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The economic effects of harmful algal blooms in the United States: estimates, assessment issues, and information needs

Build and Broaden 3.0 AND Program Evaluation

Anderson DM, Hoagland P.
GSID: cO7tHhlSPjIJ
P Hoagland, DM Anderson, Y Kaoru, AW White - Estuaries, 2002 - Springer

During the last several decades, harmful algal bloom (HAB) events have been observed in more locations than ever before throughout the United States. Scientists have identified a larger number of algal species involved in HABs, more toxins have been...

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Hoagland, P. A. D. M., Anderson, D. M., Kaoru, Y., & White, A. W. (2002). The economic effects of harmful algal blooms in the United States: estimates, assessment issues, and information needs. Estuaries, 25(4), 819-837.
Hoagland, P. A. D. M., et al. "The economic effects of harmful algal blooms in the United States: estimates, assessment issues, and information needs." Estuaries 25.4 (2002): 819-837.
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On the biology of creativity.

JAMA

Hoagland H.
PMID: 5897884
JAMA. 1965 Dec 27;194(13):1369-70.

No abstract available.

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Hoagland H. On the biology of creativity. JAMA. 1965;194(13):1369-70
Hoagland, H. (1965). On the biology of creativity. JAMA, 194(13), 1369-70.
Hoagland, H. "On the biology of creativity." JAMA vol. 194,13 (1965): 1369-70.
Hoagland H. On the biology of creativity. JAMA. 1965 Dec 27;194(13):1369-70. PMID: 5897884.
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Passivation Using Molecular Halides Increases Quantum Dot Solar Cell Performance.

Advanced materials (Deerfield Beach, Fla.)

Lan X, Voznyy O, Kiani A, García de Arquer FP, Abbas AS, Kim GH, Liu M, Yang Z, Walters G, Xu J, Yuan M, Ning Z, Fan F, Kanjanaboos P, Kramer I, Zhitomirsky D, Lee P, Perelgut A, Hoogland S, Sargent EH.
PMID: 26576685
Adv Mater. 2016 Jan 13;28(2):299-304. doi: 10.1002/adma.201503657. Epub 2015 Nov 18.

A solution-based passivation scheme is developed featuring the use of molecular iodine and PbS colloidal quantum dots (CQDs). The improved passivation translates into a longer carrier diffusion length in the solid film. This allows thicker solar-cell devices to be...

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Lan X, Voznyy O, Kiani A, et al. Passivation Using Molecular Halides Increases Quantum Dot Solar Cell Performance. Adv Mater. 2015;28(2):299-304doi: 10.1002/adma.201503657.
Lan, X., Voznyy, O., Kiani, A., García de Arquer, F. P., Abbas, A. S., Kim, G. H., Liu, M., Yang, Z., Walters, G., Xu, J., Yuan, M., Ning, Z., Fan, F., Kanjanaboos, P., Kramer, I., Zhitomirsky, D., Lee, P., Perelgut, A., Hoogland, S., & Sargent, E. H. (2016). Passivation Using Molecular Halides Increases Quantum Dot Solar Cell Performance. Advanced materials (Deerfield Beach, Fla.), 28(2), 299-304. https://doi.org/10.1002/adma.201503657
Lan, Xinzheng, et al. "Passivation Using Molecular Halides Increases Quantum Dot Solar Cell Performance." Advanced materials (Deerfield Beach, Fla.) vol. 28,2 (2016): 299-304. doi: https://doi.org/10.1002/adma.201503657
Lan X, Voznyy O, Kiani A, García de Arquer FP, Abbas AS, Kim GH, Liu M, Yang Z, Walters G, Xu J, Yuan M, Ning Z, Fan F, Kanjanaboos P, Kramer I, Zhitomirsky D, Lee P, Perelgut A, Hoogland S, Sargent EH. Passivation Using Molecular Halides Increases Quantum Dot Solar Cell Performance. Adv Mater. 2016 Jan 13;28(2):299-304. doi: 10.1002/adma.201503657. Epub 2015 Nov 18. PMID: 26576685.
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Hybrid tandem quantum dot/organic photovoltaic cells with complementary near infrared absorption.

