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Showing 1 to 12 of 317 entries
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[Long-term results of bypass surgery].

Die Medizinische Welt

Lichtlen P.
PMID: 306483
Med Welt. 1978 Mar 24;29(12):473-7.

No abstract available.

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Lichtlen P. Langzeitresultate der Bypass-Chirurgie. [Long-term results of bypass surgery]. Med Welt. 1978;29(12):473-7
Lichtlen, P. (1978). Langzeitresultate der Bypass-Chirurgie. [Long-term results of bypass surgery]. Die Medizinische Welt, 29(12), 473-7.
Lichtlen, P. "Langzeitresultate der Bypass-Chirurgie." [Long-term results of bypass surgery]. Die Medizinische Welt vol. 29,12 (1978): 473-7.
Lichtlen P. Langzeitresultate der Bypass-Chirurgie. [Long-term results of bypass surgery]. Med Welt. 1978 Mar 24;29(12):473-7. German. PMID: 306483.
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Interprofessional education in ophthalmology.

American journal of ophthalmology

Lichter PR.
PMID: 623202
Am J Ophthalmol. 1978 Feb;85(2):267. doi: 10.1016/s0002-9394(14)75964-1.

No abstract available.

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Lichter PR. Interprofessional education in ophthalmology. Am J Ophthalmol. 1978;85(2):267doi: 10.1016/s0002-9394(14)75964-1.
Lichter, P. R. (1978). Interprofessional education in ophthalmology. American journal of ophthalmology, 85(2), 267. https://doi.org/10.1016/s0002-9394(14)75964-1
Lichter, P R. "Interprofessional education in ophthalmology." American journal of ophthalmology vol. 85,2 (1978): 267. doi: https://doi.org/10.1016/s0002-9394(14)75964-1
Lichter PR. Interprofessional education in ophthalmology. Am J Ophthalmol. 1978 Feb;85(2):267. doi: 10.1016/s0002-9394(14)75964-1. PMID: 623202.
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Health care reform and the next generation.

Ophthalmology

Lichter PR.
PMID: 1565440
Ophthalmology. 1992 Mar;99(3):303-4. doi: 10.1016/s0161-6420(92)31972-4.

No abstract available.

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Lichter PR. Health care reform and the next generation. Ophthalmology. 1992;99(3):303-4doi: 10.1016/s0161-6420(92)31972-4.
Lichter, P. R. (1992). Health care reform and the next generation. Ophthalmology, 99(3), 303-4. https://doi.org/10.1016/s0161-6420(92)31972-4
Lichter, P R. "Health care reform and the next generation." Ophthalmology vol. 99,3 (1992): 303-4. doi: https://doi.org/10.1016/s0161-6420(92)31972-4
Lichter PR. Health care reform and the next generation. Ophthalmology. 1992 Mar;99(3):303-4. doi: 10.1016/s0161-6420(92)31972-4. PMID: 1565440.
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Coelomic Granulomatous Fat Necrosis (Lipogranulomatosis) in an Umbrella Cockatoo (Cacatua alba).

Journal of avian medicine and surgery

Oglesbee B, Lightner B, Oglesbee M.
PMID: 25843325
J Avian Med Surg. 2014 Sep;28(3):242-50. doi: 10.1647/2013-048R1.

A 28-year-old, female umbrella cockatoo (Cacatua alba) was evaluated because of lethargy, anorexia, regurgitation, and coelomic swelling of 6 month's duration, which corresponded to cessation of egg laying. Radiographs and ultrasound examination demonstrated extensive deposits of coelomic fat and...

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Oglesbee B, Lightner B, Oglesbee M. Coelomic Granulomatous Fat Necrosis (Lipogranulomatosis) in an Umbrella Cockatoo (Cacatua alba). J Avian Med Surg. 2014;28(3):242-50doi: 10.1647/2013-048R1.
Oglesbee, B., Lightner, B., & Oglesbee, M. (2014). Coelomic Granulomatous Fat Necrosis (Lipogranulomatosis) in an Umbrella Cockatoo (Cacatua alba). Journal of avian medicine and surgery, 28(3), 242-50. https://doi.org/10.1647/2013-048R1
Oglesbee, Barbara, et al. "Coelomic Granulomatous Fat Necrosis (Lipogranulomatosis) in an Umbrella Cockatoo (Cacatua alba)." Journal of avian medicine and surgery vol. 28,3 (2014): 242-50. doi: https://doi.org/10.1647/2013-048R1
Oglesbee B, Lightner B, Oglesbee M. Coelomic Granulomatous Fat Necrosis (Lipogranulomatosis) in an Umbrella Cockatoo (Cacatua alba). J Avian Med Surg. 2014 Sep;28(3):242-50. doi: 10.1647/2013-048R1. PMID: 25843325.
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VOCl as a Cathode for Rechargeable Chloride Ion Batteries.

