G., Robel I., Mattoussi H., "Tuning the redox coupling between quantum dots and dopamine in hybrid nanoscale assemblies", J. Phys. Chem. C, vol. 119, 2015, 3388-3399.
49) Devi C.L., Yesudas K., Makarov N.S., Rao V.J., Bhanuprakash K., Joseph W. Perry J.W., "Fluorenylethynylpyrene derivatives with strong two-photon absorption: influence of substituents on optical properties", J. Mater. Chem. C, vol. 3, 2015, 3730-3744.
50) Meinardi F., McDaniel H., Carulli F., Colombo A., Velizhanin K.A., Makarov N.S., Simonutti R., Klimov V.I., Brovelli S., "Highly efficient large-area colourless luminescent solar concentrators using heavy-metal-free colloidal quantum dots", Nature Nanotech., vol. 10, 2015, 878-885.
51) Park Y.-S., Guo S., Makarov N.S., Klimov V.I., "Room Temperature Single-photon emission from individual perovskite quantum dots", ACS Nano, vol. 9, 2015, 10386-10393.
52) Makarov N.S., Guo S., Isaienko O., Liu W., Robel I., Klimov V.I., "Spectral and dynamical properties of single excitons, biexcitons, and trions in cesium-lead-halide perovskite quantum dots", Nano Lett., vol. 16, 2016, 2349-2362.
53) Makarov N.S., Lin Q., Pietryga J.M., Robel I., Klimov V.I. "Auger up-conversion of low-intensity infrared light in engineered quantum dots", ACS Nano, vol. 10, 2016, 10829-10841.
54) Zang H., Li H., Makarov N.S., Velizhanin K.A., Wu K., Park Y.-S., Klimov V.I. “Thick-shell CuInS2/ZnS quantum dots with suppressed “blinking” and narrow single-particle emission line widths”, Nano Lett., vol. 17, 2017, 1787-1795.
55) Makarov N.S., Lim J., Lin Q., Lewellen J.W., Moody N.A., Robel I., Pietryga J.M. “Quantum dot thin-films as rugged, high-performance photocathodes”, Nano Lett., vol. 17, 2017, 2319-2327.
56) Lin Q., Yun H.J., Liu W., Song H.J., Makarov N.S., Isaienko O., Nakotte T., Chen G., Luo H., Klimov V.I., Pietryga J.M. “Phase-Transfer Ligand Exchange of Lead Chalcogenide Quantum Dots for Direct Deposition of Thick, Highly Conductive Films”, J. Am. Chem. Soc., vol. 139, 2017, 6644-6653.
57) Park Y.-S., Lim J., Makarov N.S., Klimov V.I. “Effect of Interfacial Alloying versus “Volume Scaling” on Auger Recombination in Compositionally Graded Semiconductor Quantum Dots”, Nano Lett., vol. 17, 2017, 5607-5613.
58) Fuhr A., Yun H.J., Makarov N.S., Li H., McDaniel H., Klimov V.I. “Light-Emission Mechanism in CuInS2 Quantum Dots Evaluated by Spectral Electrochemistry”, ACS Photonics, vol. 4, 2017, 2425-2435.
59) Bergren M.R., Makarov N.S., Ramasamy K., Jackson A., Guglielmetti R., McDaniel H. “High-Performance CuInS2 Quantum Dot Laminated Glass Luminescent Solar Concentrators for Windows”, ACS Energy Lett., vol. 3, 2018, 520-525.
60) Yun H.J., Lim J., Fuhr A.S., Makarov N.S., Keene S., Law M., Pietryga J.M., Klimov V.I. “Charge-Transport Mechanisms in CuInSexS2–x Quantum-Dot Films”, ACS Nano, vol. 12, 2018, 12587-12596.
61) Makarov N.S., Ramasamy K., Jackson A., Velarde A., Castaneda C., Archuleta, N., Hebert D., Bergren, M.R., McDaniel H. “Fiber-Coupled Luminescent Concentrators for Medical Diagnostics, Agriculture, and Telecommunications”, ACS Nano, vol. 13, 2019, 9112-9121.
62) Pascal S., Bellier Q., David S., Bouit P.-A., Chi S.-H., Makarov N.S., Le Guennic B., Chibani S., Berginc G., Feneyrou P., Jacquemin D., Perry J.W., Maury O., Andraud C. “Unraveling the Two-Photon and Excited-State Absorptions of Aza-BODIPY Dyes for Optical Power Limiting in the SWIR Band”, J. Phys. Chem. C, vol. 123, 2019, 23661-23673.
63) Velarde A.R.M., Bartlett E.R., Makarov N.S., Castañeda C., Jackson A., Ramasamy K., Bergren M.R., McDaniel H. “Optimizing the Aesthetics of High-Performance CuInS2/ZnS Quantum Dot Luminescent Solar Concentrator Windows”, ACS Appl. Energy Mater. vol. 3, 2020, 8159-8163.
64) Kubicek-Sutherland J.Z., Makarov N.S., Stromberg Z.R., Lenz K.D., Castañeda C., Mercer A.N., Mukundan H., McDaniel H., Ramasamy K. “Exploring the Biocompatibility of Near-IR CuInSexS2–x/ZnS Quantum Dots for Deep-Tissue Bioimaging”, ACS Appl. Bio Mater. vol. 3, 2020, 8567-8574.
65) Zhao T., Basu A., Ramasamy K., Makarov N.S., McDaniel H., Kagan C.R. “Heavy-Metal-Free Quantum Dot-Based Flexible Electronics”, Information Display, vol. 37, 2021, 24-32.