Applied physics letters

Kim T, Palmiano E, Liang RZ, Hu H, Murali B, Kirmani AR, Firdaus Y, Gao Y, Sheikh A, Yuan M, Mohammed OF, Hoogland S, Beaujuge PM, Sargent EH, Amassian A.
PMID: 28652643
Appl Phys Lett. 2017 May 29;110(22):223903. doi: 10.1063/1.4984023. Epub 2017 Jun 01.

Monolithically integrated hybrid tandem solar cells that effectively combine solution-processed colloidal quantum dot (CQD) and organic bulk heterojunction subcells to achieve tandem performance that surpasses the individual subcell efficiencies have not been demonstrated to date. In this work, we...

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Kim T, Palmiano E, Liang RZ, et al. Hybrid tandem quantum dot/organic photovoltaic cells with complementary near infrared absorption. Appl Phys Lett. 2017;110(22):223903doi: 10.1063/1.4984023.
Kim, T., Palmiano, E., Liang, R. Z., Hu, H., Murali, B., Kirmani, A. R., Firdaus, Y., Gao, Y., Sheikh, A., Yuan, M., Mohammed, O. F., Hoogland, S., Beaujuge, P. M., Sargent, E. H., & Amassian, A. (2017). Hybrid tandem quantum dot/organic photovoltaic cells with complementary near infrared absorption. Applied physics letters, 110(22), 223903. https://doi.org/10.1063/1.4984023
Kim, Taesoo, et al. "Hybrid tandem quantum dot/organic photovoltaic cells with complementary near infrared absorption." Applied physics letters vol. 110,22 (2017): 223903. doi: https://doi.org/10.1063/1.4984023
Kim T, Palmiano E, Liang RZ, Hu H, Murali B, Kirmani AR, Firdaus Y, Gao Y, Sheikh A, Yuan M, Mohammed OF, Hoogland S, Beaujuge PM, Sargent EH, Amassian A. Hybrid tandem quantum dot/organic photovoltaic cells with complementary near infrared absorption. Appl Phys Lett. 2017 May 29;110(22):223903. doi: 10.1063/1.4984023. Epub 2017 Jun 01. PMID: 28652643; PMCID: PMC5453788.
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High-Efficiency Colloidal Quantum Dot Photovoltaics via Robust Self-Assembled Monolayers.

Nano letters

Kim GH, García de Arquer FP, Yoon YJ, Lan X, Liu M, Voznyy O, Jagadamma LK, Abbas AS, Yang Z, Fan F, Ip AH, Kanjanaboos P, Hoogland S, Kim JY, Sargent EH.
PMID: 26509283
Nano Lett. 2015 Nov 11;15(11):7691-6. doi: 10.1021/acs.nanolett.5b03677. Epub 2015 Nov 02.

The optoelectronic tunability offered by colloidal quantum dots (CQDs) is attractive for photovoltaic applications but demands proper band alignment at electrodes for efficient charge extraction at minimal cost to voltage. With this goal in mind, self-assembled monolayers (SAMs) can...

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Kim GH, García de Arquer FP, Yoon YJ, et al. High-Efficiency Colloidal Quantum Dot Photovoltaics via Robust Self-Assembled Monolayers. Nano Lett. 2015;15(11):7691-6doi: 10.1021/acs.nanolett.5b03677.
Kim, G. H., García de Arquer, F. P., Yoon, Y. J., Lan, X., Liu, M., Voznyy, O., Jagadamma, L. K., Abbas, A. S., Yang, Z., Fan, F., Ip, A. H., Kanjanaboos, P., Hoogland, S., Kim, J. Y., & Sargent, E. H. (2015). High-Efficiency Colloidal Quantum Dot Photovoltaics via Robust Self-Assembled Monolayers. Nano letters, 15(11), 7691-6. https://doi.org/10.1021/acs.nanolett.5b03677
Kim, Gi-Hwan, et al. "High-Efficiency Colloidal Quantum Dot Photovoltaics via Robust Self-Assembled Monolayers." Nano letters vol. 15,11 (2015): 7691-6. doi: https://doi.org/10.1021/acs.nanolett.5b03677
Kim GH, García de Arquer FP, Yoon YJ, Lan X, Liu M, Voznyy O, Jagadamma LK, Abbas AS, Yang Z, Fan F, Ip AH, Kanjanaboos P, Hoogland S, Kim JY, Sargent EH. High-Efficiency Colloidal Quantum Dot Photovoltaics via Robust Self-Assembled Monolayers. Nano Lett. 2015 Nov 11;15(11):7691-6. doi: 10.1021/acs.nanolett.5b03677. Epub 2015 Nov 02. PMID: 26509283.
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Compact polarization-maintaining 2.05-μm fiber laser at 1-MHz and 1-MW peak power.

