Skip to main content
  • Main Menu
  • Utility Menu
  • Search
University Logo
HARVARD.EDU

Whitesides Research Group

Shield
  • HOME
  • Research
    • Adaptive Materials, Composites and Polymers
    • Biophysics
    • Complexity and Simplicity
    • Density as a Tool for Chemistry and Biology
    • Diagnostics, Bioanalytics and other Tools for Global Health
    • Dissipative Systems
    • Electrochemistry
    • Flames
    • Lorenz Effects
    • Microfluidics in Polymers, Paper, and Thread
    • Molecular Electronics
    • Soft Robotics
    • The Chemical Origins of Life
    • Prior Research Interests
      • Bioanalysis
      • Electrets
      • Infochemistry
      • Paper as a Material
      • Self Assembly
      • Soft Lithography and Unconventional Nanofabrication
  • People
    • Alumni
  • Publications
  • Patents
  • Latest News
  • Contact
HOME / PUBLICATIONS / MATERIALS SCIENCE / SURFACES: SAMS, PE-CO2H, R2PTL2, OTHERS /

Mechanism of Reduction of L2PtR2 over Pt/H2

Download Citations
  • BibTex
  • Tagged
  • XML
1980
P. Foley, R. DiCosimo, and G. M. Whitesides. 1980. “The Mechanism of Thermal Decomposition of Dineopentylbis(triethyl-phosphine)platinum(II): Formation of Bis(triethylphosphine)-3,3-dimethylplatinacyclobutane.” J. Am. Chem. Soc., 102, Pp. 6713-6725. PDF
118

Sort by Year

  • 2023 (1)
  • 2022 (12)
  • 2021 (7)
  • 2020 (4)
  • 2019 (11)
  • 2018 (19)
  • 2017 (9)
  • 2016 (25)
  • 2015 (25)
  • 2014 (36)
  •  
  • 1 of 7
  • »
  • Agarwal, A. (1)
  • Agresti, J. J. (1)
  • Ahmed, M. (1)
  • Ainla, A. (12)
  • Aizenberg, J. (11)
  • Ajdari, A. (3)
  • Akaba, R. (1)
  • Akbulut, O. (3)
  • Akiyama, A. (4)
  • Aksay, I. A. (1)
  • «
  • 2 of 151
  • »