66) Yang C., Atwater H.A., Baldo M., Baran D., Barile C., Barr M., Bates M., Bawendi M., Bergren M., Brabec C.J., Brovelli S., Bulovic V., Ceroni P., Debije M.G., Delgado-Sanchez J.M., Dong W.J., Duxbury P., Evans R., Forrest S., Gamelin D., Giebink N., Gong X., Griffini G., Guo F., Herrera C., Ho-Baillie A., Holmes R., Hong S.-K., Kirchartz T., Li H., Li Y., Liu D., Loi M., Luscombe C., Makarov N., Mateen F., Mazzaro R., McDaniel H., McGehee M., Meinardi F., Menendez-Velazquez A., Min J., Mitzi D., Moon J., Nattestad A., Nazeeruddin M., Nogueira A., Paetzold U., Patrick D., Pucci A., Rand B., Reichmanis E., Richards B., Roncali J., Rosei F., Schmidt T., So F., Tu C.-C., van Sark W. G.J.H.M., Verduzco R., Vomiero A., Wong W., Wu K., Yip H.-L., Zhang X., Zhao H., Lunt R. “Consensus statement: Standardized reporting of power-producing luminescent solar concentrator performance”, Joule, vol. 6, 2022, 8-15.
67) Makarov N.S., Korus D., Freppon D., Ramasamy K., Houck D.W., Velarde A., Parameswar A., Bergren M.R., McDaniel H. “Minimizing Scaling Losses in High-Performance Quantum Dot Luminescent Solar Concentrators for Large-Area Solar Windows”, ACS Appl. Mater. Interfaces, vol. 14, 2022, 29679-29689.
68) Hebert D., Boonekamp J., Parrish, C.H., Ramasamy K., Makarov N.S., Castañeda C., Schuddebeurs L., McDaniel H., Bergren M.R. “Luminescent Quantum Dot Flms Improve Light Use Ef?ciency And Crop Quality In Greenhouse Horticulture”, Front. Chem., 2022, 10:988227.
Papers in proceedings SPIE
1) Makarov N.S., Bespalov V.G., "Quasi-phase matching anti-Stokes SRS generation", Proc. SPIE, vol. 4268, 2001, pp. 109-116.
2) Makarov N.S., Bespalov V.G., "Transient quasi-phase matching SRS generation", Proc. SPIE, vol. 4751, 2001, pp. 126-130.
3) Makarov N.S., Bespalov V.G., "Combined Stokes-anti-Stokes Raman amplification in fiber", Proc. SPIE, vol. 4605, 2001, pp. 280-285.
4) Makarov N.S., Bespalov V.G., "Simultaneously Stokes and anti-Stokes Raman amplification in silica fiber", Proc. SPIE, vol. 4638, 2002, pp 30-40.
5) Makarov N.S., Bespalov V.G., "Multiwave stimulated Raman scattering with quasi-phase matching", Proc. SPIE, vol. 5036, 2002, pp. 565-569.
6) Makarov N.S., Bespalov V.G., "Multiwave quasi-phase matched stimulated Raman scattering", Proc. SPIE, vol. 4829, 2002, pp. 375-376.
7) Makarov N.S., Bespalov V.G., "The efficient generation of anti-Stokes radiation at multiwave forward and backward stimulated Raman scattering", Proc. SPIE, vol. 5402, 2003, pp. 284-290.
8) Makarov N.S., Bespalov V.G., "Backward and forward quasi-phase matched multiwave SRS in nonlinear periodical structures", Proc. SPIE, vol. 5506, 2004, p. 87-94.
9) Makarov N.S., Bespalov V.G., "Anti-Stokes stimulated Raman scattering in photonic crystals", Proc. SPIE, vol. 5710, 2005, pp. 149-158.
10) Makarov N.S., Rebane A., Drobizhev M., Peone D., Wolleb H., Spahni H., "Experimental characterization of two-photon materials for fast rewritable optical data storage", Proc. SPIE, vol. 6330, 2006, p. 63300K.
11) Drobizhev M., Makarov N.S., Rebane A., Wolleb H., Spahni H., "Phthalocyanine molecules with extremely strong two-photon absorption for 3D rewritable optical information storage", Proc. SPIE, vol. 6308, 2006, p. 630803.
12) Makarov N.S., Rebane A., Drobizhev M., Wolleb H., Spahni H., "Resonance enhancement of two-photon cross section for optical storage in the presence of hot band absorption", Proc. SPIE, vol. 6470, 2007, p. 64700R.
13) Rebane A., Makarov N.S., Drobizhev M., Spangler C.W., Gong A., Meng. F., "Broad bandwidth near-IR two-photon absorption in conjugated porphyrins core dendrimers", Proc. SPIE, vol. 6653, 2007, p. 665307.
14) Makarov N.S., Drobizhev M., Rebane A., "Two-photon absorption standards in the 550-1600 nm excitation range: establishing a correction curve for accurate cross section calibration", Proc. SPIE, vol. 6891, 2008, p. 689105.
15) Rebane A., Drobizhev M., Makarov N.S., "Ultrafast coherent transients and time-space holography in inhomogeneously broadened two-photon absorbing medium", Proc. SPIE, vol. 6903, 2008, p. .
16) Makarov N.S., Beuerman E., Drobizhev M., Starkey J., Rebane A., "Environment-sensitive two-photon dye", Proc. SPIE, vol. 7049, 2008, p. 70490Y.
17) Rebane A., Makarov N.S., Drobizhev M., "Quantitative description of two-photon absorption with few essential states models", Proc. SPIE, vol. 7049, 2008, p. 704904.
18) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Hyperspectral two-photon near-infrared cancer imaging in vitro and in vivo", Proc. SPIE, vol. 7413, 2009, p. 74130Q.
19) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Hyperspectral two-photon near-infrared cancer imaging at depth", Proc. SPIE, vol. 7380, 2009, p. 738048.
20) Drobizhev M.A., Tillo S., Makarov N., Hughes T.E., Rebane A.K., “Searching for the two-photon brightest red fluorescent protein and its optimum excitation wavelength”, Proc. SPIE, vol. 7191, 2009, p. 719104.
21) Rebane A.K., Drobizhev M.A., Makarov N., Koszarna B., Tasior M., Gryko D.T., “Two-photon absorption spectroscopy of corroles”, Proc. SPIE, vol. 7213, 2009, p. 72130Q.
22) Rebane A., Drobizhev M.A., Makarov N.S., Beuerman E., Nacke C., Pahapill J., "Numerical modeling of non-Lorentzian two-photon absorption line shape in dipolar chromophore", Proc. SPIE, vol. 7599, 2010, p. 759919.
23) Rebane A.K., Drobizhev M.A., Makarov N.S., Beuerman E., Zhao Y., Spangler C.W.," Maximizing two-photon absorption cross section within few essential state models", Proc. SPIE, vol. 7599, 2010, p. 75990W.
24) Beuerman E., Makarov N.S., Drobizhev M.A., Rebane A.K., "Justification of two-level approximation for description of two-photon absorption in Oxazine dyes", Proc. SPIE, vol. 7599, 2010, p. 75990X.
Conferences
1) Makarov N.S., Bespalov V.G., Lobanov S.A., Pyajt A.L. "Systems of nonlinear differential equations for nonlinear optical phenomena describing", Preprints of International Conference "Nonlinear sciences on the border of millenniums", June 22-24, 1999, p. 123. (in Russian)
2) Makarov N.S. "Quasi-phase matching SRS generation of anti-Stokes radiation", Proc. of International Conference "Optics-99", October 19-21, 1999, p. 82. (in Russian)
3) Makarov N.S., Kovelenov N.U. "Using of test programs in education", Preprints of Scientific - Methodical Conference of Mechanical-Machine-Engineering Department of St. Petersburg State Technical University "Perfection of bachelors, engineers and masters education", January 24, 2000. (in Russian)
4) Makarov N.S., Bespalov V.G., Lobanov S.A. "New methods of generation and amplification of light at Stimulated Raman Scattering: quasi-phase matching and photonic crystals", Preprints of Russian Scientific - Practical Conference "Optics and scientific instrument-making-2000", March 29-30, 2000, p. 47-48. (in Russian)
5) Makarov N.S., Bespalov V.G. "Quasi-phase matching SRS generation", Papers of First International Conference on Laser Optics for Young Scientists, June 26-30, 2000, p. 131.
6) Makarov N.S. "Transient quasi-phase matching anti-Stokes SRS generation in gases and crystal media", Preprints of Scientific Youth School "Optics-2000", October 16-20, 2000, pp. 101-102. (in Russian)
7) Makarov N.S., Bespalov V.G. "Quasi-phase matching anti-Stokes SRS generation", Photonics West 2001 (LASE 2001), January 20-26, 2001.
8) Makarov N.S., Bespalov V.G. "Combined Stokes-anti-Stokes Raman amplification in fiber", Photon Echo and Coherent Spectroscopy 2001 (PECS-2001), June 19-24, 2001.
9) Makarov N.S., Bespalov V.G. "Transient quasi-phase matching SRS generation", International Conference on Coherent and Nonlinear Optics 2001 (ICONO-2001), 26 June - 1 July 2001, p. 153.
10) Makarov N.S. "Stokes-anti-Stokes SRS amplification of informational signals in silica fiber", Proc. of International Conference "Optics-2001", October 16-19, 2001, p. 193. (in Russian)
11) Makarov N.S., Bespalov V.G. "Quasi-phase matching at Raman interaction of coherent waves", Scientific Youth School "Coherent Optics and Optical Spectroscopy", October 25-27, 2001, pp. 83-88. (in Russian)
12) Makarov N.S., Bespalov V.G. "Simultaneously Stokes and anti-Stokes Raman amplification in silica fiber", Photonics West 2002 (LASE 2002), January 19-25, 2002, p. 64.
13) Makarov N.S. "Optical fiber amplifiers of information signals", 31-Science-Technical Conference of Teachers and Professors, February 5-7, 2002, p. 191-199.
14) Makarov N.S. "Quasi-phase matched SRS", Young Scientist School "Nonlinear waves-2002", March 2-9, 2002.
15) Makarov N.S., Bespalov V.G. "Multiwave stimulated Raman scattering with quasi-phase matching", Photonics Prague 2002, May 26-29, 2002, p. 43.
16) Makarov N.S., Bespalov V.G. "Multiwave quasi-phase matching stimulated Raman scattering with dispersion of Raman gain", International Quantum Electronics Conference (IQEC-2002), June 22-28, 2002, p. 152.
17) Makarov N.S., Bespalov V.G. "Multiwave quasi-phase matched stimulated Raman scattering", 19th Congress on the International Commission for Optics (ICO19), August 25-30, 2002.