Optics letters

Hoogland H, Holzwarth R.
PMID: 26258347
Opt Lett. 2015 Aug 01;40(15):3520-3. doi: 10.1364/OL.40.003520.

We report on a compact all-polarization-maintaining 2.05-μm chirped pulse fiber amplifier system emitting pulses at up to 1-MW peak power level at 371-fs pulse duration. The seed pulse repetition rate provided by an inhouse-built oscillator is reduced to around...

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Hoogland H, Holzwarth R. Compact polarization-maintaining 2.05-μm fiber laser at 1-MHz and 1-MW peak power. Opt Lett. 2015;40(15):3520-3doi: 10.1364/OL.40.003520.
Hoogland, H., & Holzwarth, R. (2015). Compact polarization-maintaining 2.05-μm fiber laser at 1-MHz and 1-MW peak power. Optics letters, 40(15), 3520-3. https://doi.org/10.1364/OL.40.003520
Hoogland, Heinar, and Holzwarth, Ronald. "Compact polarization-maintaining 2.05-μm fiber laser at 1-MHz and 1-MW peak power." Optics letters vol. 40,15 (2015): 3520-3. doi: https://doi.org/10.1364/OL.40.003520
Hoogland H, Holzwarth R. Compact polarization-maintaining 2.05-μm fiber laser at 1-MHz and 1-MW peak power. Opt Lett. 2015 Aug 01;40(15):3520-3. doi: 10.1364/OL.40.003520. PMID: 26258347.
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Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells.

Nano letters

Kim Y, Bicanic K, Tan H, Ouellette O, Sutherland BR, García de Arquer FP, Jo JW, Liu M, Sun B, Liu M, Hoogland S, Sargent EH.
PMID: 28287738
Nano Lett. 2017 Apr 12;17(4):2349-2353. doi: 10.1021/acs.nanolett.6b05241. Epub 2017 Mar 16.

Colloidal quantum dot (CQD) materials are of interest in thin-film solar cells due to their size-tunable bandgap and low-cost solution-processing. However, CQD solar cells suffer from inefficient charge extraction over the film thicknesses required for complete absorption of solar...

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Kim Y, Bicanic K, Tan H, et al. Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells. Nano Lett. 2017;17(4):2349-2353doi: 10.1021/acs.nanolett.6b05241.
Kim, Y., Bicanic, K., Tan, H., Ouellette, O., Sutherland, B. R., García de Arquer, F. P., Jo, J. W., Liu, M., Sun, B., Liu, M., Hoogland, S., & Sargent, E. H. (2017). Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells. Nano letters, 17(4), 2349-2353. https://doi.org/10.1021/acs.nanolett.6b05241
Kim, Younghoon, et al. "Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells." Nano letters vol. 17,4 (2017): 2349-2353. doi: https://doi.org/10.1021/acs.nanolett.6b05241
Kim Y, Bicanic K, Tan H, Ouellette O, Sutherland BR, García de Arquer FP, Jo JW, Liu M, Sun B, Liu M, Hoogland S, Sargent EH. Nanoimprint-Transfer-Patterned Solids Enhance Light Absorption in Colloidal Quantum Dot Solar Cells. Nano Lett. 2017 Apr 12;17(4):2349-2353. doi: 10.1021/acs.nanolett.6b05241. Epub 2017 Mar 16. PMID: 28287738.
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Quantum-dot-in-perovskite solids.