Angewandte Chemie (International ed. in English)

Gao P, Reddy MA, Mu X, Diemant T, Zhang L, Zhao-Karger Z, Chakravadhanula VS, Clemens O, Behm RJ, Fichtner M.
PMID: 26924132
Angew Chem Int Ed Engl. 2016 Mar 18;55(13):4285-90. doi: 10.1002/anie.201509564. Epub 2016 Feb 29.

A novel room temperature rechargeable battery with VOCl cathode, lithium anode, and chloride ion transporting liquid electrolyte is described. The cell is based on the reversible transfer of chloride ions between the two electrodes. The VOCl cathode delivered an...

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Gao P, Reddy MA, Mu X, et al. VOCl as a Cathode for Rechargeable Chloride Ion Batteries. Angew Chem Int Ed Engl. 2016;55(13):4285-90doi: 10.1002/anie.201509564.
Gao, P., Reddy, M. A., Mu, X., Diemant, T., Zhang, L., Zhao-Karger, Z., Chakravadhanula, V. S., Clemens, O., Behm, R. J., & Fichtner, M. (2016). VOCl as a Cathode for Rechargeable Chloride Ion Batteries. Angewandte Chemie (International ed. in English), 55(13), 4285-90. https://doi.org/10.1002/anie.201509564
Gao, Ping, et al. "VOCl as a Cathode for Rechargeable Chloride Ion Batteries." Angewandte Chemie (International ed. in English) vol. 55,13 (2016): 4285-90. doi: https://doi.org/10.1002/anie.201509564
Gao P, Reddy MA, Mu X, Diemant T, Zhang L, Zhao-Karger Z, Chakravadhanula VS, Clemens O, Behm RJ, Fichtner M. VOCl as a Cathode for Rechargeable Chloride Ion Batteries. Angew Chem Int Ed Engl. 2016 Mar 18;55(13):4285-90. doi: 10.1002/anie.201509564. Epub 2016 Feb 29. PMID: 26924132.
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Materials for sustainable energy production, storage, and conversion.

Beilstein journal of nanotechnology

Fichtner M.
PMID: 26425411
Beilstein J Nanotechnol. 2015 Jul 23;6:1601-2. doi: 10.3762/bjnano.6.163. eCollection 2015.

No abstract available.

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Fichtner M. Materials for sustainable energy production, storage, and conversion. Beilstein J Nanotechnol. 2015;6:1601-2doi: 10.3762/bjnano.6.163.
Fichtner, M. (2015). Materials for sustainable energy production, storage, and conversion. Beilstein journal of nanotechnology, 61601-2. https://doi.org/10.3762/bjnano.6.163
Fichtner, Maximilian. "Materials for sustainable energy production, storage, and conversion." Beilstein journal of nanotechnology vol. 6 (2015): 1601-2. doi: https://doi.org/10.3762/bjnano.6.163
Fichtner M. Materials for sustainable energy production, storage, and conversion. Beilstein J Nanotechnol. 2015 Jul 23;6:1601-2. doi: 10.3762/bjnano.6.163. eCollection 2015. PMID: 26425411; PMCID: PMC4578349.
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Thermochemical Energy Storage through De/Hydrogenation of Organic Liquids: Reactions of Organic Liquids on Metal Hydrides.

ACS applied materials & interfaces

Ulmer U, Cholewa M, Diemant T, Bonatto Minella C, Dittmeyer R, Behm RJ, Fichtner M.
PMID: 27183004
ACS Appl Mater Interfaces. 2016 Jun 08;8(22):13993-4003. doi: 10.1021/acsami.6b05537. Epub 2016 May 23.

A study of the reactions of liquid acetone and toluene on transition metal hydrides, which can be used in thermal energy or hydrogen storage applications, is presented. Hydrogen is confined in TiFe, Ti0.95Zr0.05Mn1.49V0.45Fe0.06 ("Hydralloy C5"), and V40Fe8Ti26Cr26 after contact...