18) Makarov N.S. "Multiwave diffractive SRS in conditions of quasi-phase matching", Preprints of Scientific Youth School "Optics-2002", October 14-17, 2002, pp. 91-92. (in Russian)
19) Makarov N.S., Bespalov V.G. "Multiwave SRS in conditions of quasi-phase matching: steady-state, transient and diffractive interactions", Scientific Youth School "Coherent Optics and Optical Spectroscopy", 31 October - 2 November, 2002, pp. 63-68. (in Russian)
20) Makarov N.S. "Generation and amplification of anti-Stokes radiation at quasi-phase matching stimulated Raman scattering", Final seminar on grants of Saint-Petersburg's administration, April 3, 2003. (in Russian)
21) Makarov N.S., Bespalov V.G., "The influence of backward Stokes on quasi-phase matched multiwave SRS in nonlinear periodical structures", CLEO Europe EQEC-2003, June 22-27, 2003.
22) Makarov N.S., Bespalov V.G., "Backward and forward quasi-phase matched multiwave SRS in nonlinear periodical structures", International Symposium "Intensive Laser Actions and its Applications", 30 June - 2 July 2003, pp. 44-45.
23) Makarov N.S., Bespalov V.G., "Backward and forward multiwave stimulated Raman scattering", Laser Optics-2003, 30 June - 4 July 2003.
24) Makarov N.S., Bespalov V.G., "The efficient generation of anti-Stokes radiation at multiwave forward and backward stimulated Raman scattering", International Readings on Quantum Optics-2003, October 12-17, 2003.
25) Makarov N.S., Bespalov V.G., "Analisis of the generation processes of anti-Stokes radiation at forward and backward SRS", Proc. of International Conference "Optics-2003", October 20-23, 2003, pp. 70-71. (in Russian)
26) Makarov N.S., Lobanov S.A., Vasilev V.N., Kozlov S.A., Andreeva O.V., Bespalov V.G., Denisyuk Yu.N., "Research and educational internet site "Optoinformatics"", Proc. of International Conference "Optics-2003", October 20-23, 2003, pp. 298-299. (in Russian)
27) Makarov N.S., Bespalov V.G., "Forward and backward multiwave SRS in compressed hydrogen: theory and experiment", Scientific Youth School "Coherent Optics and Optical Spectroscopy", 30 October - 1 November, 2003, pp. 257-262. (in Russian)
28) Makarov N.S., "Simultaneously SRS-amplification of informational signals in E and C channels of fiber-optical lines", Young Scientists Internet-Conference "Promise and Development", 1 September 2003 - 15 February, 2004. (in Russian)
29) Makarov N.S., "QPM anti-Stokes SRS generation", First Young Scientists' SPbSU ITMO Conference, February 16-19, 2004. (in Russian)
30) Makarov N.S., Bespalov V.G., "The possibility of experimental realization of QPM SRS in hydrogen", Scientific School "Modern problems of laser physics", April 4-6, 2004. (in Russian)
31) Makarov N.S., Bespalov V.G., "Quasi-phase matched anti-Stokes stimulated Raman scattering", US-Russia partnership workshop Communications, Electronics, Lasers and Optics (CELO-2004), 7-11 June 2004, p. III-26.
32) Makarov N.S., Bespalov V.G., "Quasi-phase matched SRS in photonic crystals", Scientific Youth School "Coherent Optics and Optical Spectroscopy", 27-30 September, 2004. (in Russian)
33) Makarov N.S., Bespalov V.G., "The effective generation of anti-stokes radiation in one dimensional photonic crystals", International conference "Basic Problems of Optics-2004", 18-21 October, 2004, pp. 152-154. (in Russian)
34) Bespalov V.G., Makarov N.S., "Anti-Stokes stimulated Raman scattering in photonic crystals", Photonics West 2005 (LASE 2005), 22-27 January 2005.
35) Makarov N.S., Rebane A.K., Drobizhev M., "Optimization of femtosecond two-photon storage by spectral pulse shaping", Optics and Photonics 2005, 31 July - 4 August 2005.
36) Makarov N.S., Rebane A.K., Drobizhev M., "Optimization of chromophores for two-photon optical volumetric storage", Polymer chemistry and polymer matrix composites (air force office of scientific research) 2005, 8-13 August 2005.
37) Makarov N.S., Rebane A.K., Drobizhev M., "Optimization of fast rewritable optical storage in near-resonant conditions", Optical science and laser technology conference 2005, 22-23 September 2005.
38) Drobizhev M., Makarov N.S., Rebane A., Makarova E.A., Luk'yanets E.A., "Two-photon absorption in tetraazachlorin and its benzoand 2,3-naphtho-fused derivatives: effective symmetry of -conjugation pathway", fourth International Conference on Porphyrins and Phtalocyanines, 2-7 July 2006, p. 611.
39) Rebane A., Drobizhev M., Makarov N.S., de la Torre G., Torres T., "Modulation of two-photon absorption of asymmetricallysubstituted phthalocyanines by the position of inner protons (tautomerization) and structure of linking group", fourth International Conference on Porphyrins and Phtalocyanines, 2-7 July 2006, p. 832.
40) Rebane A., Drobizhev M., Makarov N.S., Koszarna B., Gryko D.T., "The effect of electron withdrawing substituents on two-photon absorption properties of A3-corolles", fourth International Conference on Porphyrins and Phtalocyanines, 2-7 July 2006, p. 833.
41) Drobizhev M., Makarov N.S., Rebane A., Wolleb H., Spahni H., "Very efficient two-photon induced photo-tautomerization in non-symmetrical phtalocyanines", 9th Conference on Hole Burning, Single Molecule and Related Spectroscopies: Science and Applications, 24-29 June 2006, p. 35.
42) Drobizhev M., Makarov N.S., Rebane A., Wolleb H., Spahni H., "Phtalocyanine molecules with very strong two-photon absorption for 3D rewritable optical information storage", Optics&Photonics 2006, 13-17 August 2006.
