Sie sind hier: Publikationen & Patente

Publikationen & Patente

Publikationen

  1. M. Himmelhaus, Whispering gallery mode-microlasers embedded into a dense medium, Opt. Commun. 284 (19), 44843 – 4846 (2011)
  2. M. Himmelhaus, S. Krishnamoorthy, A. Francois, Optical Sensors Based on Whispering Gallery Modes in Fluorescent Microbeads: Response to Specific Interactions, Sensors 10 (6), 6257 – 6274 (2010)
  3. A. Francois and M. Himmelhaus, Optical Sensors Based on Whispering Gallery Modes in Fluorescent Microbeads: Size Dependence and Influence of Substrate, Sensors 9 (9), 6836 – 6852 (2009)
  4. A. Francois and M. Himmelhaus, In-vitro sensing of biomechanical forces in live cells by a whispering gallery mode biosensor, Biosens. Bioelectron. 25 (2), 418 – 427 (2009)
  5. M. Himmelhaus, Spectral Fingerprints of Clusters of Microlasers in Aqueous Phase, Appl. Phys. Express 2 (9), 092302/1-3 (2009)
  6. A. Francois and M. Himmelhaus, Whispering Gallery Mode Biosensor Operated in the Stimulated Emission Regime, Appl. Phys. Lett. 94, 031101/1-3 (2009)
  7. A. Francois and M. Himmelhaus, Optical Biosensor Based on Whispering Gallery Mode Excitations in Clusters of Microparticles, Appl. Phys. Lett. 92, 141107/1-3 (2008); cited as frontier research article by Virt. J. Nanoscale Sci. Technol. 17 (16), (2008) & Virt. J. Biol. Phys. Res. 15 (8), (2008) and reported in NewsBreaks of LaserFocusWorld, Vol. 44 (6), page 15, June (2008)
  8. A. Weller, F. C. Liu, R. Dahint, M. Himmelhaus, Whispering Gallery Mode Biosensors in the Low-Q Limit, Appl. Phys. B 90 (3-4), 561 – 567 (2008)
  9. A. Weller, M. Himmelhaus, Radial Cavity Mode Excitation in Fluorescent Core-Shell Microcavities, Appl. Phys. Lett. 89, 241105/1-3 (2006)

Patentanmeldungen & Patente

  1. Michael Himmelhaus, Apparatus and Method for Operating Optical Microcavity by Light Emitting Diode, applicant Fujirebio, Inc., WO2010147031, published Dec. 23, 2010
  2. Michael Himmelhaus, Alexandre Francois, Optical Sensing via Cavity Mode Excitations in the Stimulated Emission Regime, applicant Fujirebio, Inc., WO2010053213, published May 14, 2010
  3. Michael Himmelhaus, Alexandre Francois, Method for Sensing a Biochemical and/or Biomechanical Process of a Biological Material and Method for Analyzing Biological Materials, applicant Fujirebio, Inc., WO2010053209, published May 14, 2010
  4. Michael Himmelhaus, Apparatus and Method for Analyzing Optical Cavity Modes, applicant Fujirebio, Inc., WO2010024466, published March 04, 2010
  5. Michael Himmelhaus, Alexandre Francois, Clusters of Microresonators for Cavity Mode Optical Sensing, applicant Fujirebio, Inc., WO2009084721, published July 09, 2009
  6. Michael Himmelhaus, Sivashankar Krishnamoorthy, Chemical Surface Nanopatterns To Increase Sensitivity Towards Bio-Detection, applicant Fujirebio, Inc., WO2008143351, published Nov. 11, 2008
  7. Michael Himmelhaus, Spencer Spratt, Biosensor, biosensor chip and method for producing the biosensor chip for sensing a target molecule, applicant: Fujirebio, Inc., WO2008078831, published July 03, 2008
  8. Michael Himmelhaus, Conor Whitehouse, Oliver Worsfold, Method and Apparatus for Producing Small Structures, applicant Fujirebio, Inc., WO2008035818, published March 27, 2008
  9. Michael Himmelhaus, Fluorescent Non-Metallic Particles Encapsulated in a Metallic Coating, applicant: Fujirebio, Inc., WO 2007129682, published Nov. 15, 2007
  10. Michael Himmelhaus, Reiner Dahint, Sören Schilp, Elka Trileva, Petra Bücker, Hatice Acunman, Optisch aktive Nano-Kompositoberfläche, applicant: Universität Heidelberg, WO 2006111414, published Oct. 26, 2006

Kontakt

Dr. Michael Himmelhaus
NanoBioAnalytics

Max-Planck-Str. 3
12489 Berlin

Telefon
+49-(0)30 / 63 922 198

Telefax
+49-(0)30 / 63 922 170

info@nanobioanalytics.com
www.nanobioanalytics.com

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