Robin Lindemann assists the firm in patent prosecution in areas related to chemistry and materials science. With a background in materials science, materials engineering and mathematics, Robin utilizes his technical experience when working with clients.

Prior to joining Wolf Greenfield, Robin was conferred his PhD in Materials Science from MIT, where he focused his research on the role of dynamic behavior in the function of peptides, proteins and self-assembling materials. His knowledge also spans the areas of mass spectrometry, magnetic resonance, X-ray and light scattering, surface characterization, light spectroscopy, electron microscopy, solid state peptide synthesis, radical/condensation polymerization techniques, thin-film electronics, electronic polymers, purification/workup techniques including HPLC, TLC, and flash chromatography.

In addition, Robin worked as a graduate fellow at MIT, where he helped synthesize and purify spin-labeled peptides for spectroscopic measurement and cell-binding assays, collected and fit electron paramagnetic resonance (EPR) measurements of spin-labeled peptides to determine dynamic behavior, and synthesized and studied self-assembly behavior of novel self-assembling aramid amphiphiles designed to provide extraordinary mechanical strength.
  • Cambridge School Volunteer Tutor
  • Lemelson-Vest Grant for Student Innovation
  • MADMEC Design Competition (2017 Winner)
  • National Science Foundation Graduate Fellow
  • Hertz Fellowship Finalist
  • Barry M. Goldwater Scholarship


  • Lindemann, W. R. et al. A global minimization toolkit for batch-fitting and chi-squared cluster analysis of CW-EPR spectra, accepted manuscript, Biophysical Journal, 2020.
  • Lindemann, W. R. et al. Conformational dynamics in extended RGD-containing peptides, Biomacromolecules, 21, 7, 2786-2794, 2020.
  • Lindemann, W. R. et al. Quantifying residue-specific conformational dynamics of a highly reactive 29-mer peptide, Scientific Reports, 10, 2597, 2020.
  • Lindemann, W. R. & Ortony, J. H. Probing local molecular properties of self-assembled systems with electron paramagnetic resonance (EPR). in Self-Assembling Biomaterials: Molecular Design, Characterization and Application in Biology and Medicine (eds. Azevedo, H. S. & da Silva, R. M. P.) (Woodhead Publishing, 2018).
  • Lindemann, W. R. et al. Oriented polyvinylidene fluoride-trifluoroethylene (P(VDF-TrFE)) films by Langmuir-Blodgett deposition: A synchrotron X-ray diffraction study. Phys. Chem. Chem. Phys. 17, 29335–29339 (2015).
  • Lindemann, W. R. et al. The effect of cesium carbonate on 1-(3-methoxycarbonyl)propyl-1-phenyl[6,6]C61 aggregation in films. Appl. Phys. Lett. 105, 1–6 (2014).
  • Lindemann, W. R. et al. An X-ray fluorescence study on the segregation of Cs and I in an inverted organic solar cell. Org. Electron. physics, Mater. Appl. 14, 3190–3194 (2013).
  • Fungura, F., Lindemann, W. R., Shinar, J. & Shinar, R. Carbon Dangling Bonds in Photodegraded Polymer:Fullerene Solar Cells. Adv. Energy Mater. 7, 1–11 (2017).
  • Elshobaki, M., Gebhardt, R., Carr, J., Lindemann, W. R., et al. Tailoring Nanoscale Morphology of Polymer:Fullerene Blends Using Electrostatic Field. Appl. Mater. Interfaces 9, 2678–2685 (2017).
  • Tulli, L. G., Wang, W., Rullaud, V., Lindemann, W. R., et al. Binding of calixarene-based Langmuir monolayers to mercury chloride is dependent on the amphiphile structure. RSC Adv. 6, 9278–9285 (2016).
  • Tulli, L. G., Wang, W., Lindemann, W. R., et al. Interfacial Binding of Divalent Cations to Calixarene-Based Langmuir Monolayers. Langmuir 31, 2351–2359 (2015).