43) Makarov N.S., Drobizhev M., Rebane A., Wolleb H., Spahni H., Peone D., "Experimental characterization of two-photon materials for fast rewritable optical data storage", Optics&Photonics 2006, 13-17 August 2006.
44) Drobizhev M., Makarov N.S., Rebane A., Stepanenko Y., Makarova E.A., Lukyanets E., de la Torre G., Torres T., "Two-photon absorption spectroscopy of phtalocyanines and related compounds", Optics&Photonics 2006, 13-17 August 2006.
45) Makarov N.S., Drobizhev M., Rebane A., Wolleb H., Spahni H., Peone D., "Materials for 3D optical storage: two-photon access vs. one-photon background", OpTeC 2006, 18-19 September 2006.
46) Makarov N.S., Drobizhev M., Rebane A., Wolleb H., Spahni H., "Experimental characterization of two-photon materials for fast rewritable optical data storage", OpTeC 2006, 18-19 September 2006.
47) Makarov N.S., Rebane A., Drobizhev M., Wolleb H., Spahni H., "Optimizing two-photon optical storage in the presence of hot band absorption", Photonics West 2007, 20-25 January 2007.
48) Makarov N.S., Rebane A., Drobizhev M., Wolleb H., Spahni H., "Resonance enhancement of two-photon cross section for optical storage in the presence of hot band absorption", Photonics West 2007, 20-25 January 2007.
49) Drobizhev M., Makarov N.S., Rebane A., Hughes T.E., "Observation of new strong high-frequency feature in two-photon absorption spectrum of GFP and its description within three-level model with resonance enhancement", Annual Meeting of Biophysical Society 2007, 3-7 March 2007.
50) Makarov N.S., Rebane A., Drobizhev M., Suo Z., Spangler C.W., Spangler B.D., Meng F., Anderson H.L., Wilson C.J., "Quantitative description two-photon absorption in dipolar molecules with two-level model", Optics&Photonics 2007, 26-30 August 2007.
51) Drobizhev M., Makarov N.S., Rebane A., Hughes T.E., "Observation of new strong high-frequency feature in two-photon absorption spectrum of GFP and its description with three-level model with resonance enhancement", Optics&Photonics 2007, 26-30 August 2007.
52) Drobizhev M., Makarov N.S., Rebane A., de la Torre G., Torres T., Wolleb H., Spahni H., "Two-photon and excited-state absorption in asymmetric phthalocyanines, push-pull phthalocyanines, and phthalocyanines: electron-acceptor diads", Optics&Photonics 2007, 26-30 August 2007.
53) Rebane A., Drobizhev M., Makarov N.S., Spangler C.W., Gong A., Meng. F., "Broad bandwidth near-IR two-photon absorption in conjugated porphyrins core dendrimers", Optics&Photonics 2007, 26-30 August 2007.
54) Makarov N.S., Rebane A., Drobizhev M., Suo Z., Spangler C.W., Spangler B.D., Meng F., Anderson H.L., Wilson C.J., "Forecasting two-photon absorption based on one-photon properties", OpTeC 2007, 20 September 2007.
55) Makarov N.S., Rebane A., Drobizhev M., Suo Z., Spangler C.W., Spangler B.D., Meng F., Anderson H.L., Wilson C.J., "Quantitative description two-photon absorption in dipolar molecules with two-level model", OpTeC 2007, 20 September 2007.
56) Drobizhev M., Makarov N.S., Rebane A., Hughes T.E., "Observation of new strong high-frequency feature in two-photon absorption spectrum of GFP and its description with three-level model with resonance enhancement", OpTeC 2007, 20 September 2007.
57) Drobizhev M., Makarov N.S., Rebane A., "Two-photon absorption spectroscopy of phthalocyanines", OpTeC 2007, 20 September 2007.
58) Drobizhev M., Makarov N.S., Rebane A., Hughes T.E. "Strong resonance enhancement of two-photon absorption in fluorescent proteins", Photonics West 2008, 19-24 January 2008.
59) Makarov N.S., Drobizhev M., Rebane A., "Two-photon absorption standards in the 550-1600 nm excitation range: establishing a correction curve for accurate cross section calibration", Photonics West 2008, 19-24 January 2008.
60) Rebane A., Drobizhev M., Makarov N.S., "Ultrafast coherent transients and time-space holography in inhomogeneously broadened two-photon absorbing medium", Photonics West 2008, 19-24 January 2008.
61) Makarov N.S., "Two-photon absorption of organic molecules: Fundamentals and applications", MSU 2008 Student Research Celebration, 15 April 2008.
62) Makarov N.S., Drobizhev M., Rebane A., "Environment-sensitive two-photon dye", Optics&Photonics 2008, 10-14 August 2008.
63) Drobizhev M., Makarov N.S., Rebane A., "Quantitative description of two-photon absorption with few essential states models", Optics&Photonics 2008, 10-14 August 2008.
64) Makarov N.S., Beuerman E., Drobizhev M., Starkey J., Rebane A., "Local-environment-sensitive two-photon dye", OPTEC 2008, 27 August 2008.
65) Beuerman E., Makarov N.S., Drobizhev M., Rebane A., "Measuring Stokes shifts in Rhodamines: towards quantitative description of vibronic two-photon absorption", OPTEC 2008, 27 August 2008.
66) Coll Segara D., Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Developing fully automated small animal near-IR photodynamic therapy testbed", OPTEC 2008, 27 August 2008.
67) Rebane A.K., Drobizhev M.A., Makarov N., Koszarna B., Tasior M., Gryko D.T., "Two-photon absorption spectroscopy of corroles", Photonics West 2009, 24-29 January 2009.
