Original paper:
1. Intracellular accumulation of indium ions released from nanoparticles induces oxidative stress, proinflammatory response and DNA damage
Tabei, A. Sonoda, Y. Nakajima, V. Biju, Y. Makita, Y. Yoshida and M. Horie, J. Biochem., 2016, 159, 225-237.
2. Single-particle spectroscopy of I-III-VI semiconductor nanocrystals: spectral diffusion and suppression of blinking by two-color excitation
K. Sharma, S. Hirata, L. Bujak, V. Biju, T. Kameyama, M. Kishi, T. Torimoto and M. Vacha, Nanoscale, 2016, 8, 13687-13694.
3. Fluorescence detection of the pathogenic bacteria Vibrio harveyi in solution and animal cells using semiconductor quantum dots
Arshad, A. Anas, A. Asok, C. Jasmin, S. S. Pai, I. S. B. Singh, A. Mohandas and V. Biju, RSC Adv., 2016, 6, 15686-15693.
4. Sensing of ozone based on its quenching effect on the photoluminescence of CdSe-based core-shell quantum dots
Ando, T. Kamimura, K. Uegaki, V. Biju and Y. Shigeri, Microchim. Acta, 2016, 183, 3019-3024.
5. Auger ionization beats photo-oxidation of semiconductor quantum dots: extended stability of single-molecule photoluminescence
Yamashita, M. Hamada, S. Nakanishi, H. Saito, Y. Nosaka, S. I. Wakida and V. Biju, Angew. Chem. Int. Ed., 2015, 54, 3892-3896.
6. In vitro evaluation of the cellular effect of indium tin oxide nanoparticles using the human lung adenocarcinoma A549 cells
Tabei, A. Sonoda, Y. Nakajima, V. Biju, Y. Makita, Y. Yoshida and M. Horie, Metallomics, 2015, 7, 816-827.
7. Fluorescence quenching of CdSe/Zns quantum dots by using black hole quencher molecules intermediated with peptide for biosensing application
S. Pillai, H. Yukawa, D. Onoshima, V. Biju and Y. Baba, Cell Med., 2015, 8, 57-62.
8. Fluctuating single sp2 carbon clusters at single hotspots of silver nanoparticle dimers investigated by surface-enhanced resonance raman scattering
Itoh, Y. S. Yamamoto, V. Biju, H. Tamaru and S. Wakida, AIP Adv., 2015, 5, 127113.
9. Nanoparticles speckled by ready-to-conjugate lanthanide complexes for multimodal imaging
Biju, M. Hamada, K. Ono, S. Sugino, T. Ohnishi, E. S. Shibu, S. Yamamura, M. Sawada, S. Nakanishi, Y. Shigeri and S. Wakida, Nanoscale, 2015, 7, 14829-14837.
10. SERS microscopic imaging as novel tool for assessing viability and enumerating yeast cells at various stages of cell cycle in lag, log, exponential and stationary phases of growth in culture
S. Kiran, T. Itoh, H. Abe, Y. Fujita, K. Tomimoto, V. Biju, S. Kavitha, A. Ganamani and M. Ishikawa, J. Exp. Nanosci., 2014, 9, 1003-1014.
11. Draining out the last electron: photochemistry helps out solar cell technology (cover page and summary of issue 4/2014)
Hamada, N. Takenokoshi, K. Matozaki, Q. Feng, N. Murase, S. Wakida, S. Nakanishi and V. Biju, J. Phys. Chem. C, 2014, 118.
12. In situ photochemical surface passivation of CdSe/ZnS quantum dots for quantitative light emission and enhanced photocurrent response in solar cells
Hamada, N. Takenokoshi, K. Matozaki, Q. Feng, N. Murase, S. Wakida, S. Nakanishi and V. Biju, J. Phys. Chem. C, 2014, 118, 2178-2186.
13. Single quantum dot tracking reveals that an individual multivalent HIV-1 tat protein transduction domain can activate machinery for lateral transport and endocytosis
Suzuki, C. N. Roy, W. Promjunyakul, H. Hatakeyama, K. Gonda, J. Imamura, V. Biju, N. Ohuchi, M. Kanzaki, H. Higuchi and M. Kaku, Mol. Cell. Biol., 2013, 33, 3036-3049.
14. Singlet-oxygen-sensitizing near-infrared-fluorescent multimodal nanoparticles
S. Shibu, S. Sugino, K. Ono, H. Saito, A. Nishioka, S. Yamamura, M. Sawada, Y. Nosaka and V. Biju, Angew. Chem. Int. Ed., 2013, 52, 10559-10563.
