Publications

Preprints

 

  • Microparticle assembly pathway on lipid membranes

       C. van der Wel, D. Heinrich, and D. Kraft

       arXiv:1612.03581

 

 

Scientific Publications (peer-reviewed)

 

  • Nanostructured Surface of Biodegradable Silica Fibers Enhance Directed Amoeboid Cell Migration in a Microtubule-dependent Process

       M. Emmert, P. Witzel, M. Rothenburger-Glaubitt, and D. Heinrich

       RSC Advances 7, 5708 (2017)

 

  • Fluorescence-tunable Ag-DNA biosensor with tailored cytotoxicity for live-cell applications

       N. Bossert, D. de Bruin, M. Götz, D. Bouwmeester, and D. Heinrich

       Scientific Reports 6, 37867 (2016)

 

  • Lipid membrane-mediated attraction between curvature inducing objects

C. van der Wel, A. Vahid, A. Saric, T. Idema, D. Heinrich, D. Kraft

Scientific Reports 6, 32825 (2016)

 

  • Guiding Cells Towards Tissue Formation

M. Emmert, P. Witzel, and D. Heinrich

Soft Matter 12, 4287 (2016)

 

  • Probing cytoskeleton dynamics by intracellular particle transport analysis

M. Götz, K.F. Hodeck, P. Witzel, A. Nandi, B. Lindner, and D. Heinrich

EPJ 224(7), 1169-1183 (2015)

 

  • Tissue Engineering: Stimulating Cell Dynamics in 3D

D. Heinrich

Int. Innov. 194:99 (2015)

 

  • Memory improves precision of cell sensing in fluctuating environments

G. Aquino, L. Tweedy,  D. Heinrich and R. Endres  

Scientific Reports 4, 5688 (2014)

 

  • Amoeboid migration mode adaption in quasi-3D spatial density gradients of varying lattice geometry

M. Gorelashvili, M. Emmert, K. Hodeck and D. Heinrich          

New J. Phys. 16, 075012 (2014)

 

  • Reversible Membrane Pearling in Live Cells upon Destruction of the Actin Cortex

D. Heinrich, M. Ecke, M. Jasnin, U. Engel, and G. Gerisch

Biophysical Journal 106, 1079-1091 (2014)

 

  • Ventures in Time and Space: Guiding Cells towards Regeneration

D. Heinrich  (Review) 

International Innovation,  Health Partnership, p. 17-19 (October 2013)

 

  • Single Particle Tracking in Living Cells: Is the Third Dimension Worth It? 

A. Dupont,  M. Gorelashvili, V. Schüller, F. Wehnekamp, D. Arcizet, Y. Katayama, D.C. Lamb, and D. Heinrich 

Biophysical Journal 104 (2):650a (2013)

 

  • Distinct cell shapes determine accurate chemotaxis

L. Tweedy , B. Meier, J. Stephan, D. Heinrich, and R. G. Endres
Scientific Reports 3, 2602 (2013)

 

  • Three-dimensional single-particle tracking in live cells: news from the third dimension

A. Dupont, M. Gorelashvili, V. Schüller, F. Wehnekamp, D. Arcizet, Y. Katayama, D.C. Lamb, and D. Heinrich
New J. Phys. 15, 075008 (2013)

 

  • Distribution of diffusion measures from a local mean-square displacement analysis

A. Nandi, D. Heinrich, and B. Lindner
Phys. Rev. E 86, 021926 (2012)

 

  • Local Motion Analysis Reveals Impact of the Dynamic Cytoskeleton on Intracellular Sub-Diffusion

M. Otten, A. Nandi, D. Arcizet, M. Gorelashvili, B. Lindner and D. Heinrich
Biophysical Journal 102:758-767 (2012)

 

  • Contact-controlled amoeboid motility induces dynamic cell trapping in 3D-microstructured surfaces

D. Arcizet, S. Capito, M. Gorelashvili, C. Leonhard, M. Vollmer, S. Youssef, S. Rappl and D. Heinrich
Soft Matter 8(5):1473-1481 (2012)

 

  • Chemotactic cell trapping in controlled alternating gradient fields

B. Meier, A. Zielinski, C. Weber, D. Arcizet, S. Youssef, T. Franosch, J. O. Rädler, and D. Heinrich
Proc. Natl. Acad. Sci. 108(28):11417-11422 (2011)

 