68) Drobizhev M.A., Tillo S., Makarov N.S., Hughes T.E., Rebane A.K., "Quantitative characterization of linear and nonlinear absorption of fluorescent proteins", Photonics West 2009, 24-29 January 2009.
69) Makarov N.S., Drobizhev M.A., Beuerman E., Rebane A.K., "Vibronic intensity redistribution results in a blue shift of two-photon absorption peak with respect to one-photon maximum", Photonics West 2009, 24-29 January 2009.
70) Drobizhev M.A., Tillo S., Makarov N., Hughes T.E., Rebane A.K., "Searching for the two-photon brightest red fluorescent protein and its optimum excitation wavelength", Photonics West 2009, 24-29 January 2009.
71) Drobizhev M., Tillo S., Makarov N., Rebane A., Hughes T.E., "Absolute Two-photon Absorption Spectra Of Orange And Red Fluorescent Proteins", 53rd annual meeting of biophysical society, 28 February - 4 March 2009.
72) Makarov N.S., "Two-photon absorption of organic molecules: From basics to applications", MSU 2009 Student Research Celebration, 14 April 2009.
73) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Hyperspectral two-photon near-infrared cancer imaging at depth", International Photodynamic Association World Congress 2009, 11-15 June 2009.
74) Rebane A., Drobizhev M., Makarov N., Hughes T., Tillo S., "New all-optical method for measuring molecular permanent dipole moment difference using two photon absorption spectroscopy", 10th International Conference on Hole Burning, Single Molecule and Related Spectroscopies: Science and Applications, 20-27 June 2009.
75) Drobizhev M., Tillo S., Makarov N., Hughes T., Rebane A., "Two-photon absorption in fluorescent proteins: from accurate quantitative characterization to understanding structure-property relationships", Optics&Photonics 2009, 2-6 August 2009.
76) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Hyperspectral two-photon near-infrared cancer imaging in-vitro and in-vivo", Optics&Photonics 2009, 2-6 August 2009.
77) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "In-vitro and in-vivo two-photon near-infrared cancer imaging", OPTEC 2009, 20 August 2009.
78) Makarov N.S., Starkey J., Drobizhev M., Rebane A., "Two-photon near-infrared cancer imaging", Computational optical sensing and imaging congress 2009, part of OSA Frontiers in Optics 2009, 11-15 October 2009.
79) Drobizhev M., Tillo S., Makarov N., Hughes T.E., Rebane A., "Color hues in fruit fluorescent proteins are due to internal quadratic Stark effect", Fluorescent Proteins and Biological Sensors II, 1-4 November 2009.
80) Drobizhev M.A., Tillo S., Makarov N.S., Hughes T.E., Rebane A., “Strong local electric fields in red fluorescent proteins result in quadratic Stark shifts of their absorption peaks”, Photonics West 2010, 23-28 January 2010.
81) Rebane A., Drobizhev M.A., Makarov N.S., Beuerman E., Nacke C., Pahapill J., “Numerical modeling of non-Lorentzian two-photon absorption line shape in dipolar chromophore”, Photonics West 2010, 23-28 January 2010.
82) Rebane A.K., Drobizhev M.A., Makarov N.S., Beuerman E., Zhao Y., Spangler C.W.,“ Maximizing two-photon absorption cross section within few essential state models”, Photonics West 2010, 23-28 January 2010.
83) Beuerman E., Makarov N.S., Drobizhev M.A., Rebane A.K., “Justification of two-level approximation for description of two-photon absorption in Oxazine dyes”, Photonics West 2010, 23-28 January 2010.
84) Drobizhev M., Tillo S., Makarov N.S., Rebane A., Hughes T., "Color hues in fluorescent proteins with the same chromophore are due to internal quadratic stark effect", 54th Annual Meeting of Biophysical Society, 20-24 February 2010.
85) Rebane A., Drobizhev M., Tillo S., Makarov N.S., Hughes T., "Origin of different color hues in fluorescent proteins with the same chromophore", American Physical Society March Meeting, 15-19 March 2010.
86) Makarov N.S. Drobizhev M., Makarova E.A., Lukyanets E.A., Rebane A., "Quantitative nonlinear spectroscopy of free-base tribenzo-tetraazachlorin", MSU 2009 Student Research Celebration, 8 April 2010.
87) Drobizhev M., Tillo S., Makarov N.S., Rebane A., Hughes T., "Internal quadratic stark effect results in color hue variations in fluorescent proteins with the same chromophore structure", OSA/CLEO/QELS 2010, 16-21 May 2010.
88) Drobizhev M., Tillo S., Makarov N.S., Davis B., Callis P.R., Rebane A., Hughes T., "Strong internal electric fields tune hue of fluorescent proteins via Stark effect", International Symposium on Functional Pi-Electron Systems, 23-28 May 2010.
89) Tan L.-S., Dalton M.J., Jakubiak R., Kannan R., Haley J.E., Makarov N.S., Rebane A., Urbas A.M., Cooper T.M., "Synthesis and characterization of a novel film-forming, two-photon absorbing benzobisthiazole polymer and related model compound", International Symposium on Functional Pi-Electron Systems, 23-28 May 2010.
90) Makarov N.S., Drobizhev M., Makarova E.A., Lukyanets E.A., Rebane A., "Two-photon spectroscopy allows for probing of the pi-conjugation pathway in tetrapyrolles", Optics&Photonics 2010, 1-5 August 2010.
91) Drobizhev M., Tilo S.E., Makarov N.S., Davis B.H., Callis P.R., Rebane A.K., Hughes T.E., "Strong internal electric fields in fluorescent proteins tune their hues via quadratic Stark effect", Optics&Photonics 2010, 1-5 August 2010.