15. Photouncaging nanoparticles for mri and fluorescence imaging in vitro and in vivo
S. Shibu, K. Ono, S. Sugino, A. Nishioka, A. Yasuda, Y. Shigeri, S. Wakida, M. Sawada and V. Biju, ACS Nano, 2013, 7, 9851-9859.
16. Nanomaterials formulations for photothermal and photodynamic therapy of cancer
S. Shibu, M. Hamada, N. Murase and V. Biju, J. Photochem. Photobio. C, 2013, 15, 53-72.
17. Impairments of cells and genomic DNA by environmentally transformed engineered nanomaterials
Jones, S. Sugino, S. Yamamura, F. Lacy and V. Biju, Nanoscale, 2013, 5, 9511-9516.
18. Photofabrication of fullerene-shelled quantum dots supramolecular nanoparticles for solar energy harvesting
S. Shibu, A. Sonoda, Z. Q. Tao, Q. Feng, A. Furube, S. Masuo, L. Wang, N. Tamai, M. Ishikawa and V. Biju, ACS Nano, 2012, 6, 1601-1608.
19. FRET from quantum dots to photodecompose undesired acceptors and report the condensation and decondensation of plasmid DNA
Biju, A. Anas, H. Akita, E. S. Shibu, T. Itoh, H. Harashima and M. Ishikawa, ACS Nano, 2012, 6, 3776-3788.
20. Blinking suppression in semiconductor quantum dots for single-molecule imaging
Biju, Chem. Chem. Industry, 2011, 64, 625.
21. Single-molecule FRET imaging for enzymatic reactions at high ligand concentrations
Sugawa, S. Nishikawa, A. H. Iwane, V. Biju and T. Yanagida, Small, 2010, 6, 346-350.
22. Reversible dimerization of EGFR revealed by single-molecule fluorescence imaging using quantum dots
Kawashima, K. Nakayama, K. Itoh, T. Itoh, M. Ishikawa and V. Biju, Chem. Eur. J., 2010, 16, 1186-1192.
23. Blinking suppression in CdSe/ZnS single quantum dots by TiO2 nanoparticles
Hamada, S. Nakanishi, T. Itoh, M. Ishikawa and V. Biju, ACS Nano, 2010, 4, 4445-4454.
24. Bioconjugated quantum dots for cancer research: Present status, prospects and remaining issues
Biju, S. Mundayoor, R. V. Omkumar, A. Anas and M. Ishikawa, Biotechnol. Adv., 2010, 28, 199-213.
25. Quantum dots for painting cells
Biju, Highlights in Chem. Biol. 2010, 6, 7.
26. Clathrin-mediated endocytosis of quantum dot-peptide conjugates in living cells
Anas, T. Okuda, N. Kawashima, K. Nakayama, T. Itoh, M. Ishikawa and V. Biju, ACS Nano, 2009, 3, 2419-2429.
27. Photoluminescence quenching and intensity fluctuations of cdse-zns quantum dots on an ag nanoparticle film
Matsumoto, R. Kanemoto, T. Itoh, S. Nakanishi, M. Ishikawa and V. Biju, J. Phys. Chem. C, 2008, 112, 1345-1350.
28. Relations between dewetting of polymer thin films and phase-separation of encompassed quantum dots
Kanemoto, A. Anas, Y. Matsumoto, R. Ueji, T. Itoh, Y. Baba, S. Nakanishi, M. Shikawa and V. Biju, J. Phys. Chem. C, 2008, 112, 8184-8191.
29. Semiconductor quantum dots and metal nanoparticles: Syntheses, optical properties, and biological applications
Biju, T. Itoh, A. Anas, A. Sujith and M. Ishikawa, Anal. Bioanal. Chem., 2008, 391, 2469-2495.
30. Photosensitized breakage and damage of DNA by CdSe-ZnS quantum dots
Anas, H. Akita, H. Harashima, T. Itoh, M. Ishikawa and V. Biju, J. Phys. Chem. B, 2008, 112, 10005-10011.
31. Combined spectroscopic and topographic characterization of nanoscale domains and their distributions of a redox protein on bacterial cell surfaces
Biju, D. Pan, Y. A. Gorby, J. Fredrickson, J. McLean, D. Saffarini and H. P. Lu, Langmuir, 2007, 23, 1333-1338.
32. Quantum dot-insect neuropeptide conjugates for fluorescence imaging, transfection, and nucleus targeting of living cells
Biju, D. Muraleedharan, K. Nakayama, Y. Shinohara, T. Itoh, Y. Baba and M. Ishikawa, Langmuir, 2007, 23, 10254-10261.