  • Physics of cellular movements

E. Sackmann, F. Keber and D. Heinrich
Annu. Rev. Condens. Matter Phys. 1:257–76 (2010)

 

  • Probing GFP-actin diffusion in living cells using Fluorescence Correlation Spectroscopy

H. Engelke, D. Heinrich and J.O. Rädler
Phys. Biol.7(4):046014 (2010)

 

  • Axonal Guidance by Surface Microstructuring for Intracellular Transport Investigations

C. Pelzl, D. Arcizet, G. Piontek, J. Schlegel, and D. Heinrich
ChemPhysChem 10, 2884 (2009)

 

  • Impact of external stimuli and cell micro-architecture on intracellular transport states

J. Mahowald, D. Arcizet, and D. Heinrich
ChemPhysChem 10, 1559 (2009)

 

  • Temporal analysis of active and passive transport in living cells

D. Arcizet, B. Meier, E. Sackmann, J. Rädler, and D. Heinrich
Phys. Rev. Lett. 101, 248103 (2008)

 

  • Temporal analysis of active and passive transport in living cells

D. Arcizet, B. Meier, E. Sackmann, J. Rädler, and D. Heinrich
Virtual Journal of Biological Physics Research, published on December 15 (2008)

 

  • Actin-Cytoskeleton Dynamics in Non-monotonic Cell Spreading

D. Heinrich, S. Youssef, B. Schroth-Diez, U. Engel, D. Aydin, J. Blümmel, J. Spatz, and G. Gerisch
Cell Adhesion & Migration 2, issue 2, p. 58-68 (April/May/June 2008) and Cover Image

 

  • Active mechanical stabilization of the viscoplastic intracellular space of Dictyostelia cells by microtubule-actin crosstalk

D. Heinrich, E. Sackmann
Acta Biomaterialia 2, p. 619-631 (May 2006)

 

  • Micromechanics of Cells: Viscoelastic Microscopy of Cells

E. Sackmann, A. Reuther, and D. Heinrich
Mechanics of the 21st Century - Eds.: W. Gutkovski, and T. Kowalevski, Springer Verlag, Dordrecht (Netherlands),
ISBN-10 1-4020-3456-3, p. 313-328 (2005)

and Proceedings (2004)

 

  • Wavelength Selective Optically Induced Charge Storage in Self-asssembled Semiconductor Quantum Dots

Doris Heinrich
Selected Topics of Semiconductor Physics and Technology, Eds.: G. Abstreiter, M.-C. Amann, M. Stutzmann, P. Vogl
ISBN 3-932749-52-9 (July 2003)

 

  • Optical Charging and De-charging of InAs Quantum Dots

D. Heinrich, A. Zrenner, G. Böhm, and G. Abstreiter
The Physics of Semiconductors, World Scientific © 2001
ISBN: 981-02-4030-9 (CD), section: L 1 article: 4

 

  • Charging Dynamics of Self- Assembled InAs Quantum Dots Investigated by Wavelength Selective Optically Induced Charge Storage Measurements

D. Heinrich, J. Hoffmann, A. Zrenner, G. Böhm, and G. Abstreiter
Physica Status Solidi (b) 224,1 p.357 (March 2001)

 

  • Optically-induced charge storage in self-assembled InAs quantum dots

D. Heinrich, J. Hoffmann, J. J. Finley, A. Zrenner, G. Böhm, G. Abstreiter
Thin Solid Films 380, p. 192 (December 2000)

 

  • Optical charging of self-assembled InAs quantum dots

D. Heinrich, J. Finley, M. Skalitz, J. Hoffmann, A. Zrenner, G. Böhm, G. Abstreiter
Optical Properties of Semiconductor Nanostructures, Eds.: M.L. Sadowski, M. Potemski, and M. Grynberg, Kluwer Academic Publishers, Dordrecht, ISBN: 0-7923-6316-7, p. 365-377 (June 2000)

 

  • Electron and hole storage in self-assembled InAs quantum dots

D. Heinrich, J. Hoffmann, J. J. Finley, A. Zrenner, G. Böhm, G. Abstreiter
Physica E7, p. 484-488 (May 2000)

 

  • Electrical detection of charge storage in self-assembled InAs quantum dots

J. J. Finley, M. Skalitz, D. Heinrich, M. Arzberger, A. Zrenner, G. Böhm, and G. Abstreiter
The Physics of Semiconductors, World Scientific, Singapore © 1999

section: X B, article: 1, ISBN: 981-02-4030-9 (CD), p. 1138

 