Nature

Ning Z, Gong X, Comin R, Walters G, Fan F, Voznyy O, Yassitepe E, Buin A, Hoogland S, Sargent EH.
PMID: 26178963
Nature. 2015 Jul 16;523(7560):324-8. doi: 10.1038/nature14563.

Heteroepitaxy-atomically aligned growth of a crystalline film atop a different crystalline substrate-is the basis of electrically driven lasers, multijunction solar cells, and blue-light-emitting diodes. Crystalline coherence is preserved even when atomic identity is modulated, a fact that is the...

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Ning Z, Gong X, Comin R, et al. Quantum-dot-in-perovskite solids. Nature. 2015;523(7560):324-8doi: 10.1038/nature14563.
Ning, Z., Gong, X., Comin, R., Walters, G., Fan, F., Voznyy, O., Yassitepe, E., Buin, A., Hoogland, S., & Sargent, E. H. (2015). Quantum-dot-in-perovskite solids. Nature, 523(7560), 324-8. https://doi.org/10.1038/nature14563
Ning, Zhijun, et al. "Quantum-dot-in-perovskite solids." Nature vol. 523,7560 (2015): 324-8. doi: https://doi.org/10.1038/nature14563
Ning Z, Gong X, Comin R, Walters G, Fan F, Voznyy O, Yassitepe E, Buin A, Hoogland S, Sargent EH. Quantum-dot-in-perovskite solids. Nature. 2015 Jul 16;523(7560):324-8. doi: 10.1038/nature14563. PMID: 26178963.
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Mass-spectrometry data for Rhizoctonia solani proteins produced during infection of wheat and vegetative growth.

Data in brief

Anderson JP, Hane JK, Stoll T, Pain N, Hastie ML, Kaur P, Hoogland C, Gorman JJ, Singh KB.
PMID: 27331100
Data Brief. 2016 May 27;8:267-71. doi: 10.1016/j.dib.2016.05.042. eCollection 2016 Sep.

Rhizoctonia solani is an important root infecting pathogen of a range of food staples worldwide including wheat, rice, maize, soybean, potato, legumes and others. Conventional resistance breeding strategies are hindered by the absence of tractable genetic resistance in any...

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Anderson JP, Hane JK, Stoll T, et al. Mass-spectrometry data for Rhizoctonia solani proteins produced during infection of wheat and vegetative growth. Data Brief. 2016;8:267-71doi: 10.1016/j.dib.2016.05.042.
Anderson, J. P., Hane, J. K., Stoll, T., Pain, N., Hastie, M. L., Kaur, P., Hoogland, C., Gorman, J. J., & Singh, K. B. (2016). Mass-spectrometry data for Rhizoctonia solani proteins produced during infection of wheat and vegetative growth. Data in brief, 8267-71. https://doi.org/10.1016/j.dib.2016.05.042
Anderson, Jonathan P, et al. "Mass-spectrometry data for Rhizoctonia solani proteins produced during infection of wheat and vegetative growth." Data in brief vol. 8 (2016): 267-71. doi: https://doi.org/10.1016/j.dib.2016.05.042
Anderson JP, Hane JK, Stoll T, Pain N, Hastie ML, Kaur P, Hoogland C, Gorman JJ, Singh KB. Mass-spectrometry data for Rhizoctonia solani proteins produced during infection of wheat and vegetative growth. Data Brief. 2016 May 27;8:267-71. doi: 10.1016/j.dib.2016.05.042. eCollection 2016 Sep. PMID: 27331100; PMCID: PMC4906030.
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Broadband mid-IR frequency comb with CdSiP2 and AgGaS2 from an Er,Tm:Ho fiber laser.

Optics letters

Sánchez D, Hemmer M, Baudisch M, Zawilski K, Schunemann P, Hoogland H, Holzwarth R, Biegert J.
PMID: 25503021
Opt Lett. 2014 Dec 15;39(24):6883-6. doi: 10.1364/OL.39.006883.

We report on the generation of a 2500 nm bandwidth frequency comb at 6.5 μm central wavelength based on critically phase-matched parametric down-conversion in the nonlinear crystal CdSiP(2) (CSP), driven by a compact Er,Tm:Ho fiber laser. The generated ultra-broadband...

