Leading research on Quantum Diamonds
Micron-scale SABRE-enhanced NV-NMR Spectroscopy.
Arunkumar, N., Bucher, D. B., Turner M., TomHon P., Glenn, D., Lehmkuhl, S., Lukin, M., Park, H., Rosen, M., Theis, T. and Walsworth, R. L. Micron-scale SABRE-enhanced NV-NMR Spectroscopy. PRX Quantum 2, 010305 (2021)
Orientation-independent room temperature optical 13C hyperpolarization in powdered diamond
Ajoy, A., Liu, K., Nazaryan, R., Lv, X., Zangara, P. R., Safvati, B., Wang, G., Arnold, D., Li, G., Lin, A., Raghavan, P., Druga, E., Dhomkar, S., Pagliero, D., Reimer, J. A., Suter, D., Meriles, C. A., & Pines, A. (2018). Orientation-independent room temperature optical 13 C hyperpolarization in powdered diamond. Science Advances, 4(5), eaar5492. https://doi.org/10.1126/sciadv.aar5492
Geometry dependence of micron-scale NMR signals on NV-diamond chips
Bruckmaier, F., Briegel, K. D. & Bucher, D. B. (2021). Geometry dependence of micron-scale NMR signals on NV-diamond chips. Journal of Magnetic Resonance Open, 8–9, 100023. https://doi.org/10.1016/j.jmro.2021.100023
Microfluidic quantum sensing platform for lab-on-a-chip applictions
Allert, R. D., Bruckmaier, F., Neuling, N. R., Freire-Moschovitis, F. A., Liu, K. S., Schrepel, C., ... & Bucher, D. B. (2022). Microfluidic quantum sensing platform for lab-on-a-chip applications. Lab on a Chip.
Quantum diamond spectrometer for nanoscale NMR and ESR spectroscopy.
Bucher, D. B.°, Aude Craik, D. P. L., Backlund, M. P., Turner, M., Glenn, D. R. and Walsworth, R. L°. Quantum diamond spectrometer for nanoscale NMR and ESR spectroscopy. Nature Protocols 14, 2707–2747 (2019)
Microfluidic quantum sensing platform for lab-on-a-chip applications
Allert, R. D., Bruckmaier, F., Neuling, N. R., Freire-Moschovitis, F. A., Liu, K. S., Schrepel, C., ... & Bucher, D. B. (2022). Microfluidic quantum sensing platform for lab-on-a-chip applications. Lab on a Chip.
Microfluidic quantum sensing platform for lab-on-a-chip applications
Allert, R. D., Bruckmaier, F., Neuling, N. R., Freire-Moschovitis, F. A., Liu, K. S., Schrepel, C., ... & Bucher, D. B. (2022). Microfluidic quantum sensing platform for lab-on-a-chip applications. Lab on a Chip.
Surface NMR using quantum sensors in diamond
Liu, K., Henning, A., Heindl M. W., Allert R. D., Bartl J. D., Sharp I. D., Rizzato R., Bucher, D. B.°, Surface NMR using quantum sensors in diamond, PNAS, 119 (5) e2111607119 (2022)
Advances in nano- and microscale NMR spectroscopy using diamond quantum sensors
Allert, R. D., Briegel, K. D., & Bucher, D. B. (2022). Advances in nano-and microscale NMR spectroscopy using diamond quantum sensors. Chemical Communications, 58(59), 8165-8181.
Hyperpolarized in vivo pH imaging reveals grade-dependent acidification in prostate cancer
Korenchan, D. E., Bok, R., Sriram, R., Liu, K., Santos, R. D., Qin, H., Lobach, I., Korn, N., Wilson, D. M., Kurhanewicz, J., & Flavell, R. R. (2019). Hyperpolarized in vivo pH imaging reveals grade-dependent acidification in prostate cancer. Oncotarget, 10(58), 6096–6110. https://doi.org/10.18632/oncotarget.27225
Hyperpolarization-enhanced NMR spectroscopy with femtomole sensitivity using quantum defects in diamond.