Filter By

  • ANALYTICAL METHODS AND ELECTROCHEMISTRY (106)
    • Capillary Electrophoresis (40)
      • Affinity Capillary Electrophoresis (30)
      • Protein Charge Ladders (20)
    • Chiral Europium Shift Reagents (4)
    • Density-Based Methods: Magnetic Levitation (MagLev) (32)
      • AMPs and MuPS (10)
      • MagLev (16)
    • Electrochemistry (30)
      • Electrochemistry on Paper (16)
      • Fuel Cells and Others (7)
      • Hand-help Devices (10)
  • BIOCHEMISTRY AND BIOLOGICAL SCIENCE (310)
    • Biophysics (82)
      • Carbonic Anhydrase and Protein-Ligand Binding (59)
      • Charge Regulation (13)
      • Entrophy/Enthalpy Compensation (17)
      • Hydrophobic Effect (35)
      • Microbiology (5)
      • Water in Biology (16)
    • Enzymes in Organic Synthesis (143)
      • Co-factor Regeneration and Simple Transformation (78)
      • Hybrids with Organometallics (6)
      • Supporting Technology (61)
      • Complex Synthesis: Carbohydrates (74)
    • Patterning with SAMs: Proteins, Cells (59)
    • Polyvalency (21)
      • Divalency and Trivalency (7)
      • Polymeric Polyvalency, Influenza, Others (16)
    • Thiolate-Disulfide Interchange (22)
  • CELL CULTURE (92)
    • Cells in Gels in Paper (CiGiP) (10)
    • Other (1)
    • Patterned Surfaces (66)
    • PDMS Microdevices: Microfluidics (43)
    • String (1)
  • CHARGE TRANSPORT BY TUNNELING: THE "EGaln JUNCTION" (45)
  • DISSIPATIVE, COMPLEX, AND SIMPLE SYSTEMS (22)
    • Complexity and Simplicity (6)
    • Flames (3)
    • Tribocharging (5)
    • Vortex Structures (6)
  • INFOCHEMISTRY (12)
    • Molecular Information (2)
  • LOW-COST DIAGNOSTICS (77)
    • Adaptive Reuse (7)
    • AMPS (7)
    • Developing World: Paper (38)
    • Developing World: PDMS (2)
    • Developing World: String (2)
    • Devices and Electrochemistry (24)
    • MagLev (11)
    • Other: Phage (3)
    • PDMS-based (8)
  • MATERIALS SCIENCE (758)
    • Electrets and Contact Electrification (25)
    • Materials (497)
      • Adaptive Materials (14)
      • Paper (46)
      • PDMS (242)
      • SAMs (237)
      • Silicon (61)
      • Thread (6)
    • Microfluidics (207)
      • Bioassays and Applications (61)
      • Devices (139)
      • Droplets and Bubbles (40)
      • Optical Devices (37)
      • Organisms: Bacteria and C. Elegans (23)
      • PDMS (137)
    • Polymers: PDMS, Conducting Solids, AMPs (273)
      • AMPs and MuPS (7)
      • Cross-linked High Carbon Solids (10)
      • PDMS (222)
      • Proteins (42)
    • Soft Lithography (311)
      • Biopatterning (49)
      • Devices and Structures (202)
      • Electrochemistry (25)
      • Microcontact Printing (152)
      • Micromolding (129)
      • Optical Systems (54)
    • Surfaces: SAMs, PE-CO2H, R2PtL2, Others (219)
      • "Polyethylene Carboxylic Acid" (15)
      • Buckling (8)
      • Mechanism of Formation of RMgX (3)
      • Mechanism of Reduction of L2PtR2 over Pt/H2 (1)
      • SAMs, Wetting, Materials-by-Design (196)
    • Unconventional Nano- and microfabrication (83)
      • Cracks (2)
      • Indentation (7)
      • Microlens Lithography (14)
      • Micromolding in Capillaries (MIMIC) (35)
      • Nanoreplication (11)
      • Nanoskiving (19)
      • Shadow-sphere Lithography (5)
  • ORIGINS OF LIFE (6)
  • PHYSICAL ORGANIC SCIENCE (205)
    • Analysis (1)
      • Theoretical Methods (6)
    • NMR Spectroscopy (47)
      • Chiral Europium Shift Reagents (2)
      • Exchange Reactions and Rates (35)
      • Other NMR (10)
    • Organic/Organometallic Synthetic Methods (114)
      • "Ate" Complexes of Copper and Silver (9)
      • Other Organometallics (54)
      • Others (9)
    • Organometallic Chemistry (125)
      • Copper and Silver Chemistry (28)
      • Grignard Reactions and RLi Chemistry (39)
      • Others (hg, Fe, Ti, ) (29)
      • Platinum Chemistry (49)
  • REVIEWS, BOOKS and EDITORIAL (152)
    • Editorial (33)
    • Review Paper (97)
  • SELF-ASSEMBLY (344)
    • Magnetic Levitation (10)
    • Melamine-Cyanurate and Related: Cyrstal Engineering (23)
    • Melamine-Cyanurate and Related: Molecular Aggregates (29)
    • Meso-scale Self-Assembly: Capillary-based Structures (27)
    • SAMs (218)
  • SOFT ROBOTICS (51)

Contact

Whitesides Research Group
Department of Chemistry and Chemical Biology
12 Oxford Street,
Cambridge, MA 02138
gmwoffice@gmwgroup.harvard.edu
Admin Login
OpenScholar
Copyright © 2023 The President and Fellows of Harvard College | Privacy | Accessibility | Digital Accessibility | Report Copyright Infringement