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Ulmer U, Cholewa M, Diemant T, et al. Thermochemical Energy Storage through De/Hydrogenation of Organic Liquids: Reactions of Organic Liquids on Metal Hydrides. ACS Appl Mater Interfaces. 2016;8(22):13993-4003doi: 10.1021/acsami.6b05537.
Ulmer, U., Cholewa, M., Diemant, T., Bonatto Minella, C., Dittmeyer, R., Behm, R. J., & Fichtner, M. (2016). Thermochemical Energy Storage through De/Hydrogenation of Organic Liquids: Reactions of Organic Liquids on Metal Hydrides. ACS applied materials & interfaces, 8(22), 13993-4003. https://doi.org/10.1021/acsami.6b05537
Ulmer, Ulrich, et al. "Thermochemical Energy Storage through De/Hydrogenation of Organic Liquids: Reactions of Organic Liquids on Metal Hydrides." ACS applied materials & interfaces vol. 8,22 (2016): 13993-4003. doi: https://doi.org/10.1021/acsami.6b05537
Ulmer U, Cholewa M, Diemant T, Bonatto Minella C, Dittmeyer R, Behm RJ, Fichtner M. Thermochemical Energy Storage through De/Hydrogenation of Organic Liquids: Reactions of Organic Liquids on Metal Hydrides. ACS Appl Mater Interfaces. 2016 Jun 08;8(22):13993-4003. doi: 10.1021/acsami.6b05537. Epub 2016 May 23. PMID: 27183004.
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A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage.

Angewandte Chemie (International ed. in English)

Gao P, Chen Z, Zhao-Karger Z, Mueller JE, Jung C, Klyatskaya S, Diemant T, Fuhr O, Jacob T, Behm RJ, Ruben M, Fichtner M.
PMID: 28627132
Angew Chem Int Ed Engl. 2017 Aug 21;56(35):10341-10346. doi: 10.1002/anie.201702805. Epub 2017 Jul 19.

The novel functionalized porphyrin [5,15-bis(ethynyl)-10,20-diphenylporphinato]copper(II) (CuDEPP) was used as electrodes for rechargeable energy-storage systems with an extraordinary combination of storage capacity, rate capability, and cycling stability. The ability of CuDEPP to serve as an electron donor or acceptor supports...

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Gao P, Chen Z, Zhao-Karger Z, et al. A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage. Angew Chem Int Ed Engl. 2017;56(35):10341-10346doi: 10.1002/anie.201702805.
Gao, P., Chen, Z., Zhao-Karger, Z., Mueller, J. E., Jung, C., Klyatskaya, S., Diemant, T., Fuhr, O., Jacob, T., Behm, R. J., Ruben, M., & Fichtner, M. (2017). A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage. Angewandte Chemie (International ed. in English), 56(35), 10341-10346. https://doi.org/10.1002/anie.201702805
Gao, Ping, et al. "A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage." Angewandte Chemie (International ed. in English) vol. 56,35 (2017): 10341-10346. doi: https://doi.org/10.1002/anie.201702805
Gao P, Chen Z, Zhao-Karger Z, Mueller JE, Jung C, Klyatskaya S, Diemant T, Fuhr O, Jacob T, Behm RJ, Ruben M, Fichtner M. A Porphyrin Complex as a Self-Conditioned Electrode Material for High-Performance Energy Storage. Angew Chem Int Ed Engl. 2017 Aug 21;56(35):10341-10346. doi: 10.1002/anie.201702805. Epub 2017 Jul 19. PMID: 28627132.
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Mechanical Milling Assisted Synthesis and Electrochemical Performance of High Capacity LiFeBO3 for Lithium Batteries.

ACS applied materials & interfaces

Cambaz MA, Anji Reddy M, Vinayan BP, Witte R, Pohl A, Mu X, Chakravadhanula VS, Kübel C, Fichtner M.
PMID: 26716574
ACS Appl Mater Interfaces. 2016 Jan 27;8(3):2166-72. doi: 10.1021/acsami.5b10747. Epub 2016 Jan 15.

Borate chemistry offers attractive features for iron based polyanionic compounds. For battery applications, lithium iron borate has been proposed as cathode material because it has the lightest polyanionic framework that offers a high theoretical capacity. Moreover, it shows promising...

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Cambaz MA, Anji Reddy M, Vinayan BP, et al. Mechanical Milling Assisted Synthesis and Electrochemical Performance of High Capacity LiFeBO3 for Lithium Batteries. ACS Appl Mater Interfaces. 2016;8(3):2166-72doi: 10.1021/acsami.5b10747.
Cambaz, M. A., Anji Reddy, M., Vinayan, B. P., Witte, R., Pohl, A., Mu, X., Chakravadhanula, V. S., Kübel, C., & Fichtner, M. (2016). Mechanical Milling Assisted Synthesis and Electrochemical Performance of High Capacity LiFeBO3 for Lithium Batteries. ACS applied materials & interfaces, 8(3), 2166-72. https://doi.org/10.1021/acsami.5b10747
Cambaz, Musa A, et al. "Mechanical Milling Assisted Synthesis and Electrochemical Performance of High Capacity LiFeBO3 for Lithium Batteries." ACS applied materials & interfaces vol. 8,3 (2016): 2166-72. doi: https://doi.org/10.1021/acsami.5b10747
Cambaz MA, Anji Reddy M, Vinayan BP, Witte R, Pohl A, Mu X, Chakravadhanula VS, Kübel C, Fichtner M. Mechanical Milling Assisted Synthesis and Electrochemical Performance of High Capacity LiFeBO3 for Lithium Batteries. ACS Appl Mater Interfaces. 2016 Jan 27;8(3):2166-72. doi: 10.1021/acsami.5b10747. Epub 2016 Jan 15. PMID: 26716574.
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Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte.