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Sánchez D, Hemmer M, Baudisch M, et al. Broadband mid-IR frequency comb with CdSiP2 and AgGaS2 from an Er,Tm:Ho fiber laser. Opt Lett. 2014;39(24):6883-6doi: 10.1364/OL.39.006883.
Sánchez, D., Hemmer, M., Baudisch, M., Zawilski, K., Schunemann, P., Hoogland, H., Holzwarth, R., & Biegert, J. (2014). Broadband mid-IR frequency comb with CdSiP2 and AgGaS2 from an Er,Tm:Ho fiber laser. Optics letters, 39(24), 6883-6. https://doi.org/10.1364/OL.39.006883
Sánchez, D, et al. "Broadband mid-IR frequency comb with CdSiP2 and AgGaS2 from an Er,Tm:Ho fiber laser." Optics letters vol. 39,24 (2014): 6883-6. doi: https://doi.org/10.1364/OL.39.006883
Sánchez D, Hemmer M, Baudisch M, Zawilski K, Schunemann P, Hoogland H, Holzwarth R, Biegert J. Broadband mid-IR frequency comb with CdSiP2 and AgGaS2 from an Er,Tm:Ho fiber laser. Opt Lett. 2014 Dec 15;39(24):6883-6. doi: 10.1364/OL.39.006883. PMID: 25503021.
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Implementation of a multidisciplinary disease management program for heart failure patients.

Congestive heart failure (Greenwich, Conn.)

Riegel B, Thomason T, Carlson B, Bernasconi B, Clark A, Hoagland P, Liu P, Maringer D, Rizos A, Watkins J.
PMID: 12189308
Congest Heart Fail. 1999 Jul-Aug;5(4):164-170.

Institutions across the country are considering the feasibility of a disease management program for heart failure (HF) patients. Published reports suggest that such programs can save money and improve outcomes. However, the design of a disease management program can...

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Riegel B, Thomason T, Carlson B, et al. Implementation of a multidisciplinary disease management program for heart failure patients. Congest Heart Fail. 1999;5(4):164-170
Riegel, B., Thomason, T., Carlson, B., Bernasconi, B., Clark, A., Hoagland, P., Liu, P., Maringer, D., Rizos, A., & Watkins, J. (1999). Implementation of a multidisciplinary disease management program for heart failure patients. Congestive heart failure (Greenwich, Conn.), 5(4), 164-170.
Riegel, B, et al. "Implementation of a multidisciplinary disease management program for heart failure patients." Congestive heart failure (Greenwich, Conn.) vol. 5,4 (1999): 164-170.
Riegel B, Thomason T, Carlson B, Bernasconi B, Clark A, Hoagland P, Liu P, Maringer D, Rizos A, Watkins J. Implementation of a multidisciplinary disease management program for heart failure patients. Congest Heart Fail. 1999 Jul-Aug;5(4):164-170. PMID: 12189308.
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Biochemical aspects of schizophrenia.

The Journal of nervous and mental disease

HOAGLAND H.
PMID: 13525969
J Nerv Ment Dis. 1958 Mar;126(3):211-20. doi: 10.1097/00005053-195803000-00001.

No abstract available.

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HOAGLAND H. Biochemical aspects of schizophrenia. J Nerv Ment Dis. 1958;126(3):211-20doi: 10.1097/00005053-195803000-00001.
HOAGLAND, H. (1958). Biochemical aspects of schizophrenia. The Journal of nervous and mental disease, 126(3), 211-20. https://doi.org/10.1097/00005053-195803000-00001
HOAGLAND, H. "Biochemical aspects of schizophrenia." The Journal of nervous and mental disease vol. 126,3 (1958): 211-20. doi: https://doi.org/10.1097/00005053-195803000-00001
HOAGLAND H. Biochemical aspects of schizophrenia. J Nerv Ment Dis. 1958 Mar;126(3):211-20. doi: 10.1097/00005053-195803000-00001. PMID: 13525969.
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Showing 1 to 12 of 252 entries