Bringing crystal structures to reality by three-dimensional printing

3-D Printing

Tim Claypole

January 2015

3-D printing is the process by which a 3-D digital design is converted into a component by depositin...

Crystallographic programmes for a computer

Gower, J. C.
Rayner, J. H.

January 1958

A brief description is given of programmes developed for the calculations involved in the X-ray anal...

Simulation of X-ray diffraction in crystallography

Ondříček, Adam

January 2012

The present work deals with modeling of crystallographic structures of electrotechnical materials an...

Bringing crystal structures to reality by three-dimensional printing

Kitson, Philip J.
Macdonell, Andrew
Tsuda, Soichiro
Zang, HongYing
Long, De-Liang
Cronin, Leroy

June 2014

The process of converting structural models derived from single-crystal X-ray diffraction experiment...

How to print a crystal structure model in 3D

Chen, Teng Hao
Lee, Semin
Flood, Amar H.
Miljanić, Ognjen Š

July 2014

We present a simple procedure for the conversion of Crystallographic Information Files (CIFs) into V...

Rapid Creation of Three-Dimensional, Tactile Models from Crystallographic Data

Nathan B. Fisher
John C. Charbonneau
Stephanie K. Hurst

January 2016

A method for the conversion of crystallographic information framework (CIF) files to stereo lithogra...

Find, Build, and Export Information for 3D Printing of Your Favorite Molecules and Crystal Structures at Two Dedicated Websites

DeStefano, Paul R.
Moeck, Peter

May 2017

As 3D printers require instructions, the Nano-Crystallography Group at Portland State University is ...

Preparing 3D Print Files for Nano-tech/science Education from Entries of Large Open-access Crystallographic Databases at Dedicated Websites

Moeck, Peter
Snyder, Trevor

January 2019

A straightforward route from crystallographic information framework files (CIFs) files at the Open-A...

3D Printed Molecules and Extended Solid Models for Teaching Symmetry and Point Groups

Vincent F. Scalfani (1330284)
Thomas P. Vaid (1330281)

December 2015

Tangible models help students and researchers visualize chemical structures in three dimensions (3D)...

3D Printed Molecules and Extended Solid Models for Teaching Symmetry and Point Groups

Vincent F. Scalfani (1330284)
Thomas P. Vaid (1330281)

December 2015

Tangible models help students and researchers visualize chemical structures in three dimensions (3D)...

Three Dimensional (3D) Printing: a Straightforward, User-Friendly Protocol To Convert Virtual Chemical Models to Real-Life Objects

S. Rossi
M. Benaglia
D. Brenna
R. Porta
M. Orlandi

January 2015

A simple procedure to convert protein data bank files (.pdb) into a stereolithography file (.stl) us...

Improving Geoscience Education with a Public Database of 3D-printable Crystal Models

Murrey, Michael

May 2019

An important application of crystallography is the description of the form and symmetry of minerals,...

Three-Dimensional Printing of Ellipsoidal Structures Using Mercury

Matthew Brown (4585981)
Ken Van Wieren (3840592)
Hamel N. Tailor (3840595)
David Hartling (4586395)
Anthony Jean (4586392)
Nabyl Merbouh (2505994)

November 2017

A description of how to use the Mercury software from the CCDC to print 3-dimensional crystal struct...

3D Printing Makes Solar Power Less Expensive, Gives Wider Range

El-Shahat, Adel

February 2017

The 3D‐printing process involves making a three‐dimensional solid object from a digital design/model...

Protein crystallography: From X-ray diffraction spots to a three dimensional image

Terwilliger, T.C.
Berendzen, J.

February 1998

Proteins are remarkable molecular machines that are essential for life. They can do many things rang...

3-D Printing

Tim Claypole

January 2015

3-D printing is the process by which a 3-D digital design is converted into a component by depositin...

Crystallographic programmes for a computer

Gower, J. C.
Rayner, J. H.

January 1958

A brief description is given of programmes developed for the calculations involved in the X-ray anal...