33. Photoinduced photoluminescence variations of CdSe quantum dots in polymer solutions
Biju, R. Kanemoto, Y. Matsumoto, S. Ishii, S. Nakanishi, T. Itoh, Y. Baba and M. Ishikawa, J. Phys. Chem. C, 2007, 111, 7924-7932.
34. Fabrication of a quantum dot-polymer matrix by layer-by-layer conjugation
Ishii, R. Ueji, S. Nakanishi, Y. Yoshida, H. Nagata, T. Itoh, M. Ishikawa and V. Biju, J. Photochem. Photobio. A, 2006, 183, 285-291.
35. Close-conjugation of quantum dots and gold nanoparticles to sidewall functionalized single-walled carbon nanotube templates
Biju, T. Itoh, Y. Makita and M. Ishikawa, J. Photochem. Photobio. A, 2006, 183, 315-321.
36. Quenching of photoluminescence in conjugates of quantum dots and single-walled carbon nanotube
Biju, T. Itoh, Y. Baba and M. Ishikawa, J. Phys. Chem. B, 2006, 110, 26068-26074
37. Temperature-sensitive photoluminescence of CdSe quantum dot clusters
Biju, Y. Makita, A. Sonoda, H. Yokoyama, Y. Baba and M. Ishikawa, J. Phys. Chem. B, 2005, 109, 13899-13905.
38. Subsecond luminescence intensity fluctuations of single cdse quantum dots
Biju, Y. Makita, T. Nagase, Y. Yamaoka, H. Yokoyama, Y. Baba and M. Ishikawa, J. Phys. Chem. B, 2005, 109, 14350-14355.
39. Intermittent single-molecule interfacial electron transfer dynamics
Biju, M. Micic, D. H. Hu and H. P. Lu, J. Am. Chem. Soc., 2004, 126, 9374-9381.
40. Spatial heterogeneity in a polymer thin film probed by single molecules
P. Biju, J. Y. Ye and M. Ishikawa, J. Phys. Chem. B, 2003, 107, 10729-10735.
41. Fabrication of standard samples for single-molecule fluorescence imaging
Biju, M. Takeuchi, K. Umemura, M. Gad and M. Ishikawa, Jpn. J. Appl. Phys. 1, 2002, 41, 1579-1586.
42. Fluorophore modified microcontact prints: A methodology for readout using fluorescence microscopy
Biju, M. Gad, W. Mizutani, S. Murata and M. Ishikawa, J. Imaging Sci. Technol., 2002, 46, 155-158.
43. Distribution of single molecules in polymer thin films
Biju, M. Yamauchi and M. Ishikawa, J. Photochem. Photobio. A, 2001, 140, 237-241.
Review paper:
1. Chemical modifications and bioconjugate reactions of nanomaterials for sensing, imaging, drug delivery and therapy
Biju, Chem. Soc. Rev. 2014, 43, 744-764
2. Single-molecular surface-enhanced resonance raman scattering as a quantitative probe of local electromagnetic field: The case of strong coupling between plasmonic and excitonic resonance
Itoh, Y. S. Yamamoto, H. Tamaru, V. Biju, S. Wakida and Y. Ozaki, Phys. Rev. B, 2014, 89.
3. Photoluminescence of Cd/Se and CdSe/ZnS quantum dots: Modifications for making the invisible visible at ensemble and single-molecule levels
S. Shibu, M. Hamada, S. Nakanishi, S. Wakida and V. Biju, Coord. Chem. Rev., 2014, 263, 2-12.
4. Nanomaterials formulations for photothermal and photodynamic therapy of cancer
S. Shibu, M. Hamada, N. Murase and V. Biju, J. Photochem. Photobio. C, 2013, 15, 53-72.
5. Single-molecule photochemical reactions of Auger-ionized quantum dots
Hamada, E. S. Shibu, T. Itoh, M. S. Kiran, S. Nakanishi, M. Ishikawa and V. Biju, Nano Rev., 2011, 2, 6366-6361-6365.
6. Delivering q#uantum dots to cells: Bioconjugated quantum dots for targeted and nonspecific extracellular and intracellular imaging
Biju, T. Itoh and M. Ishikawa, Chem. Soc. Rev., 2010, 39, 3031-3056.
Book chapter:
1. Prospects of semiconductor quantum dots for imaging and photodynamic therapy of cancer
Biju, S. Mundayoor, A. Anas, M. Ishikawa, Nanomaterials for Life Science, Wiley-VCH (2011).
2. Photoluminescence of CdSe quantum dots: Shifting, enhancement, and blinking
Biju, M, Ishikawa, Molecular Nanodynamics, Volume I and II, pp.293-314, Wiley-VCH (2009).