Bucher, D. B.°, Glenn, D. R., Park, H., Lukin, M. D., Walsworth, R. L.° Hyperpolarization-enhanced NMR spectroscopy with femtomole sensitivity using quantum defects in diamond. Physical Review X 10, 021053 (2020)
Principes of Nano- and Microscale NMR Spectroscopy with NV-Diamond Sensors.
Bucher, D. B.°. Principes of Nano- and Microscale NMR Spectroscopy with NV-Diamond Sensors. eMagRes 8, 1-8, 2019 ( https://doi.org/10.1002/9780470034590.emrstm1619 )
Advances in nano- and microscale NMR spectroscopy using diamond quantum sensors.
Allert D. R., Briegel K. D., Bucher D. B.°, Advances in nano- and microscale NMR spectroscopy using diamond quantum sensors. Chemical Communications 58, 8165 - 8181 (2022)
UV‐Induced Charge Transfer States in Short Guanosine‐Containing DNA Oligonucleotides.
Kufner, C., Zinth, W., Bucher, D. B.°, UV‐Induced Charge Transfer States in Short Guanosine‐Containing DNA Oligonucleotides. ChemBioChem 21, 1 –6 (2020), selected as "very important paper"
Quantum Logic Enhanced Sensing in Solid-State Spin Ensembles
Arunkumar N.,Olsson K.S., Oon J. T, Hart C., Bucher D.B., Glenn D., Lukin M. D., Park H., Ham D., Walsworth R. L. Quantum Logic Enhanced Sensing in Solid-State Spin Ensembles, arXiv:2203.12501
Unveiling the Zero-Phonon Line of the Boron Vacancy Center by Cavity Enhanced Emission
Qian, C., Villafañe, V., Schalk, M., Astakhov, G. V., Kentsch, U., Helm M., Soubelet, P., Wilson N. P., Rizzato, R., Mohr S., Bucher, D. B., Stier, A. V., Finley, J. J. Unveiling the Zero-Phonon Line of the Boron Vacancy Center by Cavity Enhanced Emission. Nano Letters. 22, 13, 5137–5142 (2022)
Surface NMR using quantum sensors in diamond
Liu, K. S., Henning, A., Heindl, M. W., Allert, R. D., Bartl, J. D., Sharp, I. D., Rizzato, R., & Bucher, D. B. (2022). Surface NMR using quantum sensors in diamond. Proceedings of the National Academy of Sciences, 119(5), e2111607119. https://doi.org/10.1073/pnas.2111607119
Using metal-organic frameworks to confine liquid samples for nanoscale NV-NMR
Liu, K., Ma, X., Rizzato R. Semrau A., Henning, A., Sharp I. D., Fischer R A., Bucher, D. B.°, Using metal-organic frameworks to confine liquid samples for nanoscale NV-NMR, arXiv:2209.05308
Polarization Transfer from Optically Pumped Ensembles of N-V Centers to Multinuclear Spin Baths
Rizzato, R., Bruckmaier, F., Liu, K., Glaser, S. & Bucher, D. (2022). Polarization Transfer from Optically Pumped Ensembles of N- V Centers to Multinuclear Spin Baths. Physical Review Applied, 17(2). https://doi.org/10.1103/physrevapplied.17.024067
Geometry dependence of micron-scale NMR signals on NV-diamond chips.
F. Bruckmaier, K. Briegel, D .B. Bucher° Geometry dependence of micron-scale NMR signals on NV-diamond chips. Journal of Magnetic Resonance Open, 100023 (2021)
Polarization transfer from optically pumped ensembles of NV centers to multinuclear spin baths
Rizzato, R., Bruckmaier, F., Liu K. S., Glaser, S., Bucher, D. B.° Polarization transfer from optically pumped ensembles of NV centers to multinuclear spin baths, Phys. Rev. Applied 17, 024067 (2022)
Surface NMR using quantum sensors in diamond
Liu, K. S., Henning, A., Heindl, M. W., Allert, R. D., Bartl, J. D., Sharp, I. D., ... & Bucher, D. B. (2022). Surface NMR using quantum sensors in diamond. Proceedings of the National Academy of Sciences, 119(5), e2111607119.