92) Drobizhev M., Makarov N.S., Davis B.H., Rebane A.K., Hughes T.E., Callis P.R., Tillo S.E., "Quadratic Stark effect tunes spectrum of ?uorescent proteins", Photonics West 2011, 22-27 January 2011.
93) Drobizhev M., Makarov N.S., Tillo S.E., Hughes T.E., Rebane A.K., "Herzberg-Teller vibronic contribution to mesomeric dipole moment determines two-photon absorptivity of fuorescent proteins", Photonics West 2011, 22-27 January 2011.
94) Rebane A.K., Drobizhev M., Makarov N.S., Beuerman E.B., Cooper T.M., Rogers-Haley J.E., McLean D.G., Slagle J.E., Krein D.M., Monahan J.L., Burke A.R., Fratini A., "Effects of ligand on two-photon absorption of platinum acetylide complexes", Photonics West 2011, 22-27 January 2011.
95) Hales J.M., Matichak J.D., Lin H.C., Shi Y.R., Campo J., Makarov N, Kim H., Jang S.H., Jen A.K-Y., Marder S.R., Perry J.W., "Organic Materials for Zeno-Based Optical Switching", 2011 Conference on Lasers and Electro-Optics (CLEO), 1-6 May 2011.
96) Makarov N.S., Hales J., Perry J.W., "Dual channel system for two-photon excited fluorescence-based relative measurements of high accuracy two-photon absorption spectra", 42nd Annual meeting of the APS division of Atomic, Molecular and Optical physics, 13-17 June 2011. 97) Makarov N.S., Kada Y., Mukhopadhyay S., Bredas J.-L., Perry J.W., Pron A., Kivala M., Mullen K., "Role of symmetry and planarization in one- and two-photon properties of conjugated compounds based on arylamine donors and arylborane acceptors", Optics&Photonics 2011, 21-25 August 2011.
98) Makarov N.S., Lau P.C., Kieu K., Norwood R.A., Peyghambarian N., Perry J.W., "Correlating one-photon, two-photon and excited state spectroscopy of CdSe quantum dots", 2012 Conference on Lasers and Electro-Optics (CLEO), 6-11 May 2012.
99) Hales J., Campo J., Makarov N.S., Shi Y., Barlow S., Marder S.R., Perry J., "Dispersion of the third-order nonlinear optical response of organics using a few state model", 2012 Conference on Lasers and Electro-Optics (CLEO), 6-11 May 2012.
100) Makarov N.S., Lau P.C., Kieu K., Norwood R.A., Peyghambarian N., Perry J.W., "Nonlinear-absorption spectroscopy of CdSe quantum dots", 7th International Conference on Quantum Dots, 13-18 May 2012.
101) Makarov N.S., Lin Q., Velizhanin K., Koh W.-K., Klimov V.I., "PbSe/CdSe Core-Shell Colloidal Quantum Dots with Enhanced Optical Nonlinearities", Los Alamos National Lab 4th Annual Postdoc Research Day, 5 June 2013.
102) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "PbSe/CdSe core-shell colloidal quantum dots with enhanced optical nonlinearities and dual-band infrared/visible emission", OSA Nonlinear Optics 2013, 21-26 July 2013.
103) Makarov N.S., Lin Q., Koh W.-K., Klimov V.I., "Upconversion of infrared radiation in PbSe/CdSe core-shell colloidal quantum dots", Center for Advanced Solar Photophysics 2013 Annual Meeting, 30 July - 2 August 2013.
104) Lin Q., Makarov N.S., Koh W.-K., Velizhanin K., Cirloganu C., Luo H., Pietryga J.M., Klimov V.I., "Dual-emitting PbSe/CdSe quantum dots: understanding thermodynamics and kinetics of cation exchange and exciton behavior of core/shell structures", Center for Advanced Solar Photophysics 2013 Annual Meeting, 30 July - 2 August 2013.
105) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "PbSe/CdSe core-shell colloidal quantum dots with enhanced optical nonlinearities and dual-band infrared/visible emission", OSA Nonlinear Optics 2013, 21-26 July 2013.
106) Makarov N.S., Lin Q., Koh W.-K., Klimov V.I., "Upconversion of infrared radiation in PbSe/CdSe core-shell colloidal quantum dots", Optics&Photonics 2013, 25-29 August 2013.
107) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "Efficient Auger-assisted upconversion in PbSe/CdSe core/shell colloidal quantum dots", SPIE Photonics West 2014, 1-6 February 2014.
108) Baker T., Guo S., Koh W.-K., Makarov N.S., Fidler A., Robel I., Klimov V.I., "Single molecule approaches for two dimensional nanostructures", APS March Meeting, 3-7 March 2014.
109) Fidler A.F., Koh W.-K., Cirloganu C.M., Makarov N.S., Robel I., Klimov V.I., "Ultrafast optical studies of carrier relaxation dynamics in PbSe nanoplatelets", APS March Meeting, 3-7 March 2014.
110) McDaniel H., Fuke N., Makarov N.S., Pietryga J.M., Klimov V.I., "An integrated approach to realizing high-performance liquid-junction quantum dot sensitized solar cells", APS March Meeting, 3-7 March 2014.
111) Makarov N.S., McDaniel H., Robel I., Klimov V.I., "Ultrafast spectroscopy of CuInSeS colloidal quantum dots: Auger recombination, carrier multiplication, and electron transfer", APS March Meeting, 3-7 March 2014.
