I absolutely recommend a python object database like ZODB. It seems pretty well suited for your situation, considering you store objects (literally whatever you like) to a dictionary - this means you can store dictionaries inside dictionaries. I've used it in a wide range of problems, and the nice thing is that you can just hand somebody the database file (the one with a .fs extension). With this, they'll be able to read it in, and perform any queries they wish, and modify their own local copies. If you wish to have multiple programs simultaneously accessing the same database, I'd make sure to look at ZEO.
Just a silly example of how to get started:
from ZODB import DB
from ZODB.FileStorage import FileStorage
from ZODB.PersistentMapping import PersistentMapping
from persistent import Persistent
from persistent.dict import PersistentDict
from persistent.list import PersistentList
# Defining database type and creating connection.
storage = FileStorage('/path/to/database/zodbname.fs')
db = DB(storage)
connection = db.open()
root = connection.root()
# Define and populate the structure.
root['Vehicle'] = PersistentDict() # Upper-most dictionary
root['Vehicle']['Tesla Model S'] = PersistentDict() # Object 1 - also a dictionary
root['Vehicle']['Tesla Model S']['range'] = "208 miles"
root['Vehicle']['Tesla Model S']['acceleration'] = 5.9
root['Vehicle']['Tesla Model S']['base_price'] = "$71,070"
root['Vehicle']['Tesla Model S']['battery_options'] = ["60kWh","85kWh","85kWh Performance"]
# more attributes here
root['Vehicle']['Mercedes-Benz SLS AMG E-Cell'] = PersistentDict() # Object 2 - also a dictionary
# more attributes here
# add as many objects with as many characteristics as you like.
# commiting changes; up until this point things can be rolled back
Once the database is created it's very easy use. Since it's an object database (a dictionary), you can access objects very easily:
#after it's opened (lines from the very beginning, up to and including root = connection.root() )
>> root['Vehicles']['Tesla Model S']['range']
You can also display all of the keys (and do all other standard dictionary things you might want to do):
>> root['Vehicles']['Tesla Model S'].keys()
['acceleration', 'range', 'battery_options', 'base_price']
Last thing I want to mention is that keys can be changed: Changing the key value in python dictionary. Values can also be changed - so if your research results change because you change your method or something you don't have to start the entire database from scratch (especially if everything else is still okay). Be careful with doing both of these. I put in safety measures in my database code to make sure I'm aware of my attempts to overwrite keys or values.
** ADDED **
# added imports
import numpy as np
from tempfile import TemporaryFile
outfile = TemporaryFile()
# insert into definition/population section
root['Vehicle']['Tesla Model S']['arraydata'] = outfile
# check to see if it worked
>>> root['Vehicle']['Tesla Model S']['arraydata']
<open file '<fdopen>', mode 'w+b' at 0x2693db0>
outfile.seek(0)# simulate closing and re-opening
A = np.load(root['Vehicle']['Tesla Model S']['arraydata'])
>>> print A
array([-1. , -0.99979998, -0.99959996, ..., 0.99959996,
0.99979998, 1. ])
You could also use numpy.savez() for compressed saving of multiple numpy arrays in this exact same way.