Nanoscale

Vinayan BP, Zhao-Karger Z, Diemant T, Chakravadhanula VS, Schwarzburger NI, Cambaz MA, Behm RJ, Kübel C, Fichtner M.
PMID: 26542750
Nanoscale. 2016 Feb 14;8(6):3296-306. doi: 10.1039/c5nr04383b. Epub 2015 Nov 06.

Here we report for the first time the development of a Mg rechargeable battery using a graphene-sulfur nanocomposite as the cathode, a Mg-carbon composite as the anode and a non-nucleophilic Mg based complex in tetraglyme solvent as the electrolyte....

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Vinayan BP, Zhao-Karger Z, Diemant T, et al. Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte. Nanoscale. 2015;8(6):3296-306doi: 10.1039/c5nr04383b.
Vinayan, B. P., Zhao-Karger, Z., Diemant, T., Chakravadhanula, V. S., Schwarzburger, N. I., Cambaz, M. A., Behm, R. J., Kübel, C., & Fichtner, M. (2016). Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte. Nanoscale, 8(6), 3296-306. https://doi.org/10.1039/c5nr04383b
Vinayan, B P, et al. "Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte." Nanoscale vol. 8,6 (2016): 3296-306. doi: https://doi.org/10.1039/c5nr04383b
Vinayan BP, Zhao-Karger Z, Diemant T, Chakravadhanula VS, Schwarzburger NI, Cambaz MA, Behm RJ, Kübel C, Fichtner M. Performance study of magnesium-sulfur battery using a graphene based sulfur composite cathode electrode and a non-nucleophilic Mg electrolyte. Nanoscale. 2016 Feb 14;8(6):3296-306. doi: 10.1039/c5nr04383b. Epub 2015 Nov 06. PMID: 26542750.
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IJC 2016.

International journal of cancer

Lichter P.
PMID: 26467161
Int J Cancer. 2016 Jan 01;138(1):9. doi: 10.1002/ijc.29871.

No abstract available.

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Lichter P. IJC 2016. Int J Cancer. 2016;138(1):9doi: 10.1002/ijc.29871.
Lichter, P. (2016). IJC 2016. International journal of cancer, 138(1), 9. https://doi.org/10.1002/ijc.29871
Lichter, Peter. "IJC 2016." International journal of cancer vol. 138,1 (2016): 9. doi: https://doi.org/10.1002/ijc.29871
Lichter P. IJC 2016. Int J Cancer. 2016 Jan 01;138(1):9. doi: 10.1002/ijc.29871. PMID: 26467161.
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In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges.

Microscopy research and technique

Hammad Fawey M, Chakravadhanula VS, Reddy MA, Rongeat C, Scherer T, Hahn H, Fichtner M, Kübel C.
PMID: 27145192
Microsc Res Tech. 2016 Jul;79(7):615-24. doi: 10.1002/jemt.22675. Epub 2016 May 04.

Trustworthy preparation and contacting of micron-sized batteries is an essential task to enable reliable in situ TEM studies during electrochemical biasing. Some of the challenges and solutions for the preparation of all-solid-state batteries for in situ TEM electrochemical studies...

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Hammad Fawey M, Chakravadhanula VS, Reddy MA, et al. In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges. Microsc Res Tech. 2016;79(7):615-24doi: 10.1002/jemt.22675.
Hammad Fawey, M., Chakravadhanula, V. S., Reddy, M. A., Rongeat, C., Scherer, T., Hahn, H., Fichtner, M., & Kübel, C. (2016). In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges. Microscopy research and technique, 79(7), 615-24. https://doi.org/10.1002/jemt.22675
Hammad Fawey, Mohammed, et al. "In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges." Microscopy research and technique vol. 79,7 (2016): 615-24. doi: https://doi.org/10.1002/jemt.22675
Hammad Fawey M, Chakravadhanula VS, Reddy MA, Rongeat C, Scherer T, Hahn H, Fichtner M, Kübel C. In situ TEM studies of micron-sized all-solid-state fluoride ion batteries: Preparation, prospects, and challenges. Microsc Res Tech. 2016 Jul;79(7):615-24. doi: 10.1002/jemt.22675. Epub 2016 May 04. PMID: 27145192.
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Showing 1 to 12 of 317 entries