112) Makarov N.S., Lin Q., McDaniel H., Velizhanin K.A., Cirloganu C.M., Padilha L.A., Koh W-K., Fuke N., Robel I., Pietryga J.M., Klimov V.I., "Ultrafast spectroscopy helps optimize third-generation quantum dot solar cells", 34th CNLS Annual Conference "Mesoscale Science Frontiers", 13-16 May 2014.
113) McDaniel H., Makarov N.S., Fuke N., Robel I., Klimov V.I., "Photocharging Artifacts in Spectroscopy of Less-toxic Quantum Dots", 34th CNLS Annual Conference "Mesoscale Science Frontiers", 13-16 May 2014.
114) Makarov N.S., McDaniel H., Robel I., Klimov V.I., "Ultrafast spectroscopy of CuInSeS quantum dots in relation to their applications in solar energy conversion", 2014 Conference on Excited State Processes, 9-12 June 2014.
115) Makarov N.S., Lin Q., McDaniel H., Velizhanin K.A., Cirloganu C.M., Padilha L.A., Koh W-K., Fuke N., Robel I., Pietryga J.M., Klimov V.I., "Ultrafast spectroscopy helps optimize third-generation quantum dot solar cells", Los Alamos National Lab 5th Annual Postdoc Research Day, 11 June 2014.
116) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "Auger up-conversion in engineered core/shell quantum dots", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
117) Makarov N.S., McDaniel H., Robel I., Klimov V.I., "Ultrafast spectroscopy of CuInSeS colloidal quantum dots: Auger recombination, carrier multiplication, and electron transfer", Optics&Photonics 2014, 17-21 August 2014.
118) Lin Q., Koh W.-K., Makarov N.S., Isaienko O., Luo H., Klimov V.I., Pietryga J.M., "Synthesis of PbTe nanorods, nanowires, and nanorings by oriented attachment", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
119) Makarov N.S., Lin Q., McDaniel H., Velizhanin K.A., Cirloganu C.M., Padilha L.A., Koh W.-K., Robel I., Pietryga J.M., Wheeler L., Neale N., Kortshagen U., Klimov V.I., "New approaches to photoconversion with quantum dots tested using ultrafast spectroscopy", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
120) Makarov N.S., McDaniel H., Fuke N., Robel I., Klimov V.I., "Photocharging artifacts in measurements of electron transfer in quantum-dot-sensitized mesoporous titania films", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
121) Robel I., Makarov N.S., Wheeler L.M., Kortshagen U.R., Neale N.R., Shabaev A., Efros A.L., Klimov V.I., "Group IV semiconductor nanomaterials for third generation photovoltaics", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
122) Fidler A.F., Koh W.-K., Makarov N.S., Cirloganu C.M., Robel I., Klimov V.I., "Towards understanding the role of nanoparticle morphology in controlling carrier multiplication yields", Center for Advanced Solar Photophysics 2014 Annual Meeting, 25-26 August 2014.
123) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "Auger up-conversion in engineered heterostructured quantum dots for applications in solar energy conversion", Gordon Research Seminar/Conference "Nanomaterials for Applications in Energy Technology", 21-27 February 2015.
124) Makarov N.S., Lin Q., Velizhanin K., Klimov V.I., "Auger up-conversion in engineered heterostructured quantum dots for applications in solar energy conversion", 249th American Chemical Society National Meeting, 22-26 March 2015.
125) Makarov N.S., Lin Q., Klimov V.I., "Auger up-conversion in engineered heterostructured quantum dots for applications in solar energy conversion", 20 Years of Quantum Dots at Los Alamos, 12-16 April 2015.
126) Lin Q., Makarov N.S., Koh W.-K., Baker T., Isaienko O., Chen G., Luo H., Klimov V.I., Pietryga J.M., "Synthesis of PbTe nanorods, nanowires, and nanorings by oriented attachment", 20 Years of Quantum Dots at Los Alamos, 12-16 April 2015.
127) Makarov N.S., Gao S., Isaienko O., Robel I., Pietryga J.M., Klimov V.I., "Ultrafast spectroscopy of perovskite quantum dots", Los Alamos National Lab 6th Annual Postdoc Research Day, 17 June 2015.
128) Makarov N.S., McDaniel H., Fuhr A., Klimov V.I., "Mechanism for highly efficient intra-gap emission from CuInSexS2-x quantum dots", 7th International Conference on Excited State Processes in Electronic and Bio Nanomaterials, 13-16 June 2016.
129) Makarov N.S. “CuInSeS/ZnS quantum dots with near-unity quantum yield: development, challenges, and applications”, TRSC Workshop “Nanomaterials: Computation, Theory, and Experiment”, 11-15 July 2017.
130) Makarov N.S. “Development and applications of bright CuInSeS/ZnS quantum dots with near-unity quantum yield”, Optics-2017, 16-20 October 2017.
131) Makarov N.S., Ramasamy K., Jackson A., Velarde A., McDaniel H., “Fiber-coupled bright broadband near-infrared light source for spectral tissue sensing,”, Optics&Photonics 2018, 19-23 August 2018.
132) Makarov N.S., “Visible-to-near-infrared CuInSeS/ZnS quantum dots with near-unity quantum yield: optical properties and applications”, Chemistry seminar series at the New-York University at Abu-Dhabi, 22 November 2018.
133) Makarov N.S., Ramasamy K., Jackson A., Velarde A., Bergren M., McDaniel H., “Optimization Challenges in Applications of Visible-to-Near-Infrared CuInSeS/ZnS Quantum Dots”, Computational Data Science Approaches for Materials, 8-10 April 2019.
© 2003-2022 Nikolay S. Makarov
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