  • Exciton transport into single quantum wires studied by time-resolved low-temperature near-field scanning optical microscopy

Ch. Lienau, A. Richter, D. Heinrich, M. Süptitz, T. Elsaesser, R. Nötzel, M. Ramsteiner, and K. H. Ploog
The Physics of Semiconductors, World Scientific, Singapore © 1999
section: VII B, article: 21, ISBN: 981-02-4030-9 (CD), p. 1435

 

  • Time-resolved near-field spectroscopy of the carrier dynamics in single GaAs nanostructures

Ch. Lienau, A. Richter, D. Heinrich, T. Elsaesser, M. Ramsteiner, R. Nötzel, and K. H. Ploog
Ultrafast Phenomena XI, Springer Series in Chemical Physics, Eds.: T. Elsaesser, J.G. Fujimoto, D. A. Wiersma, W. Zinth,
Springer Verlag, Berlin, ISBN: 3540654305, p. 168-170 (December 1998)

 

  • Exciton transport into a single quantum wire studied by picosecond near-field optical spectroscopy

A. Richter, M. Süptitz, D. Heinrich, Ch. Lienau, T. Elsaesser, M. Ramsteiner, R. Nötzel, and K. H. Ploog
Appl. Phys. Lett. 73,15 p. 2176 (October 1998)

 

  • Nanoscale mapping of confinement potentials in single semiconductor quantum wires by near-field spectroscopy

Ch. Lienau, A. Richter, G. Behme, M. Süptitz, D. Heinrich, Ch. Lienau, T. Elsaesser, M. Ramsteiner, R. Nötzel, and K. H. Ploog,
Phys. Rev. B58, 4 p. 2045 (July 1998)

 

Books

 

  • Wavelength Selective Optically Induced Charge Storage in Self-asssembled Semiconductor Quantum Dots

Doris Heinrich,
Selected Topics of Semiconductor Physics and Technology, Eds.: G. Abstreiter, M.-C. Amann, M. Stutzmann, P. Vogl, ISBN 3-932749-52-9 (July 2003)

 

Conference Proceedings

 

  • Micromechanics of Cells: Viscoelastic Microscopy of Cells

E. Sackmann, A. Reuther, and D. Heinrich
21st International Congress of Theoretical and Applied Mechanics (ICTAM’04), Warsaw, Poland, Abstracts Books and CD- ROM Proceedings, Eds.: W. Gutkowski, and T. Kowalevski, ISBN: 83-89687-011, IPPT-PAN- Verlag, Warsaw (2004)

 

  • Optically induced charge storage and de-charging in InAs quantum dots

D. Heinrich, A. Zrenner, G. Böhm, and G. Abstreiter
Proc. of the 25th Int. Conference on the Physics of Semiconductors, Osaka
Springer Proc. 87, Eds.: N. Miura and T. Ando, Springer Verlag, p. 1115, Berlin (2001)

 

Annual Reports

 

  • In(Ga)As quantum dots as wavelength selective storage media

D. Heinrich, M. Kroutvar, A. Zrenner, G. Böhm, M. Bichler and G. Abstreiter
Fundamental research in semiconductor electronics-Annual Report 2001,
Walter Schottky Institut (TUM), p.80 (2002)

 

  • Optically induced charge storage and de-charging in InAs quantum dots

D. Heinrich, A. Zrenner, G. Böhm, and G. Abstreiter
Fundamental research in semiconductor electronics - Annual Report 2000,
Walter Schottky Institut (TUM), p.76 (2001)

 

  • Wavelength Selective Optically Induced Charge Storage in InAs Quantum Dots

D. Heinrich, J. Hoffmann, A. Zrenner, G. Böhm, and G. Abstreiter
Fundamental research in semiconductor electronics - Annual Report 1999,
Walter Schottky Institut (TUM), p.60 (2000)

 

  • Electron and Hole Storage in self-assembled quantum dots

D. Heinrich, J. Finley, R. Griesmeier, J. Hoffmann, C. Miesner, R. Neumann, G. Böhm, A. Zrenner, K. Brunner, and G. Abstreiter,
Fundamental research in semiconductor electronics - Annual Report 1998,
Walter Schottky Institut (TUM), p.50 (1999)