The Landes Research Group at Rice University in Houston, Texas

Our Science...

Proteins interacting with a surface

Dipoles on nanowires

Nobel-Prize winning nano-chemistry

Looking over a new instrument.

A dot of green in the big city

Proteins interacting with a surface

The Landes Research Group develops new spectroscopic tools to image chemical dynamics at interfaces at the limit of a single event. Using this super-resolved chemical knowledge, we create new models to understand and predict macroscale processes like protein separation and photocatalysis.

Ensemble vs. Single Molecule

A wide range of biological and materials processes rely on nanoscale interfacial dynamics. Single molecule methods allow us to identify the chemical complexity of these interactions by revealing the underlying populations that form the ensemble measurement. In doing so, we can identify and tune the rare chemical populations that play a crucial role in reactivity.

Towards Predictive Separations

The cost of bringing a new protein based therapeutic to market averages ~$2.6 billion dollars, of which 50% can be dedicated to isolating and purifying the active compound. A primary contributor to the cost is the empirical optimization of chromatographic separation. Our lab seeks to understand separations from the scale of individual analytes, with a goal to create a new predictive model of chromatography to eliminate the need for costly empirical methods.

Breaking the Abbe-Diffraction Limit

The Abbe diffraction limit sets a lower bound of a few hundred nanometers for the size of objects we can observe with traditional optical microscopy. This limit is defined by light’s wavelength. Our lab develops new mathematical methods to break the Abbe diffraction limit and achieve spatial resolutions of just a few nanometers and time resolutions faster than traditional cameras frame times.

Quals Passed 04/11/2019

Congratulations to Anastasiia Misiura for passing her Qualifying Exam this week. We look forward to your accomplishments in the coming years.

Ph.D. 04/09/2019

Congratulations to Sudeshna Chatterjee for passing her Thesis defense. Good luck in Portland Sudeshna!

In the news... 02/14/2019

Congratulations to Wenxiao Wang, Nicholas Moringo, and Chayan Dutta for getting their newest publication featured in the press!

New Postdoctoral Scholar 01/07/2019

We are happy to welcome our new Postdoctoral Researcher Min Zhou to the LRG Offices. What a great way to ring in the New Year!

Ph.D. 12/12/2018

The LRG congratulates Wenxiao Wang on successfully passing his thesis defense. Good luck at Google, we know you'll do great!

New Laboratory Space 12/07/2018

The LRG is officially out of Dell Butcher Hall! Stay tuned for pictures of all the exciting things happening in our new lab space!

More News

Predictive Separations

Spectro-electrochemistry

Protein Dynamics at Interfaces

Imaging and Signal Processing

Single-Molecule Spectroscopy

Flatebo, C., Collins, S.S.E., Hoener, B.S., Cai, Y-Y., Link, S., Landes, C.F., "Electrodissolution Inhibition of Gold Nanorods with Oxoanions" J. Phys. Chem. C, 2019

Baiyasi, R, Jebeli, S.A.H., Zhang, Q., Su, L.,Hofkens, J., Uji-i, H., Link, S., Landes, C.F., "PSF Distortion in Dye-Plasmonic Nanomaterial Interactions: Friend or Foe?" ACS Photonics 2019, 6(3), pp. 699-708

Wang, W., Ye, F., Shen, H., Moringo, N.A., Dutta, C., Robinson, J.T., Landes, C.F., "Generalized method to design phase masks for 3D super-resolution microscopy" Opt. Express 2019, 27(3), pp. 3799-3816

Chatterjee, S., A., Carina, Nurik, C.E., Carrejo, N.C., Dutta, C., Jayaraman, V., Landes, C.F., "Phosphorylation Induces Conformational Rigidity at the C-Terminal Domain of AMPA Receptors" J. Phys. Chem. B 2019

Phosphorylation Induces Conformational Rigidity at the C-Terminal Domain of AMPA Receptors

Al-Zubeidi, A., Hoener, B.S., Collins, S.S.E., Wang, W., Kirchner, S.R., Jebeli, S.A.H, Joplin, A., Chang, W-S., Link, S., Landes, C.F., "Hot Holes Assist Plasmonic Nanoelectrode Dissolution" Nano Lett. 2019