Richard M Parker

University of Cambridge

H-index: 25

Europe-United Kingdom

About Richard M Parker

Richard M Parker, With an exceptional h-index of 25 and a recent h-index of 22 (since 2020), a distinguished researcher at University of Cambridge, specializes in the field of Chemistry Materials Microfluidics Photonics.

His recent articles reflect a diverse array of research interests and contributions to the field:

Directed Aggregation of Cellulose Nanocrystals to Enhance Chiral Twist

Inkjet Printed Photonic Cellulose Nanocrystal Patterns

Research data supporting" Exploiting the Thermotropic Behavior of Hydroxypropyl Cellulose to Produce Edible Photonic Pigments"

Structural Color from Cellulose Nanocrystals or Chitin Nanocrystals: Self-Assembly, Optics, and Applications

Research data supporting" Inkjet Printed Photonic Cellulose Nanocrystal Patterns"

Tuning the Color of Photonic Glass Pigments by Thermal Annealing

Bioinspired Photonic Materials from Cellulose: Fabrication, Optical Analysis, and Applications

Exploiting the thermotropic behavior of hydroxypropyl cellulose to produce edible photonic pigments

Richard M Parker Information

University	University of Cambridge
Position	___
Citations(all)	2529
Citations(since 2020)	2001
Cited By	1110
hIndex(all)	25
hIndex(since 2020)	22
i10Index(all)	36
i10Index(since 2020)	30
Email	Access Email
University Profile Page	University of Cambridge
Google Scholar	View Google Scholar Profile

Richard M Parker Skills & Research Interests

Chemistry Materials Microfluidics Photonics

Top articles of Richard M Parker

Title	Journal	Author(s)	Publication Date
Directed Aggregation of Cellulose Nanocrystals to Enhance Chiral Twist	arXiv preprint arXiv:2404.04171	Kévin Ballu Jia-Hui Lim Thomas G Parton Richard M Parker Bruno Frka-Petesic ...	2024/4/5
Inkjet Printed Photonic Cellulose Nanocrystal Patterns	Advanced Materials	Cyan A Williams Richard M Parker Andrew Kyriacou Maria Murace Silvia Vignolini	2024/1
Research data supporting" Exploiting the Thermotropic Behavior of Hydroxypropyl Cellulose to Produce Edible Photonic Pigments"		Siyi Ming Xiaotian Zhang Chun Lam Clement Chan Zhen Wang Melanie Bay ...	2023/1/10
Structural Color from Cellulose Nanocrystals or Chitin Nanocrystals: Self-Assembly, Optics, and Applications		Bruno Frka-Petesic Thomas G Parton Camila Honorato-Rios Aurimas Narkevicius Kevin Ballu ...	2023/11/27
Research data supporting" Inkjet Printed Photonic Cellulose Nanocrystal Patterns"		Cyan Williams Richard Parker Andrew Kyriacou Maria Murace Silvia Vignolini	2023/11/10
Tuning the Color of Photonic Glass Pigments by Thermal Annealing	Advanced Materials	Zhen Wang Ruiting Li Yating Zhang Chun Lam Clement Chan Johannes S Haataja ...	2023/8
Bioinspired Photonic Materials from Cellulose: Fabrication, Optical Analysis, and Applications	Accounts of Materials Research	Richard M Parker Thomas G Parton Chun Lam Clement Chan Mélanie M Bay Bruno Frka-Petesic ...	2023/5/24
Exploiting the thermotropic behavior of hydroxypropyl cellulose to produce edible photonic pigments	Advanced Sustainable Systems	Siyi Ming Xiaotian Zhang Chun Lam Clement Chan Zhen Wang Mélanie M Bay ...	2023/4
Revealing the Structural Coloration of Self‐Assembled Chitin Nanocrystal Films	Advanced Materials	Aurimas Narkevicius Richard M Parker Jordi Ferrer‐Orri Thomas G Parton Zihao Lu ...	2022/8
Research data supporting" Structurally Colored Radiative Cooling Cellulosic Films"		Qingchen Shen Richard Parker Wenkai Zhu Benjamin Droguet Yun Zhang ...	2022/6/30
Chiral self-assembly of cellulose nanocrystals is driven by crystallite bundles	Nature Communications	Thomas G Parton Richard M Parker Gea T van de Kerkhof Aurimas Narkevicius Johannes S Haataja ...	2022/5/12
Research data supporting" 3D Printing of Liquid Crystalline Hydroxypropyl Cellulose–Toward Tunable and Sustainable Volumetric Photonic Structures"		Chun Lam Clement Chan Gerda van de Kerkhof Yanyan Huang	2022/6/24
Research data supporting" Tuning the Color of Photonic Glass Pigments by Thermal Annealing"		Zhen Wang Ruiting Li Kui Yu Richard Parker Silvia Vignolini	2022/12/9
The Limited Palette for Photonic Block‐Copolymer Materials: A Historical Problem or a Practical Limitation?		Zhen Wang Chun Lam Clement Chan Richard M Parker Silvia Vignolini	2022/5/23
Cellulose photonic pigments	Nature Communications	Richard M Parker Tianheng H Zhao Bruno Frka-Petesic Silvia Vignolini	2022/6/13
Structurally colored radiative cooling cellulosic films	Advanced Science	Wenkai Zhu Benjamin Droguet Qingchen Shen Yun Zhang Thomas G Parton ...	2022/9
Research data supporting" Chiral Self-Assembly of Cellulose Nanocrystals is Driven by Crystallite Bundles"		Thomas Parton Richard Parker Gerda van de Kerkhof Aurimas Narkevicius Johannes Haataja ...	2022/4/12
Research data supporting" Revealing the Structural Coloration of Self-Assembled Chitin Nanocrystal Films"		Aurimas Narkevicius Richard Parker Jordan Ferrer Orri Thomas Parton Zihao Lu ...	2022/6/7
Deconvoluting the optical response of biocompatible photonic pigments	Angewandte Chemie International Edition	Zhen Wang Chun Lam Clement Chan Johannes S Haataja Lukas Schertel Ruiting Li ...	2022/8/22
3D printing of liquid crystalline hydroxypropyl cellulose—toward tunable and sustainable volumetric photonic structures	Advanced Functional Materials	Chun Lam Clement Chan Iek Man Lei Gea T van de Kerkhof Richard M Parker Kieran D Richards ...	2022/4