Professor of Chemistry

What we do...

We are designing hollow supramolecular capsules or ‘cages’, which can be used to transport cargoes of molecules where we need them. These cages could be used to safely deliver drug therapies, reduce the costs and environmental effects of petroleum refining, and in many other areas.

Figuring out the rules

We are interested in discovering and developing new ways in which simple building blocks may be induced to self-assemble into complex, functional structures. Our investigations currently focus upon the self-assembly of imine bonds around metal-ion templates, bringing both covalent C=N and coordinative N→Metal bonds into being during the same overall self-assembly process. The structures thus created can rearrange in well-defined ways at both covalent and coordinative linkages. Ongoing projects include:

Container Molecules. The diamine and aldehyde shown above self-assemble with iron(II) in water to form a tetrahedral cage. This cage traps guest molecules within its cavity with high selectivity. The cage may be opened and the guest released using different triggers, one of which is a drop in pH. Applications in drug delivery are of interest, as are investigations of changes in the reactivity and behaviour of guest molecules upon encapsulation.

Functional Materials. We have recently developed means to create metal-containing conjugated polymers through self-assembly. DFT calculations carried out by Laura Gagliardi and Christopher Cramer suggest that these might conduct electricity. Studies are thus being undertaken to investigate their properties.

Watch Professor Nitschke discuss his research

Take a tour of the Nitschke Lab

Selected Publications

Feature Article: “Metal-organic container molecules through subcomponent self-assembly”, T.K. Ronson, S. Zarra, S.P. Black, J.R. Nitschke, Chem. Commun. 2013, 49, 2476-2490.

“Enantiopure Water-Soluble Fe₄L₆ Cages: Host-Guest Chemistry and Catalytic Activity”, Jeanne L. Bolliger, Ana M. Belenguer, and Jonathan R. Nitschke, Angew. Chem. Int. Ed. 2013, 52, 7958-7962.

“Aqueous Self-assembly of an Electroluminescent Double-helical Metallo-polymer”, X. de Hatten, D. Asil, R.H. Friend, J.R. Nitschke, J. Am. Chem. Soc. 2012, 135, 19170-19178.

“Anion-induced Reconstitution of a Self-assembling System to Express a Chloride-binding Co₁₀L₁₅ Pentagonal Prism”, I.A. Riddell, M.M.J. Smulders, J.K. Clegg, Y.R. Hristova, B. Breiner, J.D. Thoburn, J.R. Nitschke, Nature Chem. 2012, 51, 751-756.

“White phosphorus is air-stable within a self-assembled tetrahedral capsule” P. Mal, B. Breiner, K. Rissanen and J.R. Nitschke, Science 2009, 324, 1697-1699.

“Systems chemistry: Molecular networks come of age” J.R. Nitschke, Nature 2009, 462, 736-738.

Publications

Frontispiece: An Octanuclear Metallosupramolecular Cage Designed To Exhibit Spin‐Crossover Behavior

N Struch, C Bannwarth, TK Ronson, Y Lorenz, B Mienert, N Wagner, M Engeser, E Bill, R Puttreddy, K Rissanen, J Beck, S Grimme, JR Nitschke, A Lützen

Angewandte Chemie International Edition

(2017)

anie.201781861

(doi: 10.1002/anie.201781861)

Frontispiz: Ein achtkerniger metallosupramolekularer Würfel mit Spin‐Crossover‐Eigenschaften

N Struch, C Bannwarth, TK Ronson, Y Lorenz, B Mienert, N Wagner, M Engeser, E Bill, R Puttreddy, K Rissanen, J Beck, S Grimme, JR Nitschke, A Lützen

Angewandte Chemie

(2017)

129

ange.201781861

(doi: 10.1002/ange.201781861)

Stereochemical plasticity modulates cooperative binding in a CoII12L6 cuboctahedron

FJ Rizzuto, JR Nitschke

Nature chemistry

(2017)

903

(doi: 10.1038/nchem.2758)

An Octanuclear Metallosupramolecular Cage Designed To Exhibit Spin‐Crossover Behavior

N Struch, C Bannwarth, TK Ronson, Y Lorenz, B Mienert, N Wagner, M Engeser, E Bill, R Puttreddy, K Rissanen, J Beck, S Grimme, JR Nitschke, A Lützen

Angewandte Chemie (International ed. in English)

(2017)

4930

(doi: 10.1002/anie.201700832)

Sequence-selective encapsulation and protection of long peptides by a self-assembled Fe$^\text{II}$$_{8}$L$_{6}$ cubic cage

J Mosquera, B Szyszko, SKY Ho, JR Nitschke

Nat Commun

(2017)

14882

(doi: 10.1038/ncomms14882)

Ein achtkerniger metallosupramolekularer Würfel mit Spin‐Crossover‐Eigenschaften

N Struch, C Bannwarth, TK Ronson, Y Lorenz, B Mienert, N Wagner, M Engeser, E Bill, R Puttreddy, K Rissanen, J Beck, S Grimme, JR Nitschke, A Lützen

Angewandte Chemie

(2017)

129

5012

(doi: 10.1002/ange.201700832)

Directed Phase Transfer of an Fe$^{II}$$_{4}$L$_{4}$ Cage and Encapsulated Cargo

AB Grommet, JR Nitschke

Journal of the American Chemical Society

(2017)

139

2176

(doi: 10.1021/jacs.6b12811)

Anion Recognition as a Supramolecular Switch of Cell Internalization

J Rodríguez, J Mosquera, JR Couceiro, JR Nitschke, ME Vázquez, JL Mascareñas

Journal of the American Chemical Society

(2017)

139

(doi: 10.1021/jacs.6b11103)

Separation and Selective Formation of Fullerene Adducts within an M$^{II}$$_{8}$L$_{6}$ Cage.

W Brenner, TK Ronson, JR Nitschke

Journal of the American Chemical Society

(2017)

139

(doi: 10.1021/jacs.6b11523)

Anion Exchange Renders Hydrophobic Capsules and Cargoes Water-Soluble.

EG Percástegui, J Mosquera, JR Nitschke

Angew Chem Int Ed Engl

(2017)

9136

(doi: 10.1002/anie.201705093)

Professor Jonathan Nitschke

Professor Jonathan Nitschke

Professor of Chemistry

What we do...

Figuring out the rules

Watch Professor Nitschke discuss his research

Take a tour of the Nitschke Lab

Selected Publications

Publications

Research Group

Research Interest Groups

Telephone number

Email address

About the Department

Departmental Services

Study at Cambridge

About the University

Research at Cambridge