Simulation of X-ray diffraction in crystallography

Ondříček, Adam

January 2012

The present work deals with modeling of crystallographic structures of electrotechnical materials an...

Bringing crystal structures to reality by three-dimensional printing

Kitson, Philip J.
Macdonell, Andrew
Tsuda, Soichiro
Zang, HongYing
Long, De-Liang
Cronin, Leroy

June 2014

The process of converting structural models derived from single-crystal X-ray diffraction experiment...

How to print a crystal structure model in 3D

Chen, Teng Hao
Lee, Semin
Flood, Amar H.
Miljanić, Ognjen Š

July 2014

We present a simple procedure for the conversion of Crystallographic Information Files (CIFs) into V...

Rapid Creation of Three-Dimensional, Tactile Models from Crystallographic Data

Nathan B. Fisher
John C. Charbonneau
Stephanie K. Hurst

January 2016

A method for the conversion of crystallographic information framework (CIF) files to stereo lithogra...

Find, Build, and Export Information for 3D Printing of Your Favorite Molecules and Crystal Structures at Two Dedicated Websites

DeStefano, Paul R.
Moeck, Peter

May 2017

As 3D printers require instructions, the Nano-Crystallography Group at Portland State University is ...

Preparing 3D Print Files for Nano-tech/science Education from Entries of Large Open-access Crystallographic Databases at Dedicated Websites

Moeck, Peter
Snyder, Trevor

January 2019

A straightforward route from crystallographic information framework files (CIFs) files at the Open-A...

3D Printed Molecules and Extended Solid Models for Teaching Symmetry and Point Groups

Vincent F. Scalfani (1330284)
Thomas P. Vaid (1330281)

December 2015

Tangible models help students and researchers visualize chemical structures in three dimensions (3D)...

3D Printed Molecules and Extended Solid Models for Teaching Symmetry and Point Groups

Vincent F. Scalfani (1330284)
Thomas P. Vaid (1330281)

December 2015

Tangible models help students and researchers visualize chemical structures in three dimensions (3D)...

Three Dimensional (3D) Printing: a Straightforward, User-Friendly Protocol To Convert Virtual Chemical Models to Real-Life Objects

S. Rossi
M. Benaglia
D. Brenna
R. Porta
M. Orlandi

January 2015

A simple procedure to convert protein data bank files (.pdb) into a stereolithography file (.stl) us...

Improving Geoscience Education with a Public Database of 3D-printable Crystal Models

Murrey, Michael

May 2019

An important application of crystallography is the description of the form and symmetry of minerals,...

Three-Dimensional Printing of Ellipsoidal Structures Using Mercury

Matthew Brown (4585981)
Ken Van Wieren (3840592)
Hamel N. Tailor (3840595)
David Hartling (4586395)
Anthony Jean (4586392)
Nabyl Merbouh (2505994)

November 2017

A description of how to use the Mercury software from the CCDC to print 3-dimensional crystal struct...

3D Printing Makes Solar Power Less Expensive, Gives Wider Range

El-Shahat, Adel

February 2017

The 3D‐printing process involves making a three‐dimensional solid object from a digital design/model...

Protein crystallography: From X-ray diffraction spots to a three dimensional image

Terwilliger, T.C.
Berendzen, J.

February 1998

Proteins are remarkable molecular machines that are essential for life. They can do many things rang...

3-D Printing

Tim Claypole

January 2015

3-D printing is the process by which a 3-D digital design is converted into a component by depositin...

Crystallographic programmes for a computer

Gower, J. C.
Rayner, J. H.

January 1958

A brief description is given of programmes developed for the calculations involved in the X-ray anal...

Simulation of X-ray diffraction in crystallography

Ondříček, Adam

January 2012

The present work deals with modeling of crystallographic structures of electrotechnical materials an...

Bringing crystal structures to reality by three-dimensional printing

Abstract

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Bringing crystal structures to reality by three-dimensional printing

Abstract

Extracted data

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