Fuel Cell Stocks List
Symbol | Grade | Name | % Change | |
---|---|---|---|---|
CJET | F | Chijet Motor Company, Inc. | 0.51 | |
NB | F | NioCorp Developments Ltd. | 2.21 | |
HYZN | F | Hyzon Motors Inc. | -0.58 | |
PLUG | F | Plug Power, Inc. | 1.59 | |
SVVC | F | Firsthand Technology Value Fund, Inc. | 0.00 | |
BLDP | F | Ballard Power Systems, Inc. | 2.34 | |
HDRO | D | Defiance Next Gen H2 ETF | 2.70 | |
IBAT | D | iShares Energy Storage & Materials ETF | 1.00 | |
AVAV | D | AeroVironment, Inc. | 0.85 | |
HTGC | D | Hercules Technology Growth Capital, Inc. | 1.24 |
Related Industries: Aerospace & Defense Auto Manufacturers Conglomerates Diversified Industrials Electronic Components Other Industrial Metals & Mining Specialty Finance Utilities - Diversified Utilities - Independent Power Producers
Symbol | Grade | Name | Weight | |
---|---|---|---|---|
HYDR | D | Global X Hydrogen ETF | 10.5 | |
HDRO | D | Defiance Next Gen H2 ETF | 9.31 | |
PBDC | B | Putnam BDC Income ETF | 6.84 | |
BIZD | B | Market Vectors BDC Income ETF | 4.56 | |
LBO | A | WHITEWOLF Publicly Listed Private Equity ETF | 4.49 |
Compare ETFs
- Fuel Cell
A fuel cell is an electrochemical cell that converts the potential energy from a fuel into electricity through an electrochemical reaction of hydrogen fuel with oxygen or another oxidizing agent. Fuel cells are different from batteries in requiring a continuous source of fuel and oxygen (usually from air) to sustain the chemical reaction, whereas in a battery the chemical energy comes from chemicals already present in the battery. Fuel cells can produce electricity continuously for as long as fuel and oxygen are supplied.
The first fuel cells were invented in 1838. The first commercial use of fuel cells came more than a century later in NASA space programs to generate power for satellites and space capsules. Since then, fuel cells have been used in many other applications. Fuel cells are used for primary and backup power for commercial, industrial and residential buildings and in remote or inaccessible areas. They are also used to power fuel cell vehicles, including forklifts, automobiles, buses, boats, motorcycles and submarines.
There are many types of fuel cells, but they all consist of an anode, a cathode, and an electrolyte that allows positively charged hydrogen ions (protons) to move between the two sides of the fuel cell. At the anode a catalyst causes the fuel to undergo oxidation reactions that generate protons (positively charged hydrogen ions) and electrons. The protons flow from the anode to the cathode through the electrolyte after the reaction. At the same time, electrons are drawn from the anode to the cathode through an external circuit, producing direct current electricity. At the cathode, another catalyst causes hydrogen ions, electrons, and oxygen to react, forming water. Fuel cells are classified by the type of electrolyte they use and by the difference in startup time ranging from 1 second for proton exchange membrane fuel cells (PEM fuel cells, or PEMFC) to 10 minutes for solid oxide fuel cells (SOFC). A related technology is flow batteries, in which the fuel can be regenerated by recharging. Individual fuel cells produce relatively small electrical potentials, about 0.7 volts, so cells are "stacked", or placed in series, to create sufficient voltage to meet an application's requirements. In addition to electricity, fuel cells produce water, heat and, depending on the fuel source, very small amounts of nitrogen dioxide and other emissions. The energy efficiency of a fuel cell is generally between 40–60%; however, if waste heat is captured in a cogeneration scheme, efficiencies up to 85% can be obtained.
The fuel cell market is growing, and in 2013 Pike Research estimated that the stationary fuel cell market will reach 50 GW by 2020.
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