Expand All
Robin Lindemann assists the firm in patent prosecution in areas related to chemistry and materials science. With a background in materials science, materials engineering and mathematics, Robin utilizes his technical experience when working with clients.

Prior to joining Wolf Greenfield, Robin was conferred his PhD in Materials Science from MIT, where he focused his research on the role of dynamic behavior in the function of peptides, proteins and self-assembling materials. His knowledge also spans the areas of mass spectrometry, magnetic resonance, X-ray and light scattering, surface characterization, light spectroscopy, electron microscopy, solid state peptide synthesis, radical/condensation polymerization techniques, thin-film electronics, electronic polymers, purification/workup techniques including HPLC, TLC, and flash chromatography.

In addition, Robin worked as a graduate fellow at MIT, where he helped synthesize and purify spin-labeled peptides for spectroscopic measurement and cell-binding assays, collected and fit electron paramagnetic resonance (EPR) measurements of spin-labeled peptides to determine dynamic behavior, and synthesized and studied self-assembly behavior of novel self-assembling aramid amphiphiles designed to provide extraordinary mechanical strength.
  • Cambridge School Volunteer Tutor
  • Lemelson-Vest Grant for Student Innovation
  • MADMEC Design Competition (2017 Winner)
  • National Science Foundation Graduate Fellow
  • Hertz Fellowship Finalist
  • Barry M. Goldwater Scholarship
  • Lindemann, W. R. et al. A global minimization toolkit for batch-fitting and chi-squared cluster analysis of CW-EPR spectra, accepted manuscript, Biophysical Journal, 2020.
  • Lindemann, W. R. et al. Conformational dynamics in extended RGD-containing peptides, Biomacromolecules, 21, 7, 2786-2794, 2020.
  • Lindemann, W. R. et al. Quantifying residue-specific conformational dynamics of a highly reactive 29-mer peptide, Scientific Reports, 10, 2597, 2020.
  • Lindemann, W. R. & Ortony, J. H. Probing local molecular properties of self-assembled systems with electron paramagnetic resonance (EPR). in Self-Assembling Biomaterials: Molecular Design, Characterization and Application in Biology and Medicine (eds. Azevedo, H. S. & da Silva, R. M. P.) (Woodhead Publishing, 2018).
  • Lindemann, W. R. et al. Oriented polyvinylidene fluoride-trifluoroethylene (P(VDF-TrFE)) films by Langmuir-Blodgett deposition: A synchrotron X-ray diffraction study. Phys. Chem. Chem. Phys. 17, 29335–29339 (2015).
  • Lindemann, W. R. et al. The effect of cesium carbonate on 1-(3-methoxycarbonyl)propyl-1-phenyl[6,6]C61 aggregation in films. Appl. Phys. Lett. 105, 1–6 (2014).
  • Lindemann, W. R. et al. An X-ray fluorescence study on the segregation of Cs and I in an inverted organic solar cell. Org. Electron. physics, Mater. Appl. 14, 3190–3194 (2013).
  • Fungura, F., Lindemann, W. R., Shinar, J. & Shinar, R. Carbon Dangling Bonds in Photodegraded Polymer:Fullerene Solar Cells. Adv. Energy Mater. 7, 1–11 (2017).
  • Elshobaki, M., Gebhardt, R., Carr, J., Lindemann, W. R., et al. Tailoring Nanoscale Morphology of Polymer:Fullerene Blends Using Electrostatic Field. Appl. Mater. Interfaces 9, 2678–2685 (2017).
  • Tulli, L. G., Wang, W., Rullaud, V., Lindemann, W. R., et al. Binding of calixarene-based Langmuir monolayers to mercury chloride is dependent on the amphiphile structure. RSC Adv. 6, 9278–9285 (2016).
  • Tulli, L. G., Wang, W., Lindemann, W. R., et al. Interfacial Binding of Divalent Cations to Calixarene-Based Langmuir Monolayers. Langmuir 31, 2351–2359 (2015).